CN111608540B

CN111608540B - Magnesium-aluminum alloy stamping part

Info

Publication number: CN111608540B
Application number: CN202010334652.4A
Authority: CN
Inventors: 张跃; 唐朋飞
Original assignee: Huimin Tianyang Metal Material Co ltd
Current assignee: Huimin Tianyang Metal Material Co ltd
Priority date: 2020-04-24
Filing date: 2020-04-24
Publication date: 2021-12-14
Anticipated expiration: 2040-04-24
Also published as: CN111608540A

Abstract

The invention belongs to the technical field of stamping part preparation, and particularly relates to a magnesium-aluminum alloy stamping part; comprises a U-shaped base frame, a clamping plate and a positioning column; the clamping plates are symmetrically arranged on the inner side wall of the top end of the U-shaped base frame, so that the clamping plates are perpendicular to the side wall of the top end of the U-shaped base frame; the positioning column is arranged on the side wall of the clamping plate; the glass is symmetrically fixed in the stamping part through the matching of the U-shaped base frame, the clamping plate and the positioning column, so that the uniform thickness of the glass cement is ensured; at glass male in-process, elastic deformation takes place for splint to realized the fastening effect to glass, avoided glass to take place to rock in the U-shaped bed frame, and guaranteed the distance between glass both sides and the U-shaped bed frame lateral wall, thereby make the staff at the in-process of paining glass and glue, can guarantee the gluey thickness homogeneity of glass both sides glass, thereby improved door and window's overall quality, improved door and window's waterproof and sound insulation effect.

Description

Magnesium-aluminum alloy stamping part

Technical Field

The invention belongs to the technical field of stamping part preparation, and particularly relates to a magnesium-aluminum alloy stamping part.

Background

Magnesium-aluminum alloy is one of the alloys, and the low density of the alloy of magnesium and aluminum improves the specific performance; the magnesium-aluminum alloy has good strength, rigidity and dimensional stability; the door and window is divided into an enclosure member or a partition member according to different positions, different design requirements are required to have the functions of heat preservation, heat insulation, sound insulation, water resistance, fire prevention and the like, new requirements are energy-saving, and heat lost by door and window gaps in cold regions accounts for about 25% of the total heating heat consumption; the requirement of the tightness of the door and window is an important content in the energy-saving design; doors and windows are important components of building envelope systems; the second function is: the door and the window are important components of the building shape (the virtual-real contrast and the rhythm artistic effect play an important role), so the shape, the size, the proportion, the arrangement, the color, the shape and the like of the door and the window have great influence on the whole shape of the building; magnesium-aluminum alloy is a common material in doors and windows.

Some technical schemes related to magnesium-aluminum alloy stamping parts also appear in the prior art, for example, a chinese patent with application number 2016107667138 discloses a magnesium-aluminum alloy stamping part which is mainly used as an electric vehicle accessory; the magnesium-aluminum alloy stamping part is prepared from the following materials in parts by mass: 7.5 to 8.5 percent of aluminum, 1.0 to 1.5 percent of zinc, 0.25 to 0.5 percent of manganese, 0.3 to 0.45 percent of zirconium, 0.05 to 0.15 percent of lithium, 0.019 to 0.025 percent of silicon, and the balance of magnesium and other impurities; the magnesium-aluminum alloy stamping material is used as an electric vehicle accessory, has the characteristics of lightness, thinness, good rigidity, good dimensional stability, good aging resistance and the like, and improves the formula of the magnesium-aluminum alloy, so that the magnesium-aluminum alloy stamping material has good tensile property, strong corrosion resistance and high strength; however, the application condition of the magnesium-aluminum alloy in the door and window is not considered in the technical scheme, after the magnesium-aluminum alloy is used as the door and window structure, in the process of installing glass on the door and window, the glass can shake and incline between the door and the window, so that when workers coat the glass cement, the thickness of the glass cement on two sides of the glass is not uniform, and the service life and the sealing property of the door and the window are influenced; and in the process of installing the glass into the door and window, when the operation of workers is wrong, the glass collides with the side wall of the door and window, so that the side wall of the glass is damaged.

