CN110773998B

CN110773998B - Automatic hardware snap assembling machine

Info

Publication number: CN110773998B
Application number: CN201911054253.6A
Authority: CN
Inventors: 胡世清; 廖满生; 肖尾连; 孟庆会
Original assignee: Shenzhen Lianxing Garment Accessory Co ltd
Current assignee: Shenzhen Lianxing Garment Accessory Co ltd
Priority date: 2019-10-31
Filing date: 2019-10-31
Publication date: 2021-03-16
Anticipated expiration: 2039-10-31
Also published as: CN112809375A; CN112809376B; CN110773998A; CN112809376A; CN112809375B

Abstract

The invention provides an automatic hardware snap-button assembling machine which comprises a base box, an assembling turntable, a first feeding unit, a second feeding unit, a third feeding unit, a riveting unit and a discharging unit. The assembly turntable is used for rotatably conveying the snap button accessories; the first feeding unit, the second feeding unit and the third feeding unit are sequentially overlapped to form a sharp button accessory, and the riveting unit is used for sequentially overlapping a surface piece, a middle gasket and a straight flute on an assembling position of the assembling turntable to form a sharp button. According to the automatic hardware snap button assembling machine, snap button accessories are conveyed through the arrangement of the assembling turntable, the first feeding unit, the second feeding unit and the third feeding unit are sequentially overlapped and fed to form the snap button accessories, and the snap button accessories are riveted into the snap buttons through the riveting units, so that automatic assembling of the snap button accessories is achieved, labor cost of enterprises is reduced, production efficiency of hardware snap buttons is greatly improved, and product yield is improved.

Description

Automatic hardware snap assembling machine

Technical Field

The invention relates to the field of hardware snap button production, in particular to an automatic hardware snap button assembling machine.

Background

In modern life, various clothes can be seen everywhere, and correspondingly, the market demand of clothes-related accessories is increasing, and particularly the market demand of several products such as buttons, zippers, trouser buttons and the like is increasing most obviously, so that for the existing clothes processing and producing companies, the improvement of the production capacity of the clothes accessories is particularly important.

At present, most of hardware snap buttons are manually placed and riveted, but manual placement and riveting are adopted, so that the production efficiency is low, the production cost is high, the labor intensity is high, the misoperation proportion is high, the hardware snap button production quality cannot be guaranteed, the qualification rate is low, the defects are obvious particularly in the mass production stage, and the delayed delivery is easy to occur, so that the manual assembly cannot meet the requirement of large-scale production, and the automatic production requirement of the modern society cannot be met.

Therefore, it is necessary to provide an automatic hardware snap assembling machine to solve the above technical problems.

Disclosure of Invention

The invention provides an automatic hardware snap-button assembling machine which is characterized in that a snap-button accessory is conveyed through an assembling turntable, a first feeding unit, a second feeding unit and a third feeding unit which are sequentially arranged around the assembling turntable are sequentially overlapped and fed, so that a face piece, a middle gasket and a straight flute are sequentially overlapped to form the snap-button accessory, and the snap-button accessory is riveted into a snap-button through a riveting unit, so that the problems that in the prior art, the production efficiency is low, the production cost is high, the labor intensity is high, the misoperation proportion is high, the production quality of the hardware snap-button cannot be guaranteed, the qualification rate is low and the like due to the fact that manual placement and riveting are carried out in hardware snap-button production are achieved in the prior art are solved.

In order to solve the technical problems, the technical scheme of the invention is as follows: the utility model provides an automatic kludge of five metals rapid button which includes:

a base box including a setting platform;

the assembly turntable is rotatably arranged on the setting platform of the base box and used for conveying snap buttons, and comprises

The fixed disc is arranged on the setting platform and used for supporting the snap button accessories, and the fixed disc comprises a surface piece feeding part, a middle gasket feeding part, a straight flute feeding part and an assembling part which are sequentially arranged in a surrounding manner;

a rotating disc which is rotatably arranged on the fixed disc and is used for conveying and transporting the snap button fittings on the fixed disc,

a plurality of through holes are arranged on the rotating disc in a surrounding manner, a plurality of placing grooves are formed between the through holes and the top surface of the fixed disc and used for placing snap fittings,

along the rotation direction of the rotating disc, a face piece material falling position, a middle gasket material falling position, a straight flute material falling position, an assembly position and a material falling position are sequentially arranged on the motion track of the placing groove in a surrounding mode;

the first feeding unit is arranged on a setting platform of the base box and used for conveying the flour pieces to a flour piece falling position on the assembly turntable;

the second feeding unit is arranged on the setting platform of the base box, is used for conveying the middle gasket to the middle gasket falling material position on the assembly turntable, and is superposed with the surface piece;

the third feeding unit is arranged on the setting platform of the base box, is used for conveying the straight flute to the straight flute falling material position on the assembly turntable, and is superposed with the middle gasket; and

the riveting unit is arranged on a setting platform of the base box and is used for riveting a face piece, a middle gasket and a straight flute which are sequentially superposed on an assembly position of the assembly turntable into a sharp button so as to fix the middle gasket between the face piece and the straight flute;

and the blanking unit is arranged on the setting platform of the base box and used for outputting the riveted sharp buttons.

In the invention, the first feeding unit, the second feeding unit, the third feeding unit, the riveting unit and the blanking unit are sequentially arranged around the outer circumference of the assembly turntable. First material loading unit, second material loading unit, third material loading unit, riveting unit and unloading unit encircle in proper order the outer circumference of equipment carousel sets up, compact structure saves equipment usage space.

