阅读说明：本技术 一种可连续生产的铝圆片冲压供料系统 (Aluminum wafer stamping and feeding system capable of achieving continuous production ) 是由 刘圣涛 张长权 刘朝辉 黎家鲜 胡云真 于 2021-06-29 设计创作，主要内容包括：本发明提供一种可连续生产的铝圆片冲压供料系统,它包括有机床,机床的升降臂上安装有上模,上模下方的机台上安装有下模,下模进料方向的机台上安装有校正座,校正座顶部两侧向上延伸形成校正侧板,两块校正侧板顶部之间连接有校正顶板,两块校正侧板下部之间通过辊轴活动安装有校正辊,校正辊表面包覆有防滑套,防滑套采用橡胶或硅胶制成。采用本方案后的结构合理、使用效果好、自动化程度高。(The invention provides a stamping feeding system for continuously producing aluminum wafers, which comprises a machine tool, wherein an upper die is arranged on a lifting arm of the machine tool, a lower die is arranged on a machine table below the upper die, a correction seat is arranged on the machine table in the feeding direction of the lower die, two sides of the top of the correction seat extend upwards to form correction side plates, a correction top plate is connected between the tops of the two correction side plates, a correction roller is movably arranged between the lower parts of the two correction side plates through a roller shaft, the surface of the correction roller is coated with an anti-slip sleeve, and the anti-slip sleeve is made of rubber or silica gel. Rational in infrastructure after this scheme of adoption, excellent in use effect, degree of automation are high.)

1. The utility model provides a but continuous production's aluminium disk punching press feeding system, it installs mould (7) on the lifing arm of lathe including the lathe, goes up and installs lower mould (8), its characterized in that on the board of mould (7) below: a correcting seat (1) is installed on a machine table in the feeding direction of the lower die (8), two sides of the top of the correcting seat (1) extend upwards to form correcting side plates (2), a correcting top plate (3) is connected between the tops of the two correcting side plates (2), a correcting roller (4) is movably installed between the lower parts of the two correcting side plates (2) through a roller shaft, an anti-slip sleeve is wrapped on the surface of the correcting roller (4), and the anti-slip sleeve is made of rubber or silica gel; one end of the roll shaft penetrates through the correction side plate (2) to be connected with the power ring (6), a power pin (9) is fixed at the edge of one side of the power ring (6), a driven roller (10) is movably mounted below the correction top plate (3), a feeding area is formed between the driven roller (10) and the correction roller (4), a fixed supporting plate (14) is horizontally fixed on the correction seat (1) in the output direction of the feeding area, a movable pressing plate (15) is mounted above the output end of the fixed supporting plate (14), and a guide area is formed between the movable pressing plate (15) and the fixed supporting plate (14); a stopping component is arranged above the input end of the fixed supporting plate (14), a stopping power rod (19) is arranged at the lower part of the lifting arm, a power connecting rod (20) is arranged at the upper part of the machine tool, and the power connecting rod (20) is hinged with the power pin (9); the input end of the correction seat (1) is provided with an oiling component.

2. The aluminum wafer stamping feeding system capable of continuous production as claimed in claim 1, wherein: the locking assembly comprises a locking shaft (16), a locking deflector rod (17) and a locking spring (18), wherein the locking shaft (16) is installed between the upper parts of the two correction side plates (2), a locking shaft hole is formed in the middle of the locking deflector rod (17), the locking shaft hole is sleeved with the locking shaft (16), the upper part of the locking deflector rod (17) inclines towards the outer upper part of the correction side plates (2) to form a power end, a buffering power wheel (23) is movably installed at the power end, the lower part of the locking deflector rod (17) inclines towards the direction of the correction roller (4) to form a locking end, one end of the locking spring (18) is abutted against the top of the locking end, the other end of the locking spring is abutted against the upper part of one of the correction side plates (2), and a locking area is formed between the bottom of the locking end and the input end of the fixed supporting plate (14).

