CN112318149A

CN112318149A - Case and bag metal pendant processing is with transfer device who has sculpture structure

Info

Publication number: CN112318149A
Application number: CN202011234002.9A
Authority: CN
Inventors: 陈海华; 钟海瑜; 林佳妮
Original assignee: Dongguan Patmuke Technology Co ltd
Current assignee: Dongguan Patmuke Technology Co ltd
Priority date: 2020-11-07
Filing date: 2020-11-07
Publication date: 2021-02-05

Abstract

The invention discloses a transfer device with a carving structure for processing luggage metal hangers, which relates to the technical field of processing luggage metal hangers and comprises a base, a dust suction mechanism, a carving mechanism and a detection mechanism, wherein a main conveying belt is arranged at the central position of the upper end of the base, and a placing groove plate is arranged at the upper end of the main conveying belt, the three electromagnets are arranged to be consistent with the placing position of a hanger body, when a high-definition camera detects that a row of hanger bodies at the upper end of a discharging conveying belt has a carving defect, the electromagnets are descended to the upper end of the hanger body through a detection cylinder, and the corresponding electromagnets adsorb and lift the hanger body, the detection mechanism stops working, and simultaneously an alarm lamp rings to inform a worker to take the pendant body with the carving defect, and when the worker takes the pendant body with the defect, the detection mechanism restores to the working state, the pendant body that detects and pass through carries through ejection of compact conveyer belt.

Description

Case and bag metal pendant processing is with transfer device who has sculpture structure

Technical Field

The invention relates to the technical field of processing of metal hangers of bags and suitcases, in particular to a transfer device with a carving structure for processing the metal hangers of the bags and suitcases.

Background

The case and bag is the general name to the sack, is the general name of various bags that are used for adorning the thing, including general shopping bag, handbag, hand bag, wallet, knapsack, single shoulder bag, satchel, waist bag and multiple draw-bar box etc. the metal pendant on the case and bag can play fine decorative effect, can promote the pleasing to the eye degree of case and bag, need use transfer device in case and bag metal pendant course of working.

Case and bag metal pendant processing transfer device on market is the effect of playing the transportation simply, and the function singleness practicality is not strong, does not have the sculpture structure, need be equipped with sculpture equipment alone, increases manufacturing cost, does not have the structure that detects simultaneously and can't filter the shortcoming of distinguishing to defect metal pendant.

Disclosure of Invention

The invention aims to provide a transfer device with a carving structure for processing metal hangers for bags, which solves the problems that the transfer device for processing metal hangers for bags in the background technology only plays a role of transferring, has single function and low practicability, does not have a carving structure, needs to be provided with carving equipment independently, increases the manufacturing cost, and cannot screen and distinguish defective metal hangers without a detection structure.

In order to achieve the purpose, the invention provides the following technical scheme: a transfer device with an engraved structure for processing metal hangers of bags comprises a base, a dust collection mechanism, an engraving mechanism and a detection mechanism, wherein a main conveying belt is arranged at the center of the upper end of the base, a placement groove plate is placed at the upper end of the main conveying belt, a hanger placement groove is formed in the upper end of the placement groove plate, a hanger body is placed on the inner side of the hanger placement groove, a feeding conveying belt is placed on the left side of the upper end of the base, a discharging conveying belt is placed on the right side of the base, infrared sensors are arranged on two sides of the main conveying belt at the upper end of the base, placement side blocks are arranged at the front end and the rear end of the upper end of the base, a first connecting slide rail is arranged at the upper part of each placement side block, a first connecting slide block is connected to the outer side of the first connecting slide rail, a Y-axis moving assembly is connected to the, the dust absorption mechanism is arranged at the middle upper part of one side of the positioning side block, the carving mechanism is arranged at one side of the Y-axis moving component, the engraving mechanism comprises an X-axis moving component, a second connecting slide block, a second connecting slide rail, a C-shaped limiting block, a driving cylinder, a transverse mounting block, a limiting slide groove and an engraving component, wherein the second connecting slide block is arranged at one side of the X-axis moving component, the inner side of the second connecting slide block is connected with a second connecting slide rail, the lower end of the X-axis moving assembly is connected with a C-shaped limiting block, and the middle part of the upper end of the C-shaped limiting block is provided with a driving cylinder, the lower end of the driving cylinder is connected with a mounting transverse block, and two ends of the transverse block are provided with limit sliding blocks, the outer sides of the limit sliding blocks are connected with limit sliding chutes, the lower end of the transverse placement block is provided with a carving component, and the detection mechanism is arranged above the discharging conveying belt.