Disclosure of Invention

In order to make up for the defects of the prior art, the problems that after the magnesium-aluminum alloy is used as a door and window structure, in the process of installing glass on the door and window, the glass can shake and incline between the door and the window, so that when workers paint glass cement, the thickness of the glass cement on two sides of the glass is not uniform, and the service life and the sealing property of the door and the window are affected are solved; in addition, when the glass is installed in the door and window and the operation of workers is wrong, the glass collides with the side wall of the door and window, so that the side wall of the glass is damaged; the invention provides a magnesium-aluminum alloy stamping part.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a magnesium-aluminum alloy stamping part which comprises a U-shaped base frame, a clamping plate and a positioning column; the clamping plates are symmetrically arranged on the inner side wall of the top end of the U-shaped base frame, so that the clamping plates are perpendicular to the side wall of the top end of the U-shaped base frame; the positioning column is arranged on the side wall of the clamping plate; the glass is symmetrically fixed in the stamping part through the matching of the U-shaped base frame, the clamping plate and the positioning column, so that the uniform thickness of the glass cement is ensured; when the glass door and window frame is used, in the process of manufacturing a door and window by workers, the U-shaped base frame is firstly installed on the outer side wall of glass, then the U-shaped base frames are fixed in position through screws, and finally, a gap between the glass and the U-shaped base frame is filled with glass cement for waterproof and fixing; install the in-process at the glass lateral wall with the U-shaped bed frame, insert the glass lateral wall between the splint, at glass male in-process, glass produces the extrusion to the splint, make splint take place elastic deformation, and the reference column contacts with the glass lateral wall all the time, thereby realized the fastening effect to glass, avoid glass to take place to rock in the U-shaped bed frame, and guaranteed the distance between glass both sides and the U-shaped bed frame lateral wall, thereby make the staff at the in-process of paining glass and glue, can guarantee the thickness homogeneity that glass both sides glass glued, thereby door and window's overall quality has been improved, door and window's waterproof and sound insulation effect is improved.

Preferably, a roller is arranged in the U-shaped base frame; the roller is connected to the side wall between the clamping plate and the U-shaped base frame in a rolling manner under the action of the positioning column; the elastic deformation angle of the clamping plate is reduced through the matching of the U-shaped base frame, the clamping plate, the positioning column and the roller; during the use, at the in-process of installing the U-shaped bed frame at the glass lateral wall, insert the glass lateral wall between the splint, at glass male in-process, glass produces the extrusion to the splint, make splint take place elastic deformation, and the reference column contacts with the glass lateral wall all the time, splint extrude the roller after taking place elastic deformation, make the roller roll to the direction that is close to the U-shaped bed frame, realized prescribing a limit to gradually of splint position, avoid in the installation of U-shaped bed frame, splint produce plastic deformation after receiving the striking of glass lateral wall, splint just can't carry out effectual fixed action to glass again this moment, consequently after being equipped with the roller, can carry out cushioning effect to the deformation of splint, thereby the whole result of use of stamping workpiece has been guaranteed.

Preferably, a cavity is formed in the roller, and a plurality of air nozzles are arranged on the side wall of the roller close to the positioning column; the air jet is communicated with the cavity; the cooling speed of the glass cement is accelerated through the matching of the roller, the air jet and the clamping plate; during the use, install the back on the glass lateral wall with the U-shaped bed frame, the staff need fill glass glue in the gap department between glass and U-shaped bed frame, at the in-process that fills glass glue, glass glue can flow into in the gap between U-shaped bed frame and the support, extrude the roller, the roller pressurized back, take place elastic deformation, thereby extrude the air in the cavity and spout through the air jet, after air blowout to glass glue the surface, accelerate the cooling solidification rate that glass glued, when avoiding glass glue not yet solidify, influence the distribution homogeneity that glass glued in door and window's handling, thereby further strengthened the stability that glass installed in door and window.

Preferably, a flexible elastic sheet is arranged on the side wall between the clamping plates; the glass is prevented from being directly contacted with the side wall of the U-shaped base frame through the matching of the clamping plate and the flexible elastic sheet; when the glass buffer is used, in the process of manufacturing doors and windows by workers, the U-shaped base frame is firstly installed on the outer side wall of the glass, and in the installation process of the U-shaped base frame, the glass is firstly contacted with the flexible elastic sheet, so that the buffer effect on the glass is realized, and the damage to the side wall of the glass caused by the fact that the glass is directly contacted with the U-shaped base frame due to the fact that the workers exert too much force when installing the U-shaped base frame is avoided; and in the process that the flexible elastic sheet buffers glass, the flexible elastic sheet is elastically deformed, and after the flexible elastic sheet is elastically deformed, the flexible elastic sheet generates tension on the clamping plate, so that the clamping effect of the clamping plate on the glass is enhanced, the stability of the glass is further ensured, the glass glue is uniformly distributed on two sides of the glass, and the overall processing quality of doors and windows is improved.