3. The aluminum wafer stamping feeding system capable of continuous production as claimed in claim 1, wherein: the power motor is installed on machine tool upper portion, power disc (21) is installed on power motor's the transmission shaft, power disc (21) wherein one side edge is fixed with the connecting rod round pin, power connecting rod (20) one end is articulated with the connecting rod round pin, the other end is articulated with power round pin (9), locking power rod (19) one end is connected with the lifing arm, the other end is unsettled in locking driving lever (17) top, the free end of locking power rod (19) is installed along vertical direction and is touched feeler lever (22), touch feeler lever (22) lower part forms the contact jaw to correction roller (4) direction slope, the contact jaw is located buffering power wheel (23) top.

4. The aluminum wafer stamping feeding system capable of continuous production as claimed in claim 1, wherein: the oiling component comprises an oiling box (31), the oiling box (31) is fixed at an entrance of a table top of a punch through a support rod, lubricating oil is injected into the oiling box (31), an oiling port is formed at the top opening of the oiling box (31), an entering steering roller (32) is installed at one end of the top of the oiling box (31), an output steering roller (33) is installed at the other end of the top of the oiling box (31), a counterweight roller (34) is movably installed in the oiling box (31) entering the output direction of the steering roller (32), the lower part of the counterweight roller (34) is immersed in the lubricating oil, and an oil filtering shaft (35) is installed in the oiling box (31) between the output steering roller (33) and the counterweight roller (34); an oil filtering roller (36) is arranged in the middle of the oil filtering shaft (35), and an oil filtering guide groove (38) is formed in the roller surface of the oil filtering roller (36) in a concave manner; counterweight guide rods (39) are vertically fixed on the side walls of two sides of the inner cavity of the oiling box (31), counterweight roller grooves (37) with opposite groove bodies are formed in the two counterweight guide rods (39), and two ends of a counterweight roller (34) are movably mounted in the corresponding counterweight roller grooves (37).

5. The aluminum wafer stamping feeding system capable of continuous production as claimed in claim 1, wherein: it is equipped with driven roller board (11) to rectify roof (3) below, driven roller board (11) are n shape, install between driven roller board (11) both sides lateral wall lower part driven roller (10), driven roller board (11) top is equipped with tension rod (12), tension rod (12) top upwards passes and rectifies roof (3) and is connected with tension nut, the cover is equipped with tension spring (13) on tension rod (12), tension spring (13) bottom is contradicted with driven roller board (11), tension spring (13) top is contradicted with rectification roof (3) bottom.

Technical Field

The invention relates to the technical field of aluminum wafers, in particular to an aluminum wafer stamping and feeding system capable of realizing continuous production.

Background

The aluminum wafer is widely applied to electronics, daily chemicals, medicines, culture and education and automobile accessories. The industries of electrical appliances, heat preservation, mechanical manufacturing, automobiles, aerospace, war industry, molds, construction, printing and the like. For example, kitchen ware articles such as non-stick pans, pressure cookers and the like, and hardware articles such as lampshades, water heater shells, stretching tank bodies and the like are one of the deep processing products of aluminum alloy plate strips with the largest use amount. With the development of the technology, the demand gap of high-end aluminum wafers is very large. The automatic feeding device is used for a modern full-automatic high-speed aerosol can production line, the continuous and stable production with the production rate of 200 times/minute is achieved, when a traditional aluminum wafer is produced, an aluminum strip is driven by a special motor to feed materials, the feeding mode is complex in structure, and the maintenance cost is high.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the aluminum wafer stamping and feeding system which can realize continuous production, has a reasonable structure, a good use effect and a high degree of automation.

In order to achieve the purpose, the technical scheme provided by the invention is as follows: a stamping and feeding system for continuously produced aluminum wafers comprises a machine tool, wherein an upper die is mounted on a lifting arm of the machine tool, a lower die is mounted on a machine table below the upper die, a correction seat is mounted on the machine table in the feeding direction of the lower die, two sides of the top of the correction seat extend upwards to form correction side plates, a correction top plate is connected between the tops of the two correction side plates, a correction roller is movably mounted between the lower parts of the two correction side plates through a roller shaft, the surface of the correction roller is coated with an anti-slip sleeve, and the anti-slip sleeve is made of rubber or silica gel; one end of the roll shaft penetrates through the correction side plate to be connected with the power ring, a power pin is fixed at the edge of one side of the power ring, a driven roll is movably mounted below the correction top plate, a feeding area is formed between the driven roll and the correction roll, a fixed supporting plate is horizontally fixed on a correction seat in the output direction of the feeding area, a movable pressing plate is mounted above the output end of the fixed supporting plate, and a guide area is formed between the movable pressing plate and the fixed supporting plate; a stopping component is arranged above the input end of the fixed supporting plate, a stopping power rod is arranged at the lower part of the lifting arm, a power connecting rod is arranged at the upper part of the machine tool, and the power connecting rod is hinged with a power pin; the input end of the correction seat is provided with an oiling component.