Preferably, the size of the inner side of the pendant placing groove is matched with the size of the outer side of the pendant body, six groups of pendant placing grooves are arranged, and three groups of pendant placing grooves are arranged.

Preferably, dust absorption mechanism is including collecting the storehouse, collecting steamer tray, fan and dust absorption pipe, and the inboard of collecting the storehouse is connected with collects the steamer tray, it has the fan to settle the upper end in storehouse, and one side of fan is connected with the dust absorption pipe.

Preferably, the outside of collecting the steamer tray is laminated in the inboard of collecting the storehouse, and collects the steamer tray and be the pull structure with collecting the storehouse to collect for the intercommunication column structure between storehouse, fan and the dust absorption pipe.

Preferably, C shape stopper is perpendicular fixed connection with the second link block, and inside spacing spout was seted up in the both sides of C shape stopper, the inboard of spacing spout and the outside of spacing slider closely laminated simultaneously to settle the horizontal piece and constitute elevation structure through driving between actuating cylinder, spacing slider and the spacing spout and the C shape stopper.

Preferably, the carving assembly and the mounting transverse block are vertically distributed, the number of the carving assemblies is three, and the carving assemblies are distributed at equal intervals.

Preferably, the detection mechanism is including settling framework, alarm lamp, detection cylinder, connection support plate, electro-magnet, high definition digtal camera and light, and settles the alarm lamp in the upper end left corner of framework, the upper end central point who settles the framework puts and is provided with the detection cylinder, and the lower extreme of detecting the cylinder links up and connect the connection support plate, the lower extreme of connecting the support plate settles and has the electro-magnet, the inboard top rear end of settling the framework is provided with high definition digtal camera, and settles the inside both sides middle part of framework and be provided with the light.

Preferably, the electromagnets and the connecting carrier plate are distributed vertically, the number of the electromagnets is three, and the electromagnets and the detecting cylinder form a lifting structure through the connecting carrier plate.

Preferably, the high definition digtal camera is symmetrically distributed along the vertical central axis of the arranging frame body, the illuminating lamps and the arranging frame body are distributed in an obtuse angle mode, and the illuminating lamps are symmetrically distributed in the middle of the inner side of the arranging frame body.

The invention provides a transfer device with a carving structure for processing metal pendants for bags and bags, which has the following beneficial effects:

1. according to the invention, the pendant body can be placed and transported through the arrangement of the placing groove plate and the pendant placing groove, the pendant placing groove and the pendant body which are identical in size can ensure the stability of the pendant body in the conveying and engraving processes so as to ensure the engraving quality of the pendant body, six groups of three pendant placing grooves are arranged, and the three engraving assemblies and three electromagnets are matched, so that the engraving and detection efficiency of the pendant body can be effectively improved.

2. According to the invention, through the arrangement of the dust absorption mechanism, scraps and dust generated in the carving process of the pendant body can be absorbed, so that the workshop environment of the pendant body in the carving process is ensured, the absorption is carried out through the cooperation of the fan and the dust absorption pipe, the collection drawer is arranged, the scraps sucked into the collection bin can be conveniently treated, and meanwhile, the two dust absorption mechanisms are symmetrically distributed along the vertical central axis of the main conveying belt, so that the effect of absorbing the scraps is effectively ensured.

3. According to the invention, the Y-axis moving assembly and the X-axis moving assembly are arranged to realize the movement of the carving assembly on the Y axis and the X axis, so that the sequential carving work of each group of pendant bodies placed on the placing groove plate is realized, the Y-axis moving assembly is matched with the first connecting slide rail and the first connecting slide block through the arranged driving motor to ensure that the carving assembly moves on the Y axis, the driving mode of the X-axis moving assembly is consistent with that of the Y-axis moving assembly, meanwhile, the limiting slide grooves are arranged in the two sides of the C-shaped limiting block and are matched with the limiting slide blocks arranged at the two ends of the placing transverse block, so that the placing transverse block is pushed by the driving cylinder to realize the movement of the carving assembly on the Z axis, and the carving work of the pendant body at the upper end of the whole placing groove plate.