The assembling part of the fixed disc is provided with a first gap for placing a die corresponding to the assembling position,

the riveting unit includes:

the punch is arranged on the setting platform;

the die seat is arranged on one side of the punch press and is embedded with the first notch of the fixed disk, the top surface of the die seat is flush with the top surface of the fixed disk, and the top surface of the die seat is connected with the mounting groove on the rotating disk to form an assembly position;

and the upper die is arranged on one side of the punch press and positioned above the assembling position and used for riveting the snap button accessories.

Further, a lower die for riveting the snap button and a fixing groove for fixing the snap button accessory are arranged on the die base, and the lower die is located inside the fixing groove;

go up the mould bottom and be equipped with the mould that is used for the riveting snap and be used for rectifying the spacing cover of snap accessory, it is relative with the mould lower mould on the mould, mould position in on the mould inside the spacing cover, just spacing cover with fixed slot swing joint.

In the invention, the fixed seat is provided with a first discharging port for discharging the snap button corresponding to the feeding position, and when the mounting groove on the rotating disc is communicated with the first discharging port, the snap button of the mounting groove is discharged from the first discharging port. Through the overlapping of the mounting groove on the rotating disc and the first discharging port on the fixed disc, the quick button which is riveted can be discharged from the assembly turntable, the device is simple in structure, convenient to operate and high in practicability.

In the invention, a height detection device for detecting defective products is also arranged on the assembly turntable, and the height detection device is positioned between the third feeding unit and the riveting unit;

the mounting groove motion trail further comprises:

the detection position is used for placing a snap fitting to be detected, the detection position is positioned between the straight flute blanking position and the assembly position, and

the discharging position is used for outputting the snap button accessories with the accessories failed, and the discharging position is positioned between the detection position and the assembly position;

the fixed disc is provided with an air suction hole for fixing the snap fitting at a position corresponding to the detection position, and the fixed disc is provided with a second discharge port at a position corresponding to the discharge position for conveying the snap fitting which fails to be used for conveying the fitting;

the height detection device includes:

the height difference cylinder is arranged above the detection position and used for detecting the height of the snap button fitting,

a bearing plate arranged in the second material discharge port and used for supporting a snap button accessory, wherein the plane of the bearing plate is flush with the plane of the fixed disc, and

the discharge cylinder sets up loading board one side for the drive the loading board is relative the material level of arranging removes, works as the material level of arranging with when the second bin outlet is linked together, the anxious button accessory in the mounting groove is discharged from the second bin outlet.

In the invention, the first feeding unit comprises

The first conveying mechanism is used for conveying the flour piece; and

and the first feeding mechanism is used for placing the flour pieces on the first conveying mechanism on the flour piece falling position of the assembly turntable. The first feeding unit conveys the flour pieces to the set position of the equipment through the first conveying mechanism, and the flour pieces are sent to the assembly turntable through the first feeding mechanism to be assembled, so that the working efficiency is effectively improved, the manpower resource is saved, and the product assembly quality can be ensured.

Further, the first conveying mechanism includes: the first vibration disc is arranged on one side of the setting platform, one end of the first flow channel is connected with the first vibration disc, and the other end of the first flow channel is connected with the first feeding mechanism. First conveying mechanism shakes the material loading by first vibration dish, is carried on first feeding mechanism by first runner again, and this simple structure is convenient for control, and the face spare is discharged and is carried more orderly.

The first feed mechanism includes:

the first chassis is fixed on the setting platform, and the plane where the first chassis is located above the plane where the rotating disc is located;

the first rotating disc is rotatably arranged on the first chassis, and a plurality of first openings are uniformly formed in the outer edge of the first rotating disc;

the first driving assembly is arranged inside the base and used for driving the first rotary disc to rotate; and

the first baffle is arranged on the first chassis, a first accommodating hole is formed between the first baffle and the first opening, and the first accommodating hole is used for accommodating a face piece;

wherein the first baffle is of an arc structure corresponding to the first rotating disc, a flour piece feeding notch is arranged on the first baffle close to the output end of the first flow channel, a flour piece discharging port is arranged on the first rotating disc and corresponds to the flour piece discharging position on the rotating disc,

when first accepting hole with when the face spare feed opening is linked together, face spare in the first accepting hole runs through the face spare feed opening to fall into the face spare material level that falls. Through the separation and the adjustment on first carousel and first chassis, the first opening of rotation on the first carousel carries a face spare, is equipped with a feed opening at first chassis about the position of a face spare unloading, first accepting hole with face spare feed opening overlaps, when being linked together, and a face spare falls into face spare material level that falls.

In addition, the first feeding unit, the second feeding unit and the third feeding unit are fed at equal intervals.

Compared with the prior art, the invention has the beneficial effects that: according to the automatic hardware snap-button assembling machine, snap-button accessories are conveyed through the assembling rotary table, the first feeding unit, the second feeding unit and the third feeding unit which are sequentially arranged around the assembling rotary table are sequentially overlapped and fed, so that the surface parts, the middle gaskets and the straight flute are sequentially overlapped to form the snap-button accessories, and the snap-button accessories are riveted into the snap-buttons through the riveting units, so that automatic assembling of snap-button assembling is realized, labor cost of enterprises is reduced, production efficiency of hardware snap-buttons is greatly improved, and product yield is greatly improved. In addition, the hardware snap button automatic assembling machine has strong universality, two combined snap buttons and three combined snap buttons can be produced, and multiple combined snap buttons can be produced by adding a feeding unit.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required in the embodiments are briefly introduced below, and the drawings in the following description are only corresponding to some embodiments of the present invention.