The locking assembly comprises a locking shaft, a locking deflector rod and a locking spring, wherein the locking shaft is arranged between the upper parts of the two correction side plates, a locking shaft hole is formed in the middle of the locking deflector rod, the locking shaft hole is sleeved with the locking shaft, the upper part of the locking deflector rod inclines towards the outer upper part of the correction side plates to form a power end, a buffering power wheel is movably arranged at the power end, the lower part of the locking deflector rod inclines towards the direction of the correction roller to form a locking end, one end of the locking spring is abutted against the top of the locking end, the other end of the locking spring is abutted against the upper part of one of the correction side plates, and a locking area is formed between the bottom of the locking end and the input end of the fixed support plate.

The upper portion of the machine tool is provided with a power motor, a power disc is installed on a transmission shaft of the power motor, a connecting rod pin is fixed at the edge of one side of the power disc, one end of the power connecting rod is hinged to the connecting rod pin, the other end of the power connecting rod is hinged to the power pin, one end of a stopping power rod is connected with a lifting arm, the other end of the stopping power rod is suspended above a stopping driving lever, a touch rod is installed at the suspended end of the stopping power rod along the vertical direction, the lower portion of the touch rod inclines towards the direction of a correcting roller to form a contact end, and the contact end is located above a buffering power wheel.

The oiling assembly comprises an oiling box, the oiling box is fixed at an inlet of a table top of a punch through a support rod, lubricating oil is injected into the oiling box, an oiling port is formed in an opening in the top of the oiling box, an entering steering roller is installed at one end of the top of the oiling box, an output steering roller is installed at the other end of the top of the oiling box, a counterweight roller is movably installed in the oiling box in the output direction of the steering roller, the lower portion of the counterweight roller is immersed in the lubricating oil, and an oil filtering shaft is installed in the oiling box between the output steering roller and the counterweight roller; the middle part of the oil filtering shaft is provided with an oil filtering roller, and the inner surface of the oil filtering roller is concave to form an oil filtering guide groove; counterweight guide rods are vertically fixed on the side walls of two sides of the inner cavity of the oiling box, counterweight roller grooves with opposite groove bodies are arranged on the two counterweight guide rods, and two ends of each counterweight roller are movably arranged in the corresponding counterweight roller grooves.

The correction roof below be equipped with driven roller board, driven roller board is n shape, the driven roller is installed between driven roller board both sides lateral wall lower part, driven roller board top is equipped with tension rod, the tension rod top upwards passes the correction roof and is connected with tension nut, the cover is equipped with tension spring on the tension rod, tension spring bottom is contradicted with the driven roller board, tension spring top is contradicted bottom the correction roof.

After the scheme is adopted, the aluminum strip downwards rotates to pass through the turning rollers and then enters the turning rollers, then sequentially passes through the lower part of the counterweight roller (the counterweight roller is pressed on the surface of the aluminum strip), the surface of the oil filtering guide groove and the output channel and then is output, when the aluminum strip passes through the oil coating box, lubricating oil is adhered to the aluminum strip, when the aluminum strip passes through the oil filtering guide groove, redundant lubricating oil at the bottom of the aluminum strip is filtered out, when the aluminum strip is output, the redundant lubricating oil is scraped by the two output turning rollers again (the upper output turning roller is pressed on the aluminum strip), so that the excessive lubricating oil on the aluminum strip is prevented, and the aluminum strip after oil coating enters the feeding area;