Preferably, the side walls of the clamping plates close to each other are symmetrically provided with guide cones; the cross section of the guide cone is in a right-angled triangle shape, and the side walls of two right-angled sides of the guide cone are respectively contacted with the clamping plate and the positioning column, so that the closer the distance between the guide cones is, the smaller the distance between the guide cones is, and the distances between the guide cones and the positioning column are the same; the side wall of the glass is prevented from being damaged after being directly contacted with the positioning column through the matching of the guide cone and the positioning column; during the use, carry out door and window's manufacture in-process at the staff, install the U-shaped bed frame on glass's lateral wall earlier, in the installation of U-shaped bed frame, glass slides along the guide cone earlier, until slide to contact the back with the reference column, press from both sides tight glass through splint to effectively avoided glass when inserting between the splint, produced the striking between direct and the reference column, reduced glass and received the collision in the installation and take place broken probability.

Preferably, the side walls of the clamping plates which are far away from each other are provided with a first wavy groove; a second wavy groove is correspondingly formed in the side wall, close to the first wavy groove, of the U-shaped base frame; the storage amount of the glass cement between the clamping plate and the U-shaped base frame is increased through the matching of the clamping plate, the first wavy groove, the second wavy groove and the U-shaped base frame, and the action area of the glass cement is increased; during the use, after installing the U-shaped bed frame on the glass lateral wall, the staff need fill glass at the gap department between glass and U-shaped bed frame and glue, splint and glass are glued to wave recess and No. two wave recesses can effectively be increased, and the area of contact between U-shaped bed frame and the glass glue, the gluey adhesion effect of reinforcing glass, and wave recess and No. two wave recesses can be glued glass and store, when making splint take place elastic deformation, although the distance between splint and the U-shaped bed frame lateral wall dwindles this moment, also can guarantee the packing volume of glass glue between splint and U-shaped bed frame, the installation effectiveness of door and window has further been guaranteed.

The invention has the following beneficial effects:

1. according to the magnesium-aluminum alloy stamping part, the glass is symmetrically fixed in the stamping part through the matching of the U-shaped base frame, the clamping plate and the positioning column, the uniform thickness of glass cement is ensured, the fastening effect on the glass is realized, the glass is prevented from shaking in the U-shaped base frame, and the distance between two sides of the glass and the side wall of the U-shaped base frame is ensured, so that the thickness uniformity of the glass cement on two sides of the glass can be ensured in the process of coating the glass cement by a worker, the overall quality of doors and windows is improved, and the waterproof and sound insulation effects of the doors and windows are improved.

2. According to the magnesium-aluminum alloy stamping part, the cooling speed of the glass cement is increased through the matching of the roller, the air jet and the clamping plate, the air in the cavity is extruded out and is jetted out through the air jet, the cooling solidification speed of the glass cement is increased after the air is jetted out to the surface of the glass cement, the distribution uniformity of the glass cement is prevented from being influenced in the process of carrying doors and windows when the glass cement is not solidified, and therefore the stability of glass mounted in the doors and windows is further improved.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

in the figure: u-shaped bed frame 1, splint 2, reference column 3, roller 4, cavity 41, air jet 42, flexible shell fragment 5, guide cone 6, wave recess 7, No. two wave recesses 8.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 2, the magnesium aluminum alloy stamping part of the invention comprises a U-shaped base frame 1, a clamping plate 2 and a positioning column 3; the clamping plates 2 are symmetrically arranged on the inner side wall of the top end of the U-shaped base frame 1, so that the clamping plates 2 are perpendicular to the side wall of the top end of the U-shaped base frame 1; the positioning column 3 is arranged on the side wall of the clamping plate 2; the glass is symmetrically fixed in the stamping part through the matching of the U-shaped base frame 1, the clamping plate 2 and the positioning column 3, so that the uniform thickness of glass cement is ensured; when the glass door and window frame is used, in the process of manufacturing a door and window by workers, the U-shaped base frame 1 is firstly installed on the outer side wall of glass, then the U-shaped base frame 1 is fixed in position through screws, and finally, a gap between the glass and the U-shaped base frame 1 is filled with glass cement for waterproof and fixing; install the in-process at the glass lateral wall with U-shaped bed frame 1, insert the glass lateral wall between splint 2, at glass male in-process, glass produces the extrusion to splint 2, make splint 2 take place elastic deformation, and reference column 3 contacts with the glass lateral wall all the time, thereby realized the fastening effect to glass, avoid glass to take place to rock in U-shaped bed frame 1, and guaranteed the distance between glass both sides and the 1 lateral wall of U-shaped bed frame, thereby make the staff at the in-process of paining glass and glue, can guarantee the gluey thickness homogeneity of glass both sides glass, thereby door and window's overall quality has been improved, door and window's waterproof and sound insulation effect is improved.