Fig. 1 is a perspective view of a preferred embodiment of the automatic hardware snap assembling machine of the present invention.

Fig. 2 is a schematic structural view of an assembly turntable of the preferred embodiment of the automatic hardware snap-button assembling machine of the present invention.

Fig. 3 is a schematic view of the whole feeding unit of the preferred embodiment of the automatic hardware snap-button assembling machine of the present invention.

Fig. 4 is a schematic structural diagram of a first feeding mechanism of the automatic hardware snap assembling machine according to the preferred embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a second feeding mechanism of the preferred embodiment of the automatic hardware snap assembling machine of the present invention.

Fig. 6 is a schematic structural view of a third feeding mechanism of the preferred embodiment of the automatic hardware snap assembling machine of the present invention.

Fig. 7 is a partial structural view at a in fig. 1.

FIG. 8 is a schematic diagram of the upper mold structure of the preferred embodiment of the automatic hardware snap assembling machine of the present invention.

Fig. 9 is a schematic structural diagram of a die seat of the preferred embodiment of the automatic hardware snap assembling machine of the present invention.

Description of the drawings: the base box 1, the assembly turntable 2, the fixed disk 21, the first discharge port 211, the second discharge port 212, the rotating disk 22, the placing groove 23, the noodle piece blanking position 231, the middle gasket blanking position 232, the straight flute blanking position 233, the detection position 234, the discharge position 235, the assembly position 236, the blanking position 237, the height detection device 24, the height difference cylinder 241, the bearing plate 242, the discharge cylinder 243, the first feeding unit 3, the first conveying mechanism 31, the first vibration disk 311, the first flow channel 312, the first feeding mechanism 32, the first chassis 321, the noodle piece blanking port 321a, the first turntable 322, the first driving component 323, the first baffle 324, the noodle piece feeding notch 324a, the first containing hole 325, the second feeding unit 4, the second conveying mechanism 41, the second vibration disk 411, the second flow channel 412, the second feeding mechanism 42, the second chassis 421, the middle gasket blanking port 421a, the second turntable 422, the second driving component 423, The riveting device comprises a second baffle 424, a middle gasket feeding notch 424a, a second containing hole 425, a third feeding unit 5, a third conveying mechanism 51, a third vibrating disc 511, a third flow channel 512, a third feeding mechanism 52, a third bottom disc 521, a straight flute discharging port 521a, a third rotating disc 522, a third driving assembly 523, a third baffle 524, a straight flute feeding notch 524a, a third containing hole 525, a riveting unit 6, a punch 61, a die base 62, a fixing groove 621, a die lower die 622, an upper die 63, a limiting cover 631 and a die upper die 632.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the drawings, elements having similar structures are denoted by the same reference numerals.

The terms "first," "second," and the like in the terms of the invention are used for descriptive purposes only and not for purposes of indication or implication relative importance, nor as a limitation on the order of precedence.

The following is a preferred embodiment of the present invention, which provides an automatic hardware snap assembling machine capable of solving the above technical problems.

Referring to fig. 1, fig. 2 and fig. 3, wherein fig. 1 is a perspective view of a preferred embodiment of the hardware snap button automatic assembling machine of the present invention; FIG. 2 is a schematic structural view of an assembly turntable of the preferred embodiment of the automatic hardware snap-button assembling machine of the present invention; fig. 3 is a schematic view of the whole feeding unit of the preferred embodiment of the automatic hardware snap-button assembling machine of the present invention.

The invention provides a preferred embodiment of an automatic hardware snap assembling machine, which comprises the following steps: the utility model provides an automatic kludge of five metals rapid button which includes base case 1, equipment carousel 2, first material loading unit 3, second material loading unit 4, third material loading unit 5, riveting unit 6 and unloading unit.

In the invention, a setting platform is arranged on a base box 1; the assembly turntable 2 is rotatably arranged on a setting platform of the base box 1 and used for conveying snap fittings. The assembly carousel 2 includes: a fixed disk 21 and a rotatable disk 22. The fixed disc 21 is arranged on the setting platform and used for supporting the snap button accessories, and the fixed disc 21 comprises a surface piece feeding part, a middle gasket feeding part, a straight flute feeding part and an assembling part which are sequentially arranged in a surrounding manner; the rotating disc 22 is rotatably arranged on the fixed disc 21 and used for conveying and transporting the snap button accessories on the fixed disc 21, a plurality of through holes are formed in the rotating disc 22 in an encircling mode, and a placing groove 23 used for placing the snap button accessories is formed between the through holes and the top surface of the fixed disc 21. Along the rotating direction of the rotating disc 22, a dough piece blanking position 231, a middle gasket blanking position 232, a straight flute blanking position 233, an assembling position 236 for assembling a snap button, and a blanking position 237 are sequentially arranged on the telemechanical trajectory of the mounting groove 23 in a surrounding manner.

The first feeding unit 3, the second feeding unit 4 and the third feeding unit 5 are all arranged on a setting platform of the base box 1. The first feeding unit 3 is used for feeding the dough pieces to a dough piece dropping position 231 on the assembly turntable 2. The second feeding unit 4 is used for conveying the intermediate gasket to the intermediate gasket falling position 232 on the assembly turntable 2 and overlapping the surface piece. The third feeding unit 5 is used for conveying the flute to the flute blanking position 233 on the assembly turntable 2, so that the flute is superposed with the middle gasket.

The riveting unit 6 is arranged on the setting platform of the base box 1 and is used for riveting the face piece, the middle gasket and the straight flute which are sequentially superposed on the assembly position 236 of the assembly turntable 2, so that a sharp button is formed, and the middle gasket is fixed between the face piece and the straight flute. The blanking unit is arranged on the setting platform of the base box 1 and used for outputting the riveted sharp buttons.