the lifting arm descends to drive the die to punch, the touch rod is driven to descend by the stop power rod, the contact end of the touch rod starts to contact with the buffering power wheel when descending, the stop driving rod is pressed down to enable the power end of the stop driving rod to descend, the stop spring is compressed at the same time, the stop end rises and leaves the surface of the aluminum strip, stopping of the aluminum strip is avoided, the power motor drives the power disc to rotate when descending the lifting arm, the power connecting rod is pulled when rotating the power disc, the power connecting rod drives the power ring to rotate (the lifting arm descends once, the power ring rotates once), the power connecting rod drives the correction roller to rotate once when rotating, the aluminum strip is conveyed into the machine tool for a distance while rotating the correction roller, the conveyed aluminum strip is corrected by the movable pressing plate and the fixed supporting plate, the corrected aluminum strip enters the machine tool, the aluminum strip is punched by the die, and the lifting arm ascends once when punching is completed, the stopping power rod drives the touch rod to ascend, the contact end of the touch rod descends and is not contacted with the buffering power wheel any more, the stopping spring stretches to drive the stopping end of the stopping deflector rod to descend and press the aluminum strip, the aluminum strip is positioned, and the lifting arm descends (circularly) once to correct the roller to feed once, so that the aim of continuous feeding is fulfilled. Rational in infrastructure after this scheme of adoption, excellent in use effect, degree of automation are high.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the stop assembly of the present invention.

Fig. 3 is a schematic view of the oiling assembly of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings, in which preferred embodiments of the invention are: referring to the attached drawings 1 to 3, the aluminum wafer stamping and feeding system capable of continuous production comprises a machine tool, wherein an upper die 7 is mounted on a lifting arm of the machine tool, a lower die 8 is mounted on a machine table below the upper die 7, a correction seat 1 is mounted on the machine table in the feeding direction of the lower die 8, two sides of the top of the correction seat 1 extend upwards to form correction side plates 2, a correction top plate 3 is connected between the tops of the two correction side plates 2, a correction roller 4 is movably mounted between the lower parts of the two correction side plates 2 through a roller shaft, and an anti-skid sleeve is coated on the surface of the correction roller 4 and made of rubber or silica gel; one end of the roll shaft penetrates through the correction side plate 2 to be connected with the power ring 6, a power pin 9 is fixed at the edge of one side of the power ring 6, a driven roller 10 is movably mounted below the correction top plate 3, a feeding area is formed between the driven roller 10 and the correction roller 4, a fixed supporting plate 14 is horizontally fixed on the correction seat 1 in the output direction of the feeding area, a movable pressing plate 15 is mounted above the output end of the fixed supporting plate 14, and a guide area is formed between the movable pressing plate 15 and the fixed supporting plate 14; a stopping component is arranged above the input end of the fixed supporting plate 14, a stopping power rod 19 is arranged at the lower part of the lifting arm, a power connecting rod 20 is arranged at the upper part of the machine tool, and the power connecting rod 20 is hinged with the power pin 9; the input end of the correction seat 1 is provided with an oiling component.

The stopping assembly comprises a stopping shaft 16, a stopping deflector rod 17 and a stopping spring 18, wherein the stopping shaft 16 is arranged between the upper parts of the two correcting side plates 2, a stopping shaft hole is formed in the middle of the stopping deflector rod 17 and is sleeved with the stopping shaft 16, the upper part of the stopping deflector rod 17 inclines towards the outer upper part of the correcting side plates 2 to form a power end, a buffering power wheel 23 is movably arranged at the power end, the lower part of the stopping deflector rod 17 inclines towards the direction of the correcting roller 4 to form a stopping end, one end of the stopping spring 18 is abutted against the top of the stopping end, the other end of the stopping spring is abutted against the upper part of one of the correcting side plates 2, and a stopping area is formed between the bottom of the stopping end and the input end of the fixed supporting plate 14.

A power motor is installed on the upper portion of the machine tool, a power disc 21 is installed on a transmission shaft of the power motor, a connecting rod pin is fixed on the edge of one side of the power disc 21, one end of a power connecting rod 20 is hinged to the connecting rod pin, the other end of the power connecting rod is hinged to the power pin 9, one end of a stopping power rod 19 is connected with a lifting arm, the other end of the stopping power rod is suspended above a stopping deflector rod 17, a touch rod 22 is installed at the suspended end of the stopping power rod 19 in the vertical direction, the lower portion of the touch rod 22 inclines towards the direction of a correcting roller 4 to form a contact end, and the contact end is located above a buffering power wheel 23.