As an embodiment of the present invention, a roller 4 is arranged in the U-shaped base frame 1; the roller 4 is connected to the side wall between the clamping plate 2 and the U-shaped base frame 1 in a rolling manner under the action of the positioning column 3; the elastic deformation angle of the clamping plate 2 is reduced through the matching of the U-shaped base frame 1, the clamping plate 2, the positioning column 3 and the roller 4; during the use, install the in-process at the glass lateral wall with U-shaped bed frame 1, insert the glass lateral wall between splint 2, at glass male in-process, glass produces the extrusion to splint 2, make splint 2 take place elastic deformation, and reference column 3 contacts with the glass lateral wall all the time, splint 2 extrudees roller 4 after taking place elastic deformation, make roller 4 roll to the direction that is close to U-shaped bed frame 1, realized prescribing a limit to the splint 2 position gradually, avoid in the installation of U-shaped bed frame 1, splint 2 produces plastic deformation after receiving the striking of glass lateral wall, splint 2 just can't carry out effectual fixed action to glass again this moment, consequently after being equipped with roller 4, can carry out cushioning effect to the deformation of splint 2, thereby the whole result of use of stamping workpiece has been guaranteed.

As an embodiment of the invention, a cavity 41 is opened in the roller 4, and a plurality of air outlets 42 are arranged on the side wall of the roller 4 close to the positioning column 3; the air outlet 42 is communicated with the cavity 41; the cooling speed of the glass cement is accelerated through the matching of the roller 4, the air jet 42 and the clamping plate 2; during the use, install back on the glass lateral wall with U-shaped bed frame 1, the staff need fill glass glue in the gap department between glass and U-shaped bed frame 1, at the in-process that fills glass glue, glass glue can flow into in the gap between U-shaped bed frame 1 and the support, extrude roller 4, roller 4 receives the pressure back, take place elastic deformation, thereby extrude the air in cavity 41 and spout through air jet 42, after air blowout to glass glue the surface, accelerate the cooling solidification rate that glass glued, when avoiding glass glue not yet solidify, influence the distribution homogeneity that glass glued in door and window's handling, thereby further strengthened the stability that glass installed in door and window.

As an embodiment of the invention, a flexible elastic sheet 5 is arranged on the side wall between the clamping plates 2; the direct contact between the glass and the side wall of the U-shaped base frame 1 is avoided through the matching of the clamping plate 2 and the flexible elastic sheet 5; when the glass buffer is used, in the process of manufacturing doors and windows by workers, the U-shaped base frame 1 is firstly installed on the outer side wall of glass, and in the installation process of the U-shaped base frame 1, the glass is firstly contacted with the flexible elastic sheet 5, so that the buffer effect on the glass is realized, and the damage to the side wall of the glass caused by the fact that the workers exert too strong force to directly contact the glass with the U-shaped base frame 1 when installing the U-shaped base frame 1 is avoided; and at the in-process that flexible shell fragment 5 realized the buffering to glass, elastic deformation has also taken place for flexible shell fragment 5 self, and flexible shell fragment 5 takes place elastic deformation back, produces the pulling force to splint 2 to strengthen splint 2 and to glass's tight effect of clamp, further guaranteed glass's stability, impel glass to glue at the even distribution in glass both sides, improve door and window's whole processingquality.

As an embodiment of the invention, the clamping plate 2 is symmetrically provided with guide cones 6 on the side walls close to each other; the cross section of the guide cone 6 is in a right-angled triangle shape, and the side walls of two right-angled sides of the guide cone 6 are respectively contacted with the clamping plate 2 and the positioning column 3, so that the closer the distance between the guide cones 6 is to the flexible elastic sheet 5, the smaller the distance is until the distance between the guide cones 6 and the positioning column 3 is the same; the side wall of the glass is prevented from being damaged after being directly contacted with the positioning column 3 through the matching of the guide cone 6 and the positioning column 3; during the use, in the staff carries out door and window's manufacturing process, install U-shaped bed frame 1 on glass's lateral wall earlier, in the installation of U-shaped bed frame 1, glass slides along guide cone 6 earlier, until slide to 3 contacts the back with the reference column, press from both sides tightly glass through splint 2 to effectively avoided glass when inserting between splint 2, directly and the reference column 3 between produce the striking, reduced glass and received the collision in the installation and take place broken probability.