4. According to the invention, through the arrangement of the three engraving assemblies, the engraving efficiency of the pendant body can be effectively improved, the placing groove plate is conveyed through the feeding conveying belt, when the placing groove plate is conveyed to the infrared sensor on the left side, the main conveying belt starts to rotate to enable the placing groove plate to move to the upper end of the main conveying belt, when the infrared sensor on the left side detects that the placing groove plate completely moves to the upper end of the main conveying belt, the main conveying belt stops rotating, the engraving assemblies perform engraving work, the engraving assemblies can engrave a group of pendant bodies simultaneously, after the engraving is completed, the main conveying belt rotates to enable the placing groove plate to move to the upper end of the discharging conveying belt, and when the infrared sensor on the right side detects that the placing groove plate completely moves to the upper end of the discharging.

5. According to the invention, the three electromagnets are arranged to be consistent with the placement positions of the pendant bodies, when a high-definition camera detects that one row of pendant bodies at the upper end of the discharge conveying belt has an engraving defect, the electromagnets descend to the upper end of the pendant body through the detection cylinder, and the corresponding electromagnet adsorbs and lifts the pendant body, the detection mechanism stops working, and simultaneously the alarm lamp rings to inform a worker to take the pendant body with the engraving defect, and when the worker takes the defective pendant body away, the detection mechanism recovers to a working state, and the detected pendant body is conveyed through the discharge conveying belt.

Drawings

FIG. 1 is a schematic structural view of a hanger body of a transfer device with an engraving structure for processing metal hangers for bags and suitcases according to the present invention;

FIG. 2 is a schematic overall structure diagram of a transfer device with an engraving structure for processing metal hangers for bags and suitcases according to the present invention;

FIG. 3 is a schematic top view of a feeding conveyor belt, a main conveyor belt and a discharging conveyor belt of the transfer device with an engraved structure for processing metal hangers for bags according to the present invention;

FIG. 4 is a schematic structural diagram of an engraving mechanism of a transfer device with an engraving structure for processing metal hangers for bags, provided by the invention;

FIG. 5 is a schematic structural diagram of a detection mechanism of a transfer device with an engraved structure for processing metal hangers for bags and suitcases according to the present invention;

FIG. 6 is a schematic top view of a placement groove plate of the transfer device with an engraved structure for processing metal hangers for bags and suitcases.

In the figure: 1. a base; 2. a main conveyor belt; 3. placing a groove plate; 4. a hanging piece placing groove; 5. the pendant body; 6. a feed conveyor belt; 7. a discharge conveyer belt; 8. an infrared sensor; 9. arranging a side block; 10. a first connecting slide rail; 11. a first connecting slider; 12. a Y-axis moving assembly; 13. a drive motor; 14. a dust suction mechanism; 1401. a collection bin; 1402. a collection drawer; 1403. a fan; 1404. a dust collection pipe; 15. an engraving mechanism; 1501. an X-axis moving assembly; 1502. a second connecting slider; 1503. a second connecting slide rail; 1504. a C-shaped limiting block; 1505. a driving cylinder; 1506. arranging a transverse block; 1507. a limiting slide block; 1508. a limiting chute; 1509. an engraving assembly; 16. a detection mechanism; 1601. a frame body is arranged; 1602. an alarm lamp; 1603. detecting a cylinder; 1604. connecting a carrier plate; 1605. an electromagnet; 1606. a high-definition camera; 1607. an illuminating lamp.

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 embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus are not to be construed as limiting the present invention, and furthermore, the terms "first", "second", "third", and the like are only used for descriptive purposes and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate, and those skilled in the art will understand the specific meaning of the above terms in the present invention in specific situations.