Furthermore, the first feeding unit 3, the second feeding unit 4, the third feeding unit 5, the riveting unit 6 and the blanking unit are sequentially arranged around the outer circumference of the assembly turntable 2, so that the structural layout is compact, and the equipment volume is reduced. The first feeding unit 3, the second feeding unit 4 and the third feeding unit 5 are used for feeding at equal intervals.

According to the invention, the snap button accessories are conveyed by arranging the assembling turntable 2, the first feeding unit 3, the second feeding unit 4 and the third feeding unit 5 which are sequentially arranged around the assembling turntable 2 are sequentially overlapped for feeding, so that the surface part, the middle gasket and the straight flute are sequentially overlapped to form the snap button accessories, and the snap button accessories are riveted into the snap button by the riveting unit 6, so that the automatic assembling of the snap button is realized, the yield and the efficiency of the snap button assembling are greatly improved, and the cost is reduced.

The structure of the assembly turntable 2 of the present invention is explained as follows:

with reference to fig. 1, 2 and 3, the surface piece feeding part and the middle gasket feeding part of the fixed disk 21 are mainly made of plastic materials, so that the surface piece and the middle gasket can be conveniently conveyed, the material use cost is low, and the equipment use cost is reduced. The straight flute feeding part and the assembling part of the fixed disc 21 are made of metal materials, so that the friction force is small, and the metal accessories can be conveniently conveyed.

A first discharging port 211 for discharging the snap button is provided on the fixed disk 21 at a position corresponding to the blanking position 237, and when the receiving groove 23 of the rotary disk 22 is communicated with the first discharging port 211, the snap button in the receiving groove 23 is discharged from the first discharging port 211. Through the mounting groove 23 on the rotating disc 22 and the first discharge port 211 on the fixed disc 21, the riveted sharp button can be discharged from the first discharge port 211 under the action of gravity, and the riveting device is simple in structural design and high in practicability.

The assembly turntable 2 is further provided with a height detection device 24 for detecting defective products, and the device is located between the third feeding unit 5 and the riveting unit 6. Along the rotation direction of the rotating disc 22, the movement track of the placing groove 23 further comprises a detection position 234 and a material discharging position 235, wherein the detection position 234 is located between the straight flute blanking position 233 and the assembling position 236 and is used for placing a snap button accessory to be detected; the discharge level 235 is located between the detection level 234 and the assembly level 236 for outputting a snap button fitting for which a fitting failure is detected.

Wherein the high-low detection device 24 includes: a level difference cylinder 241, a carrier plate 242, and a discharge cylinder 243. The height difference cylinder 241 is fixed above the detection side position through a support and is used for detecting the height of the snap button fitting; the bearing plate 242 is arranged in the second discharge opening 212 and used for supporting the snap button fitting, and the plane of the bearing plate 242 is flush with the plane of the fixed disc 21; and a discharging cylinder 243 disposed at one side of the carrying plate 242 for driving the carrying plate 242 to move relative to the discharging position 235. When the missing part is detected by the height difference cylinder 241, the rotating disk 22 rotates to convey the missing part at the detection position 234 to the discharge position 235, and the discharge cylinder 243 drives the carrying plate 242 to move relative to the discharge position 235, so that the discharge position 235 is communicated with the second discharge opening 212, and the missing part inside the receiving groove 23 is discharged from the second discharge opening 212. The waste material is transported out of the rotating disc 22 through the second discharge opening 212 for collection and recycling.

The structure of the first feeding unit 3 in this embodiment is explained as follows:

referring to fig. 3 and 4, fig. 3 is a schematic view of a feeding unit of a preferred embodiment of the automatic hardware snap-button assembling machine of the present invention. Fig. 4 is a schematic structural diagram of a first feeding mechanism of the automatic hardware snap assembling machine according to the preferred embodiment of the present invention.

With reference to fig. 1 and 2, the first feeding unit 3 is used for feeding the dough pieces to a dough piece drop level 231 on the assembly carousel 2. The first feeding unit 3 includes a first conveying mechanism 31 and a first feeding mechanism 32. The first conveying mechanism 31 is used for conveying the flour pieces; the first feeding mechanism 32 is used for placing the flour pieces on the first conveying mechanism 31 on the flour piece dropping position 231 of the assembly turntable 2. First feeding unit 3 will be a facial make-up through first conveying mechanism 31 and carry the equipment set position, and rethread first feeding mechanism 32 will be a facial make-up and send into and place on the equipment carousel 2, and this conveying mechanism structure divides the worker clearly and definitely, has effectively promoted the production efficiency of equipment, has saved manpower resources.

Further, the first conveying mechanism 31 includes a first vibrating plate 311 and a first flow channel 312, the first vibrating plate 311 is disposed on one side of the setting platform, the first vibrating plate 311 is connected with the first feeding mechanism 32 through the first flow channel 312, so that the first conveying mechanism 31 is vibrated by the first vibrating plate 311 for feeding, and the first flow channel 312 conveys the flour piece to the first feeding hand.

The first feeding mechanism 32 includes a first base plate 321, a first rotating plate 322, a first driving assembly 323, and a first baffle plate 324. The first chassis 321 is fixed on the setting platform, and the plane of the first chassis 321 is located above the plane of the rotating disc 22; the first rotating disc 322 is rotatably arranged on the first chassis 321, and a plurality of first openings are uniformly arranged on the outer edge of the first rotating disc 322; the first driving component 323 is a first motor, and is arranged inside the base box 1 and used for driving the first rotating disc 322 to rotate; the first baffle 324 is disposed on the first chassis 321, and a first receiving hole 325 for receiving the face piece is formed between the first baffle 324 and the first opening.