As an embodiment of the invention, the clamping plate 2 is provided with a first wavy groove 7 on the side walls far away from each other; a second wavy groove 8 is correspondingly formed in the side wall, close to the first wavy groove 7, of the U-shaped base frame 1; the storage amount of the glass cement between the clamping plate 2 and the U-shaped base frame 1 is increased through the matching of the clamping plate 2, the first wavy groove 7, the second wavy groove 8 and the U-shaped base frame 1, and the action area of the glass cement is increased; during the use, install U-shaped bed frame 1 on the glass lateral wall after, the staff need fill glass at the gap department between glass and U-shaped bed frame 1 and glue, splint 2 and glass are glued to a wave recess 7 and No. two wave recesses 8 can effectively increase, and the area of contact between U-shaped bed frame 1 and the glass glue, the gluey adhesion effect of reinforcing glass, and a wave recess 7 and No. two wave recesses 8 can be glued to glass and store, when making splint 2 take place elastic deformation, although the distance between splint 2 and the U-shaped bed frame 1 lateral wall reduces this moment, also can guarantee the packing volume of glass glue between splint 2 and U-shaped bed frame 1, the installation effectiveness of door and window has further been guaranteed.

When the glass door and window frame is used, in the process of manufacturing a door and window by workers, the U-shaped base frame 1 is firstly installed on the outer side wall of glass, then the U-shaped base frame 1 is fixed in position through screws, and finally, a gap between the glass and the U-shaped base frame 1 is filled with glass cement for waterproof and fixing; in the process of installing the U-shaped base frame 1 on the outer side wall of the glass, the side wall of the glass is inserted between the clamping plates 2, in the process of inserting the glass, the glass extrudes the clamping plates 2 to enable the clamping plates 2 to generate elastic deformation, and the positioning columns 3 are always in contact with the side wall of the glass, so that the fastening effect on the glass is realized, the glass is prevented from shaking in the U-shaped base frame 1, the distance between two sides of the glass and the side wall of the U-shaped base frame 1 is ensured, and therefore, in the process of coating the glass cement, workers can ensure the thickness uniformity of the glass cement on two sides of the glass, the overall quality of doors and windows is improved, and the waterproof and sound insulation effects of the doors and windows are improved; in the process of installing the U-shaped base frame 1 on the outer side wall of the glass, the side wall of the glass is inserted between the clamping plates 2, in the process of inserting the glass, the glass extrudes the clamping plates 2 to enable the clamping plates 2 to generate elastic deformation, the positioning columns 3 are always in contact with the side wall of the glass, the clamping plates 2 extrude the rollers 4 after the elastic deformation, the rollers 4 roll towards the direction close to the U-shaped base frame 1, the gradual limitation on the positions of the clamping plates 2 is realized, the plastic deformation generated after the clamping plates 2 are impacted by the side wall of the glass in the installation process of the U-shaped base frame 1 is avoided, at the moment, the clamping plates 2 can not effectively fix the glass, the deformation of the clamping plates 2 can be buffered, and the integral using effect of a stamping part is ensured; after the U-shaped base frame 1 is installed on the side wall of glass, workers need to fill glass cement in a gap between the glass and the U-shaped base frame 1, in the process of filling the glass cement, the glass cement flows into the gap between the U-shaped base frame 1 and a support, the roller 4 is extruded, and after the roller 4 is pressed, elastic deformation occurs, so that air in the cavity 41 is extruded out and is ejected out through the air ejection opening 42, after the air is ejected to the surface of the glass cement, the cooling solidification speed of the glass cement is accelerated, the problem that the distribution uniformity of the glass cement is influenced in the process of carrying the door and window when the glass cement is not solidified is avoided, and the stability of the glass installed in the door and window is further enhanced; during the process of manufacturing doors and windows by workers, the U-shaped base frame 1 is firstly installed on the outer side wall of glass, and during the installation process of the U-shaped base frame 1, the glass is firstly contacted with the flexible elastic sheet 5, so that the buffering effect on the glass is realized, and the damage to the side wall of the glass caused by the fact that the workers directly contact the U-shaped base frame 1 due to the fact that the workers exert too much force when installing the U-shaped base frame 1 is avoided; in addition, in the process that the flexible elastic sheet 5 buffers the glass, the flexible elastic sheet 5 is elastically deformed, and after the flexible elastic sheet 5 is elastically deformed, tension is generated on the clamping plate 2, so that the clamping effect of the clamping plate 2 on the glass is enhanced, the stability of the glass is further ensured, glass cement is uniformly distributed on two sides of the glass, and the overall processing quality of the door and window is improved; in the process of manufacturing doors and windows by workers, the U-shaped base frame 1 is firstly installed on the outer side wall of the glass, in the installation process of the U-shaped base frame 1, the glass firstly slides along the guide cone 6 until the glass slides to be in contact with the positioning column 3, and then the glass is clamped through the clamping plate 2, so that the glass is effectively prevented from directly colliding with the positioning column 3 when being inserted between the clamping plate 2, and the probability that the glass is collided and broken in the installation process is reduced; after installing U-shaped bed frame 1 on the glass lateral wall, the staff need fill glass in the gap department between glass and U-shaped bed frame 1 and glue, splint 2 and glass glue can effectively be increased to wave recess 7 and No. two wave recesses 8, and the area of contact between U-shaped bed frame 1 and the glass glue, the gluey adhesion effect of reinforcing glass, and a wave recess 7 and No. two wave recesses 8 can be glued glass and store, when making splint 2 take place elastic deformation, although the distance between splint 2 and the U-shaped bed frame 1 lateral wall dwindles this moment, also can guarantee the packing volume of glass glue between splint 2 and U-shaped bed frame 1, door and window's installation effectiveness has further been guaranteed.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A magnalium stamping workpiece which characterized in that: comprises a U-shaped base frame (1), a clamping plate (2) and a positioning column (3); the clamping plates (2) are symmetrically arranged on the inner side wall of the top end of the U-shaped base frame (1), so that the clamping plates (2) are perpendicular to the side wall of the top end of the U-shaped base frame (1); the positioning column (3) is arranged on the side wall of the clamping plate (2); the glass is symmetrically fixed in the stamping part through the matching of the U-shaped base frame (1), the clamping plate (2) and the positioning column (3), so that the uniform thickness of the glass cement is ensured;