Referring to fig. 1-6, the present invention provides a technical solution: a transfer device with an engraving structure for processing metal hangers of bags comprises a base 1, a main conveying belt 2, a placing groove plate 3, a hanger placing groove 4, a hanger body 5, a feeding conveying belt 6, a discharging conveying belt 7, an infrared sensor 8, a placing side block 9, a first connecting slide rail 10, a first connecting slide block 11, a Y-axis moving assembly 12, a driving motor 13, a dust suction mechanism 14, a collecting bin 1401, a collecting drawer 1402, a fan 1403, a dust suction pipe 1404, an engraving mechanism 15, an X-axis moving assembly 1501, a second connecting slide block 1502, a second connecting slide rail 1503, a C-shaped limiting block 1504, a driving cylinder 1505, a placing transverse block 1506, a limiting slide block 1507, a limiting slide groove 1508, an engraving assembly 1509, a detection mechanism 16, a placing frame body 1601, an alarm lamp 1602, a detection cylinder 1603, a connecting support plate 1604, an electromagnet 1605, a camera 1606 and an illuminating lamp 1607, wherein the main conveying belt 2 is placed at the center position of the upper end of the, a placing groove plate 3 is placed at the upper end of a main conveying belt 2, a pendant placing groove 4 is formed at the upper end of the placing groove plate 3, a pendant body 5 is placed at the inner side of the pendant placing groove 4, a feeding conveying belt 6 is placed at the left side of the upper end of a base 1, a discharging conveying belt 7 is placed at the right side of the base 1, infrared sensors 8 are arranged at the upper end of the base 1 at two sides of the main conveying belt 2, placing side blocks 9 are arranged at the front and rear ends of the upper end of the base 1, a first connecting sliding rail 10 is arranged at the upper part of each placing side block 9, a first connecting sliding block 11 is connected to the outer side of each first connecting sliding rail 10, a Y-axis moving assembly 12 is connected to the other side of each first connecting sliding block 11, a driving motor 13 is arranged at one side of the Y-axis moving assembly 12, the inner side size of the, and 4 every groups of pendant standing groove are provided with threely, the setting of placing frid 3 and pendant standing groove 4, can place the transportation to pendant body 5, identical pendant standing groove 4 of size and pendant body 5, can guarantee pendant body 5 stability at transport and sculpture in-process, in order to guarantee the sculpture quality of pendant body 5, set up to six groups of every groups and set up to three pendant standing groove 4, three sculpture subassembly 1509 and three electro-magnet 1605 that the cooperation was provided with, can effectively promote the efficiency that pendant body 5 carves and detects.

The dust collection mechanism 14 is arranged at the middle upper part of one side of the side block 9, the dust collection mechanism 14 comprises a collection bin 1401, a collection drawer 1402, a fan 1403 and dust collection pipes 1404, the collection drawer 1402 is connected to the inner side of the collection bin 1401, the fan 1403 is arranged at the upper end of the collection bin 1401, the dust collection pipes 1404 are connected to one side of the fan 1403, the outer side of the collection drawer 1402 is attached to the inner side of the collection bin 1401, the collection drawer 1402 and the collection bin 1401 are in a pull-pull structure, the collection bin 1401, the fan 1403 and the dust collection pipes 1404 are in a communicated structure, waste chips and dust generated in the carving process of the pendant body 5 can be absorbed through the arrangement of the dust collection mechanism 14, the workshop environment of the pendant body 5 in the carving process is guaranteed, the waste chips sucked into the collection bin are conveniently treated through the cooperation of the fan 1403 and the dust collection pipes 1404, and the two dust collection mechanisms 14 are arranged, and the vertical central axis of the main conveying belt 2 is symmetrically distributed, so that the effect of absorbing the waste scraps is effectively ensured.