The first baffle 324 is an arc structure corresponding to the first rotating disc 322, and the first baffle 324 is provided with a noodle feeding notch 324a near the output end of the first flow channel 312, the bottom disc is provided with

noodle feeding ports

421a, 321a, and the

noodle feeding ports

421a, 321a correspond to the noodle falling port 231 on the rotating disc 22.

The first feeding mechanism 32 drives the first rotating disc 322 to rotate relative to the first base disc 321 through the first driving assembly 323, so that the first rotating disc 322 rotates to convey the flour piece, and when the first receiving hole 325 is communicated with the flour piece discharging opening 321a, the flour piece in the first receiving hole 325 penetrates through the flour piece discharging opening 321a on the first base disc 321, so as to fall into the flour piece falling position 231. This simple structure is convenient for control, and automatic material loading not only uses manpower sparingly, saves the cost of production, effectively promotes equipment production efficiency moreover.

The structure of the second feeding unit 4 in the present embodiment is explained as follows:

referring to fig. 3 and 5, fig. 3 is a schematic view of a feeding unit of the automatic hardware snap-button assembling machine according to the preferred embodiment of the present invention. Fig. 5 is a schematic structural diagram of a second feeding mechanism of the preferred embodiment of the automatic hardware snap assembling machine of the present invention.

With reference to fig. 1 and 2, the second feeding unit 4 is used for feeding the intermediate gasket to the intermediate gasket dropping position 232 on the assembly turntable 2 and overlapping the surface member in the setting groove 23. The second feeding unit 4 includes a second conveying mechanism 41 and a second feeding mechanism 42. The second conveying mechanism 41 is used for conveying the middle gasket; the second feeding mechanism 42 is used for placing the middle gasket on the second conveying mechanism 41 on the middle gasket blanking position 232 of the assembly turntable 2. The second feeding unit 4 conveys the middle gasket to the set position of the equipment through the second conveying mechanism 41, and the middle gasket on the second conveying mechanism 41 is conveyed to the assembly turntable 2 through the second feeding mechanism 42 to be placed, so that the structure of the conveying mechanism is clear in labor division, the production efficiency of the equipment is effectively improved, and the manpower resource is saved.

Further, second conveying mechanism 41 includes second shake dish 411 and second runner 412, the second shakes the dish 411 and sets up in setting up platform one side, shake dish 411 and be connected with second feed mechanism 42 through second runner 412 with the second to make second conveying mechanism 41 shake the dish 411 by the second and shake the material loading, second runner 412 carries the middle gasket on the second material loading hand, this simple structure, be convenient for control, automatic feeding, effective lifting means production efficiency.

The second feeding mechanism 42 includes a second chassis 421, a second rotating disc 422, a second driving assembly 423, and a second baffle 424. The second chassis 421 is fixed on the setting platform, and the plane of the second chassis 421 is above the plane of the rotating disc 22; the second rotating disc 422 is rotatably arranged on the second chassis 421, and a plurality of second openings are uniformly arranged on the outer edge of the second rotating disc 422; the second driving assembly 423 is a second motor, and is disposed inside the base and configured to drive the second turntable 422 to rotate; the second baffle 424 is disposed on the second chassis 421, and a second receiving hole 425 for receiving the middle pad is formed between the second baffle 424 and the second opening.

The second baffle 424 is an arc structure corresponding to the second turntable 422, and the second baffle 424 is provided with a middle gasket feeding notch 424a near the output end of the second flow channel 412, and the chassis is provided with a middle gasket feeding port corresponding to the middle gasket falling port 232 on the rotating disc 22.

The second feeding mechanism 42 drives the second rotating disc 422 to rotate relative to the second base disc 421 through the second driving assembly 423, so that the second rotating disc 422 rotates to convey the middle gasket, and when the second receiving hole 425 is communicated with the middle gasket discharging hole, the middle gasket located in the second receiving hole 425 penetrates through the middle gasket discharging hole on the second base disc 421 and falls into the middle gasket discharging position 232. The automatic material loading of this structure saves the cost of labor, effectively promotes equipment production efficiency moreover.

The structure of the third feeding unit 5 in this embodiment is explained as follows:

referring to fig. 3 and fig. 6, fig. 3 is a schematic view of a feeding unit of the automatic hardware snap-button assembling machine according to the preferred embodiment of the present invention. Fig. 6 is a schematic structural view of a third feeding mechanism of the preferred embodiment of the automatic hardware snap assembling machine of the present invention.

With reference to fig. 1 and 2, the third feeding unit 5 is configured to feed the flute to the flute blanking position 233 on the assembly turntable 2, and to overlap the middle gasket in the installation groove 23, so that the face piece, the middle gasket, and the flute are sequentially overlapped to form the snap fitting. The third feeding unit 5 includes a third conveyance mechanism 51 and a third feeding mechanism 52. The third conveying mechanism 51 is used for conveying the flute; the third feeding mechanism 52 is used for placing the flute on the third conveying mechanism 51 on the flute blanking position 233 of the assembly turntable 2. The third feeding unit 5 conveys the straight flute to the set position of the equipment through the third conveying mechanism 51, and the straight flute on the third conveying mechanism 51 is conveyed to the assembly turntable 2 through the third feeding mechanism 52 for placement, so that the structure of the conveying mechanism is clear in labor division, the production efficiency of the equipment is effectively improved, and the manpower resource is saved.