a roller (4) is arranged in the U-shaped base frame (1); the roller (4) is connected to the side wall between the clamping plate (2) and the U-shaped base frame (1) in a rolling manner under the action of the positioning column (3); the elastic deformation angle of the clamping plate (2) is reduced through the matching of the U-shaped base frame (1), the clamping plate (2), the positioning column (3) and the roller (4);

a cavity (41) is formed in the roller (4), and a plurality of air nozzles (42) are formed in the side wall, close to the positioning column (3), of the roller (4); the air injection port (42) is communicated with the cavity (41); the cooling speed of the glass cement is accelerated through the matching of the roller (4), the air jet (42) and the clamping plate (2).

2. A magnesium aluminum alloy stamping according to claim 1, wherein: a flexible elastic sheet (5) is arranged on the side wall between the clamping plates (2); the clamping plate (2) is matched with the flexible elastic sheet (5) to avoid direct contact between the glass and the side wall of the U-shaped base frame (1).

3. A magnesium aluminum alloy stamping according to claim 2, wherein: guide cones (6) are symmetrically arranged on the side walls, close to each other, of the clamping plate (2); the cross section of the guide cone (6) is in a right-angled triangle shape, and the side walls of two right-angled sides of the guide cone (6) are respectively contacted with the clamping plate (2) and the positioning column (3), so that the closer the distance between the guide cones (6) is to the flexible elastic sheet (5), the smaller the distance is until the distance is the same as the distance between the guide cones and the positioning column (3); the side wall of the glass is prevented from being damaged after being directly contacted with the positioning column (3) through the matching of the guide cone (6) and the positioning column (3).

4. A magnesium aluminum alloy stamping according to claim 3, wherein: the side walls of the clamping plates (2) which are far away from each other are provided with a first wavy groove (7); a second wavy groove (8) is correspondingly formed in the side wall, close to the first wavy groove (7), of the U-shaped base frame (1); the storage amount of glass cement between the clamping plate (2) and the U-shaped base frame (1) is increased through the matching of the clamping plate (2), the first wavy groove (7), the second wavy groove (8) and the U-shaped base frame (1), and the action area of the glass cement is increased.