The oiling component comprises an oiling box 31, the oiling box 31 is fixed at an inlet of a table top of a punch through a support rod, lubricating oil is injected into the oiling box 31, an oiling port is formed in an opening in the top of the oiling box 31, an entering steering roller 32 is installed at one end of the top of the oiling box 31, an output steering roller 33 is installed at the other end of the top of the oiling box 31, a counterweight roller 34 is movably installed in the oiling box 31 entering the output direction of the steering roller 32, the lower portion of the counterweight roller 34 is immersed in the lubricating oil, and an oil filtering shaft 35 is installed in the oiling box 31 between the output steering roller 33 and the counterweight roller 34; an oil filtering roller 36 is arranged in the middle of the oil filtering shaft 35, and an oil filtering guide groove 38 is formed in the roller surface of the oil filtering roller 36 in a concave manner; counterweight guide rods 39 are vertically fixed on the side walls of two sides of the inner cavity of the oiling box 31, counterweight roller grooves 37 with opposite groove bodies are arranged on the two counterweight guide rods 39, and two ends of a counterweight roller 34 are movably arranged in the corresponding counterweight roller grooves 37.

3 below of correction roof are equipped with driven roller board 11, and driven roller board 11 is n shape, and driven roller 10 installs between 11 both sides lateral wall lower parts of driven roller board, and 11 tops of driven roller board are equipped with tension rod 12, and the top of tension rod 12 upwards passes correction roof 3 and is connected with tension nut, and the cover is equipped with tension spring 13 on tension rod 12, and tension spring 13 bottom is contradicted with driven roller board 11, and tension spring 13 top is contradicted with 3 bottoms of correction roof.

After the scheme is adopted, the aluminum strip downwards rotates to pass through the turning rollers, then the aluminum strip sequentially passes through the lower part of the counterweight roller (the counterweight roller is pressed on the surface of the aluminum strip), the surface of the oil filtering guide groove and the output channel to be output, lubricating oil is adhered to the aluminum strip when the aluminum strip passes through the oil coating box, redundant lubricating oil at the bottom of the aluminum strip is filtered when the aluminum strip passes through the oil filtering guide groove, and the redundant lubricating oil is scraped by the two output turning rollers again when the aluminum strip is output (the upper output turning roller is pressed on the aluminum strip), so that the excessive lubricating oil on the aluminum strip is prevented, and the aluminum strip after oil coating enters the feeding area;

the lifting arm descends to drive the die to punch, the touch rod is driven to descend by the stop power rod, the contact end of the touch rod starts to contact with the buffering power wheel when descending, the stop driving rod is pressed down to enable the power end of the stop driving rod to descend, the stop spring is compressed at the same time, the stop end rises and leaves the surface of the aluminum strip, stopping of the aluminum strip is avoided, the power motor drives the power disc to rotate when descending the lifting arm, the power connecting rod is pulled when rotating the power disc, the power connecting rod drives the power ring to rotate (the lifting arm descends once, the power ring rotates once), the power connecting rod drives the correction roller to rotate once when rotating, the aluminum strip is conveyed into the machine tool for a distance while rotating the correction roller, the conveyed aluminum strip is corrected by the movable pressing plate and the fixed supporting plate, the corrected aluminum strip enters the machine tool, the aluminum strip is punched by the die, and the lifting arm ascends once when punching is completed, the stopping power rod drives the touch rod to ascend, the contact end of the touch rod descends and is not contacted with the buffering power wheel any more, the stopping spring stretches to drive the stopping end of the stopping deflector rod to descend and press the aluminum strip, the aluminum strip is positioned, and the lifting arm descends (circularly) once to correct the roller to feed once, so that the aim of continuous feeding is fulfilled. The structure after this embodiment of adoption is reasonable, excellent in use effect, degree of automation height.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that the changes in the shape and principle of the present invention should be covered within the protection scope of the present invention.