Further, the third conveying mechanism 51 comprises a third vibration disc 511 and a third flow channel 512, the third vibration disc 511 is arranged on one side of the setting platform, the third vibration disc 511 is connected with the third feeding mechanism 52 through the third flow channel 512, so that the third conveying mechanism 51 can vibrate and feed through the third vibration disc 511, and the third flow channel 512 conveys the flute to a third feeding hand.

The third feeding mechanism 52 includes a third chassis 521, a third turntable 522, a third driving assembly 523, and a third baffle 524. The third base plate 521 is fixed on the setting platform, and the plane of the third base plate 521 is located above the plane of the rotating disc 22; the third turntable 522 is rotatably arranged on the third chassis 521, and a plurality of third openings are uniformly arranged on the outer edge of the third turntable 522; the third driving component 523 is a third motor, and is disposed inside the base and configured to drive the third turntable 522 to rotate; the third baffle 524 is disposed on the third base plate 521, and a third receiving hole 525 for receiving the straight flute is formed between the third baffle 524 and the third opening.

The third baffle 524 is an arc structure corresponding to the third turntable 522, and a flute feeding notch 524a is provided at the output end of the third baffle 524 near the third flow channel 512, a flute discharging opening 521a is provided on the chassis, and the flute discharging opening 521a is corresponding to the flute discharging position 233 on the rotating disc 22.

The third feeding mechanism 52 drives the third rotating disc 522 to rotate relative to the third base disc 521 through the third driving assembly 523, so that the third rotating disc 522 rotates to convey the straight flute, and when the third accommodating hole 525 is communicated with the straight flute discharging opening 521a, the straight flute in the third accommodating hole 525 penetrates through the straight flute discharging opening 521a on the third base disc 521 and falls into the straight flute discharging position 233. The automatic material loading of this structure saves the cost of labor, effectively promotes equipment production efficiency moreover.

The structure of the riveting unit 6 in the embodiment is explained as follows:

referring to fig. 7, fig. 8 and fig. 9, wherein fig. 7 is a schematic view of a partial structure at a position a in fig. 1; FIG. 8 is a schematic view of the upper mold structure of the present invention; fig. 9 is a schematic structural diagram of a die seat of the preferred embodiment of the automatic hardware snap assembling machine of the present invention. Combine fig. 1 and fig. 2.

The assembly position 236 of the assembly part of the fixed disk 21 corresponding to the motion track of the installation groove is provided with a first notch for placing a mold.

The riveting unit 6 comprises a punch 61, a die holder 62 and an upper die 63, wherein the punch 61 is arranged on the setting platform; the die holder 62 is arranged on one side of the punch 61 and is embedded with the first notch on the fixed disk 21, the top surface of the die holder 62 is flush with the top surface of the fixed plate, and the top surface of the die holder 62 is connected with the mounting groove 23 on the rotating disk 22 to form an assembly position 236; the upper mold 63 is disposed on one side of the punch 61 and above the assembly position 236 for riveting the snap fitting.

Further, a lower die 622 for riveting the snap button and a fixing groove 621 for fixing the snap button accessory are arranged on the die base 62, and the lower die 622 is located inside the fixing groove 621; go up mould 63 bottom and be equipped with the mould 632 that is used for the riveting snap and be used for rectifying the spacing cover 631 of snap accessory, spacing cover 631 in this embodiment is the round platform structure, and mould 632 is relative with mould lower mould 622 on the mould, and mould 632 is located inside spacing cover 631 on the mould, and mould 63 reciprocated along with punch 61 drive to make spacing cover 631 and fixed slot 621 swing joint.

When the snap button fittings are riveted, the snap button fittings are firstly conveyed to the assembling position 236 by rotating the disc 22, and then the snap button fittings are roughly limited by the fixing grooves 621; then the punch 61 drives the upper die 63 to press downwards, so that the limit cover 631 on the upper die 63 is firstly contacted with the snap button accessory and corrected, and then the upper die 632 of the die is matched with the lower die 622 of the die to rivet the snap button accessory; after the riveting is completed, the punch 61 drives the upper die 63 to reset, and the rotating disc 22 rotates, so that the riveted snap buttons are conveyed to the blanking position 237 for blanking.

Mould 63's simple structure on riveting unit 6, the practicality is strong, makes the anxious button accessory rectify earlier and extrude through the detailed design on the mould, effectively promotes the yields of equipment anxious button accessory.

The assembling process of the hardware snap-button assembling machine of the invention is explained as follows:

firstly, materials are placed.

Specifically, a plurality of surface pieces are placed in a hopper of the first vibration disc 311; a plurality of middle gaskets are arranged in the hopper of the second vibrating plate 411; a number of flutes are housed in the hopper of the third vibratory pan 511.

Secondly, the rotating disc 22 conveys the material.

The rotating disc 22 is driven by a motor to rotate relatively along the fixed disc 21, so that the material falling into the placing groove 23 is conveyed along the circumferential direction along with the rotation of the rotating disc 22, and a flour piece material falling position 231, a middle gasket material falling position 232, a straight flute material falling position 233, a detection position 234, a material discharging position 235, an assembling position 236 and a material falling position 237 are sequentially arranged on the motion track of the placing groove 23 in a surrounding manner.

Thirdly, when the placing groove 23 rotates to the dough piece dropping position 231, the first feeding unit 3 feeds materials.