The engraving mechanism 15 is arranged at one side of the Y-axis moving component 12, the engraving mechanism 15 comprises an X-axis moving component 1501, a second connecting slide block 1502, a second connecting slide rail 1503, a C-shaped limiting block 1504, a driving cylinder 1505, a placing transverse block 1506, a limiting slide block 1507, a limiting slide groove 1508 and an engraving component 1509, the second connecting slide block 1502 is arranged at one side of the X-axis moving component 1501, the second connecting slide rail 1503 is connected to the inner side of the second connecting slide block 1502, the C-shaped limiting block 1504 is connected to the lower end of the X-axis moving component 1501, the driving cylinder 1504 is arranged in the middle of the upper end of the C-shaped limiting block 1504, the placing transverse block 1506 is connected to the lower end of the driving cylinder 1505, the limiting slide block 1507 is connected to the two ends of the placing transverse block 1506, the limiting slide groove 1508 is connected to the outer side of the limiting slide block 1507, the engraving component 1509 is arranged at the lower end of, the limiting chutes 1508 are arranged inside two sides of the C-shaped limiting block 1504, the inner sides of the limiting chutes 1508 are tightly attached to the outer sides of the limiting sliding blocks 1507, the transverse block 1506 is arranged to form a lifting structure through the driving cylinder 1505, the limiting sliding blocks 1507, the limiting chutes 1508 and the C-shaped limiting block 1504, the Y-axis moving assembly 12 and the X-axis moving assembly 1501 are arranged to realize the movement of the engraving assembly 1509 on the Y axis and the X axis, so as to realize the sequential engraving work of each group of hanging part bodies 5 arranged on the placing groove plate 3, the Y-axis moving assembly 12 is matched with the first connecting slide rail 10 and the first connecting slide block 11 through the arranged driving motor 13, so that the engraving assembly 1509 moves on the Y axis, the driving mode of the X-axis moving assembly 1501 is consistent with the driving mode of the Y-axis moving assembly 12, and the limiting chutes 1508 arranged inside two sides of the C-shaped limiting sliding block 1504 are, the limiting sliding blocks 1507 arranged at the two ends of the placing transverse block 1506 are matched, so that the placing transverse block 1506 is pushed by the driving cylinder 1505 to realize the movement of the carving component 1509 on the Z axis, thereby completing the carving work of the pendant body 5 at the upper end of the whole placing groove plate 3, the carving components 1509 are vertically distributed with the placing transverse block 1506, the carving components 1509 are arranged in three numbers, the carving components 1509 are distributed at equal intervals, the three carving components 1509 are arranged, the carving efficiency of the pendant body 5 can be effectively improved, the placing groove plate 3 is conveyed by the feeding conveyor belt 6, when conveyed to the infrared sensor 8 at the left side, the main conveyor belt 2 starts to rotate, so that the placing groove plate 3 moves to the upper end of the main conveyor belt 2, when the infrared sensor 8 at the left side detects that the placing groove plate 3 completely moves to the upper end of the main conveyor belt 2, the main conveyor belt 2 stops rotating, the carving components 1509 carry out, and sculpture subassembly 1509 can carve 5 simultaneously of a set of pendant body, and sculpture completion back main conveyer belt 2 rotates and makes and place frid 3 and remove 7 upper ends to ejection of compact conveyer belt, and when infrared inductor 8 on right side detected and placed frid 3 and remove 7 upper ends to ejection of compact conveyer belt completely, main conveyer belt 2 stall was regarded as accomplishing sculpture work.

The detection mechanism 16 is arranged above the discharging conveyer belt 7, the detection mechanism 16 comprises a mounting frame body 1601, an alarm lamp 1602, a detection cylinder 1603, a connecting carrier plate 1604, an electromagnet 1605, a high-definition camera 1606 and an illuminating lamp 1607, the alarm lamp 1602 is arranged at the left corner of the upper end of the mounting frame body 1601, the detection cylinder 1603 is arranged at the center position of the upper end of the mounting frame body 1601, the lower end of the detection cylinder 1603 is connected with the connecting carrier plate 1604, the electromagnet 1605 is arranged at the lower end of the connecting carrier plate 1604, the high-definition camera 1606 is arranged at the rear end of the inner top of the mounting frame body 1601, the illuminating lamps 1607 are arranged in the middle parts of two sides in the mounting frame body 1601, the electromagnet 1605 and the connecting carrier plate 1604 are vertically distributed, three electromagnets 1605 are arranged, a lifting structure is formed between the electromagnet 1605 and the detection cylinder 1603 through the connecting carrier plate 1604, and light 1607 is obtuse angle form with settling frame 1601 and distributes, and light 1607 symmetric distribution is in the inboard middle part of settling frame 1601, the setting of three electro-magnet 1605 is unanimous with the position of placing of pendant body 5, it has the condition that there is sculpture defect to detect out a row of pendant body 5 of ejection of compact conveyer belt 7 upper end when high definition digtal camera 1606, electro-magnet 1605 descends to pendant body 5 upper end through detecting cylinder 1603, and a corresponding electro-magnet 1605 adsorbs promotion to pendant body 5, detection mechanism 16 stop work, alarm lamp 1602 rings simultaneously, inform the staff to get to the pendant body 5 of sculpture defect, treat that the staff takes defect pendant body 5, detection mechanism 16 resumes operating condition, the pendant body 5 that detects the pass through carries through ejection of compact conveyer belt 7.