First, the first vibrating plate 311 automatically, orderly, directionally and accurately conveys the disordered surface pieces to the first flow channel 312 by vibration. The first pulse electromagnet is arranged below the hopper of the first vibrating plate 311, so that the hopper can vibrate in the vertical direction, and the inclined spring piece drives the hopper to perform torsional vibration around the vertical axis of the hopper. The surface pieces in the hopper ascend along a spiral track due to the vibration. During the ascending process, the flour pieces are screened or changed in posture through a series of tracks, so that the flour pieces can automatically enter the first flow channel 312 in a uniform state according to the assembly requirement.

Next, the surface piece of the first flow channel 312 moves toward the surface piece feeding notch 324a along the first flow channel 312 under the thrust of the subsequent material until the surface piece moves to the first receiving hole 325 on the first feeding mechanism 32.

Then, the first driving assembly 323 drives the first rotating disc 322 to rotate relative to the first base disc 321, so that the first rotating disc 322 drives the flour pieces in the first receiving hole 325 to rotate, and when the first receiving hole 325 on the first rotating disc 322 is communicated with the flour piece discharging port 321a of the first base disc 321, the flour pieces in the first receiving hole 325 pass through the flour piece discharging port 321a, and fall into the placing groove 23 of the rotating disc 22 at the flour piece falling position 231.

And fourthly, feeding by the second feeding unit 4. The rotating disc 22 conveys the face pieces in the receiving bath 23 to the intermediate pad dropping level 232, while the second feeding unit 4 feeds the intermediate pads to the intermediate pad dropping level 232 on the movement locus of the receiving bath 23 so that the intermediate pads are superimposed on the face pieces.

When the second feeding unit 4 feeds, the second vibrating plate 411 vibrates to automatically, orderly, directionally and accurately convey the disordered middle gaskets to the second flow channel 412. The second pulse electromagnet is arranged below the hopper of the second vibrating plate 411, so that the hopper can vibrate in the vertical direction, and the inclined spring piece drives the hopper to perform torsional vibration around the vertical axis of the hopper. The intermediate washers in the hopper, as a result of being subjected to such vibrations, rise along a helical track. During the ascending process, the intermediate gaskets are screened or changed in posture through a series of tracks, so that the intermediate gaskets can automatically enter the second flow channel 412 in a uniform state according to the assembly requirement.

Next, the middle gasket of the second flow channel 412 moves toward the middle gasket feeding gap 424a along the second flow channel 412 under the pushing force of the subsequent material, until the middle gasket moves to the second receiving hole 425 on the second feeding mechanism 42.

Then, the second driving assembly 423 drives the second rotating disc 422 to rotate relative to the second base disc 421, so that the second rotating disc 422 drives the middle gasket in the second receiving hole 425 to rotate, when the second receiving hole 425 on the second rotating disc 422 is communicated with the middle gasket discharging opening of the second base disc 421, the middle gasket in the second receiving hole 425 penetrates through the middle gasket discharging opening, and thus falls into the placing groove 23 on the rotating disc 22 at the middle gasket falling position 232, and the middle gasket is overlapped on the surface member in the placing groove 23.

And fifthly, feeding in the third unit. The rotary disk 22 rotates to transfer the superimposed dough pieces and middle mats in the seating groove 23 to the flute blanking position 233, while the third unit feeds the flute to the flute blanking position 233 on the movement trace of the seating groove 23 so that the flute is superimposed on the middle mat.

When the third feeding unit 5 feeds, the third vibrating plate 511 automatically, orderly, directionally and accurately conveys the unordered straight flutes to the third flow channel 512 through vibration. The lower part is provided with a third pulse electromagnet which can lead the hopper of the third vibrating plate 511 to vibrate vertically, and the inclined spring piece drives the hopper to do torsional vibration around the vertical axis of the hopper. The flutes in the hopper, by being subjected to such vibrations, rise along a helical path. In the ascending process, the straight flutes are screened or changed in posture through a series of tracks, so that the straight flutes can automatically enter the third flow channel 512 in a uniform state according to the assembly requirement.

Next, the flute of the third flow channel 512 moves toward the flute feeding notch 524a along the third flow channel 512 under the thrust of the subsequent material until the flute moves to the third receiving hole 525 on the third feeding mechanism 52.

Then, the third driving assembly 523 drives the third rotating disc 522 to rotate relative to the third base disc 521, so that the third rotating disc 522 drives the straight flute in the third accommodating hole 525 to rotate, when the third accommodating hole 525 on the third rotating disc 522 is communicated with the straight flute discharging hole 521a of the third base disc 521, the straight flute in the third accommodating hole 525 penetrates through the straight flute discharging hole 521a, and then falls into the mounting groove 23 on the rotating disc 22 at the straight flute discharging position 233, the straight flute is superposed on the middle gasket surface piece in the mounting groove 23, and the surface piece, the middle gasket and the straight flute are sequentially superposed to form the snap fitting.

Sixthly, the height detection device 24 detects whether the snap button fittings are missing. The rotating disk 22 rotates to convey the snap button fittings in the mounting grooves 23 to the detection position 234, and the fixed disk 21 is provided with suction holes for sucking and fixing the snap button fittings at the detection position 234.

During detection, the height detection device 24 detects the height of the snap button accessory formed by sequentially overlapping the face piece, the middle gasket and the straight flute through the height difference cylinder 241 above the detection position 234; the height detected by the height difference cylinder 241 corresponds to the height of the snap button fitting.

When the missing fitting is detected by the height difference cylinder 241, the rotary disk 22 is rotated to transfer the missing fitting at the detection position 234 to the discharge position 235, and the discharge cylinder 243 drives the carrying plate 242 to move relative to the discharge position 235 so that the discharge position 235 is communicated with the second discharge opening 212, and the missing fitting in the receiving groove 23 is discharged from the second discharge opening 212. The waste material is transported out of the rotating disc 22 through the second discharge opening 212 for collection and recycling.

When the snap button fitting is not detected to be missing by the height difference cylinder 241, the rotary disk 22 continues to rotate under the control of the cpu, so that the snap button fitting in the receiving slot 23 moves to the assembling position 236, and the riveting unit 6 is ready for riveting.

And seventhly, riveting the qualified snap button accessories detected by the riveting unit 6. Rotating disc 22 rotates to carry the equipment position 236 with the sharp button accessory that the inspection is qualified in the mounting groove 23, when sharp button accessory was located equipment position 236, supported through riveting unit 6's mould seat 62, mould 63 pushed down on the punch press 61 drive, thereby with sharp button accessory riveting into sharp button, and be provided with the constant head tank on the mould seat 62 for mould 63 fixes a position, rectifies sharp button accessory in the cooperation, thereby has realized the riveting of sharp button.

Eighthly, after the snap button riveting is finished, the motor continues to drive the rotating disc 22 to rotate relative to the fixed disc 21, so that the snap button in the mounting groove 23 moves to the blanking position 237, and when the blanking position 237 is communicated with the first discharging port 211 on the fixed seat, the snap button in the mounting groove 23 is discharged from the first discharging port 211.

In addition, install a plurality of optical fiber detection device additional on the equipment, whether fall into the mounting groove 23 that falls of equipment carousel 2 with the material through optical fiber detector detection three material loading unit, when optical fiber detection device detected that mounting groove 23 is located face spare material level 231 that falls, first material loading unit 3 did not successfully load the face spare, send signal control second unit material loading 4 through the central processing unit in base case 1, thereby when making the mounting groove 23 of not placing the face spare rotate middle gasket blanking position 232, second material loading unit 4 is not the material loading. Similarly, when optical fiber detection device detected that mounting groove 23 was located middle gasket material level 232, second material loading unit 4 did not successfully load onto the middle gasket, sent signal control third material loading unit 5 material loading through the central processing unit in base box 1 to make mounting groove 23 that does not place the middle gasket rotate and directly whistle when material level 232, third material loading unit 3 was not the material loading. The device is simple in structure, strong in practicability, capable of reducing waste emission and improving production accuracy of equipment.

Thus, the process of automatically assembling the snap button by the automatic hardware snap button assembling machine of the preferred embodiment is completed.

This automatic kludge of five metals rapid knob carries the rapid knob accessory through setting up equipment carousel 2, encircles first material loading unit 3, second material loading unit 4 and the third material loading unit 5 that equipment carousel 2 set up in proper order and superpose the material loading in proper order for face spare, middle gasket and straight flute superpose in proper order and become the rapid knob accessory, and rethread riveting unit 6 rivets the rapid knob accessory into the rapid knob, thereby realizes the automatic equipment of rapid knob equipment. In addition, the hardware snap button automatic assembling machine has strong universality, two combined snap buttons and three combined snap buttons can be produced, and multiple combined snap buttons can be produced by adding a feeding unit.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, therefore, the scope of the present invention shall be determined by the appended claims.

Claims

1. The utility model provides an automatic kludge of five metals rapid button which characterized in that includes:

a base box including a setting platform;

the blanking unit is arranged on the setting platform of the base box and used for outputting the riveted sharp buttons;

the riveting unit includes:

the punch is arranged on the setting platform;

the upper die is arranged on one side of the punch press, is positioned above the assembling position and is used for riveting the snap button accessories;

the die base is provided with a lower die for riveting a snap button and a fixing groove for fixing a snap button accessory, and the lower die is positioned inside the fixing groove;

2. The automatic hardware snap-button assembling machine according to claim 1, wherein the first feeding unit, the second feeding unit, the third feeding unit, the riveting unit and the blanking unit are sequentially arranged around the outer circumference of the assembling turntable.

3. The automatic hardware snap-button assembling machine according to claim 1, wherein the fixed plate is provided with a first discharging port for discharging snap-buttons corresponding to the material-discharging position, and when the mounting groove on the rotating disc is communicated with the first discharging port, the snap-buttons of the mounting groove are discharged from the first discharging port.

4. The automatic hardware snap button assembling machine according to claim 1, wherein a height detection device for detecting defective products is further arranged on the assembling turntable, and the height detection device is located between the third feeding unit and the riveting unit;

the mounting groove motion trail further comprises:

a detection position for placing a snap fitting to be detected, the detection position is located between the straight flute blanking position and the assembly position, and

the height detection device includes:

5. The automatic hardware snap-button assembling machine according to claim 1, wherein said first feeding unit comprises

The first conveying mechanism is used for conveying the flour piece; and

and the first feeding mechanism is used for placing the flour pieces on the first conveying mechanism on the flour piece falling position of the assembly turntable.

6. The automatic hardware snap assembling machine according to claim 5, wherein the first conveying mechanism comprises: the first vibration disc is arranged on one side of the setting platform, one end of the first flow channel is connected with the first vibration disc, and the other end of the first flow channel is connected with the first feeding mechanism.

7. The automatic hardware snap assembling machine according to claim 5, wherein the first feeding mechanism comprises:

the first driving assembly is arranged inside the base box and used for driving the first rotating disc to rotate; and

when first accepting hole with when the face spare feed opening is linked together, face spare in the first accepting hole runs through the face spare feed opening to fall into the face spare material level that falls.

8. The automatic hardware snap-button assembling machine according to claim 1, wherein the first feeding unit, the second feeding unit and the third feeding unit feed at equal intervals.