In conclusion, the transfer device with the carving structure for processing the metal hanging pieces of the luggage is used for conveying the placing groove plate 3 on which the hanging piece bodies 5 are placed through the feeding conveying belt 6, when the placing groove plate is conveyed to the left infrared sensor 8, the main conveying belt 2 starts to rotate to enable the placing groove plate 3 to move to the upper end of the main conveying belt 2, when the left infrared sensor 8 detects that the placing groove plate 3 completely moves to the upper end of the main conveying belt 2, the main conveying belt 2 stops rotating, the carving component 1509 carries out carving work, the arrangement of the Y-axis moving component 12 and the X-axis moving component 1501 can realize the movement of the carving component 1509 on the Y axis and the X axis, further realize the sequential carving work of each group of hanging piece bodies 5 placed on the placing groove plate 3, the Y-axis moving component 12 is matched with the first connecting slide rail 10 and the first connecting slide block 11 through the arranged driving motor 13, make sculpture subassembly 1509 move on the Y axle, the drive mode that the subassembly 1501 is removed to the X axle is unanimous with Y axle removal subassembly 12 drive mode, set up the inside spacing spout 1508 in C shape stopper 1504 both sides simultaneously, the cooperation is settled the spacing slider 1507 that crosspiece 1506 both ends were provided with, make it realize sculpture subassembly 1509 at the epaxial removal of Z under the promotion of driving actuating cylinder 1505 to settle crosspiece 1506, thereby the whole pendant body 5 sculpture work of placing the frid 3 upper end in back, the setting of three sculpture subassembly 1509 can be carved a set of pendant body 5 simultaneously, through the setting of dust absorption mechanism 14, can absorb sweeps and the dust that produce in the sculpture process of pendant body 5, and then guarantee the workshop environment of pendant body 5 in the sculpture process.

After the carving is finished, the main conveying belt 2 rotates to enable the placing groove plate 3 to move to the upper end of the discharging conveying belt 7, when the infrared sensor 8 on the right side detects that the placing groove plate 3 completely moves to the upper end of the discharging conveying belt 7, the main conveying belt 2 stops rotating, the arrangement of three electromagnets 1605 is consistent with the placing position of the pendant body 5, when the high-definition camera 1606 detects that one row of pendant bodies 5 on the upper end of the discharging conveying belt 7 has a carving defect, the electromagnets 1605 descend to the upper end of the pendant body 5 through the detection cylinder 1603, and the corresponding electromagnet 1605 adsorbs and lifts the pendant body 5, the detection mechanism 16 stops working, the alarm lamp 1602 rings at the same time, the worker is informed to take the pendant body 5 with the carving defect, the worker takes the pendant body 5 with the defect, the detection mechanism 16 restores to a working state, and the detected pendant body 5 is conveyed through the discharging conveying belt 7, set up to six groups every and set up to three pendant standing groove 4, three sculpture subassembly 1509 and three electro-magnet 1605 that the cooperation was provided with can effectively promote the efficiency that 5 engravings of pendant body and detected.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a case and bag metal pendant processing is with transfer device who has sculpture structure, includes base (1), dust absorption mechanism (14), sculpture mechanism (15) and detection mechanism (16), its characterized in that: a main conveying belt (2) is arranged at the center of the upper end of the base (1), a placement groove plate (3) is arranged at the upper end of the main conveying belt (2), a pendant placement groove (4) is formed in the upper end of the placement groove plate (3), a pendant body (5) is placed on the inner side of the pendant placement groove (4), a feeding conveying belt (6) is arranged on the left side of the upper end of the base (1), a discharging conveying belt (7) is arranged on the right side of the base (1), infrared sensors (8) are arranged on the upper end of the base (1) and located on two sides of the main conveying belt (2), placement side blocks (9) are arranged at the front end and the rear end of the upper end of the base (1), a first connecting sliding rail (10) is arranged on the upper portion of the placement side blocks (9), a first connecting sliding block (11) is connected to the outer side of the first connecting sliding rail (10), and a Y-, a driving motor (13) is arranged on one side of the Y-axis moving assembly (12), the dust collection mechanism (14) is arranged on the middle upper portion of one side of the placement side block (9), the carving mechanism (15) is arranged on one side of the Y-axis moving assembly (12), the carving mechanism (15) comprises an X-axis moving assembly (1501), a second connecting sliding block (1502), a second connecting sliding rail (1503), a C-shaped limiting block (1504), a driving cylinder (1505), a placement transverse block (1506), a limiting sliding block (1507), a limiting sliding chute (1508) and a carving assembly (1509), the second connecting sliding block (1502) is arranged on one side of the X-axis moving assembly (1501), the second connecting sliding rail (1503) is connected to the inner side of the second connecting sliding block (1505), the C-shaped limiting block (1504) is connected to the lower end of the X-axis moving assembly (1501), and the driving cylinder (1505) is arranged in the middle of the upper end of the C-shaped, the lower extreme of driving actuating cylinder (1505) links up and has settled horizontal piece (1506), and the both ends of settling horizontal piece (1506) are provided with spacing slider (1507), the outside of spacing slider (1507) is connected with spacing spout (1508), the lower extreme of settling horizontal piece (1506) is settled and is carved subassembly (1509), detection mechanism (16) set up in the top of ejection of compact conveyer belt (7).

2. The transportation device with the carving structure for the luggage metal pendant processing according to claim 1, characterized in that: the size of the inner side of each pendant placing groove (4) is matched with the size of the outer side of each pendant body (5), six groups of pendant placing grooves (4) are arranged, and three groups of pendant placing grooves (4) are arranged.

3. The transportation device with the carving structure for the luggage metal pendant processing according to claim 1, characterized in that: dust absorption mechanism (14) are including collecting storehouse (1401), collection steamer tray (1402), fan (1403) and dust absorption pipe (1404), and the inboard of collecting storehouse (1401) is connected with collection steamer tray (1402), it settles fan (1403) to collect the upper end in storehouse (1401), and one side of fan (1403) is connected with dust absorption pipe (1404).

4. The transfer device with the carving structure for processing the metal pendant of the luggage according to claim 3, wherein: the outer side of the collection drawer (1402) is attached to the inner side of the collection bin (1401), the collection drawer (1402) and the collection bin (1401) are in a drawing structure, and the collection bin (1401), the fan (1403) and the dust suction pipe (1404) are in a communicated structure.

5. The transportation device with the carving structure for the luggage metal pendant processing according to claim 1, characterized in that: c shape stopper (1504) are perpendicular fixed connection with second link block (1502), and inside spacing spout (1508) were seted up in the both sides of C shape stopper (1504), the inboard of spacing spout (1508) is closely laminated with the outside of spacing slider (1507) simultaneously to it constitutes elevation structure through driving between actuating cylinder (1505), spacing slider (1507) and spacing spout (1508) and C shape stopper (1504) to settle horizontal piece (1506).

6. The transportation device with the carving structure for the luggage metal pendant processing according to claim 1, characterized in that: carving subassembly (1509) and arrangement horizontal piece (1506) are vertical form and distribute, and carving subassembly (1509) is provided with three to be the equidistance between carving subassembly (1509) and distribute.

7. The transportation device with the carving structure for the luggage metal pendant processing according to claim 1, characterized in that: detection mechanism (16) including settling framework (1601), alarm lamp (1602), detection cylinder (1603), connect support plate (1604), electro-magnet (1605), high definition digtal camera (1606) and light (1607), and settle the upper end left corner of framework (1601) and settle alarm lamp (1602), the upper end central point of settling framework (1601) puts and is provided with detection cylinder (1603), and the lower extreme of detecting cylinder (1603) links up and connects support plate (1604), the lower extreme of connecting support plate (1604) is settled and is had electro-magnet (1605), the inboard top rear end of settling framework (1601) is provided with high definition digtal camera (1606), and the inside both sides middle part of settling framework (1601) is provided with light (1607).

8. The transportation device with the carving structure for the luggage metal pendant processing according to claim 7, characterized in that: electromagnet (1605) are vertical form with connecting support plate (1604) and distribute, and electromagnet (1605) are provided with threely, and electromagnet (1605) constitute elevation structure through connecting between support plate (1604) and detecting cylinder (1603) simultaneously.

9. The transportation device with the carving structure for the luggage metal pendant processing according to claim 7, characterized in that: high definition digtal camera (1606) are along the vertical axis symmetric distribution who settles framework (1601), and light (1607) and settle framework (1601) and be the obtuse angle form and distribute to light (1607) symmetric distribution is in the inboard middle part of settling framework (1601).