CN216188771U - Automatic hem feeder - Google Patents
Automatic hem feeder Download PDFInfo
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- CN216188771U CN216188771U CN202122573335.0U CN202122573335U CN216188771U CN 216188771 U CN216188771 U CN 216188771U CN 202122573335 U CN202122573335 U CN 202122573335U CN 216188771 U CN216188771 U CN 216188771U
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Abstract
The utility model relates to the technical field of lamp production, in particular to an automatic flanging feeder, which comprises a rack, a storage bin, two flanging feeding devices and a flanging feeding driving device, wherein the two flanging feeding devices are arranged on two sides of a discharge port of the storage bin; the first breaking part is positioned above the second breaking part and forms an included angle with the second breaking part; the first breaking piece can extend into the bin in a protruding mode; and the second breaking piece is positioned below the discharge hole of the storage bin. The second breaking piece and the first breaking piece after the lamp panel is broken reset, so that automatic blanking of the broken base plate and automatic feeding of the lamp panel in the storage bin can be realized, and the quantity of power sources of the flanging feeder is reduced.
Description
Technical Field
The utility model relates to the technical field of lamp production, in particular to an automatic flanging feeding machine.
Background
In recent years, with the continuous improvement of living standard of people, the use requirements of people for lamps such as decorative lamps, advertising lamps and exposed lamps are increasing day by day, and the lamp core plate is widely applied to the lamps due to the advantages of small volume, pure light and color, low heat dissipation, long service life, energy conservation and the like, and can also be called as a patch lamp bead. However, a plate folding machine for breaking the whole lamp panel into the lamp core plates is absent in the market at present, the plate edges of the lamp panel are broken by manpower, then the lamp panel is broken into a plurality of lamp core plates, the processing and breaking cost of the lamp panel is high, and the production efficiency of the lamp core plates is low. Therefore, the drawbacks are obvious, and a solution is needed.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problems, the utility model aims to provide an automatic flanging feeding machine.
In order to achieve the purpose, the utility model adopts the following technical scheme:
an automatic flanging feeder comprises a rack, a bin arranged on the rack, two flanging feeding devices arranged on two sides of a discharge port of the bin and a flanging feeding driving device arranged on the rack, wherein the flanging feeding driving device is used for driving the two flanging feeding devices to be close to or away from each other; the first breaking part is positioned above the second breaking part and forms an included angle with the second breaking part; the first breaking piece can extend into the bin in a protruding mode; and the second breaking piece is positioned below the discharge hole of the storage bin.
Furthermore, the flanging feeding device also comprises a first inclined surface arranged on the second breaking part, and the first inclined surface is arranged on one side of the second breaking part, which is close to the first breaking part; the bottom end of the first inclined surface inclines towards the direction far away from the storage bin.
Further, one of the breaking parts comprises a breaking part body, a second inclined plane arranged on the top end of the breaking part body and a clamping groove arranged at the bottom end of the breaking part body, and the clamping groove and the second inclined plane are both arranged on one side close to the storage bin with the breaking part body.
Furthermore, the storage bin comprises a material cavity, and a first material guide plate and a second material guide plate which are respectively arranged on the rack, wherein the material cavity is formed by enclosing the inner side walls of the first material guide plate and the second material guide plate; the second material guide plate is positioned between the moving seat and the first material guide plate; the first breaking piece can penetrate through the second material guide plate and protrudes into the material cavity, and the second breaking piece is located below the material cavity.
Further, the hem feeder is still including setting up two flange edge conveyor in the both sides of the discharge gate of feed bin, flange edge conveyor is located second below of broken part and communicates with the discharge gate of feed bin.
Furthermore, the flanging feeding machine also comprises a feeding device arranged on the frame, and the feeding device is positioned below the storage bin and communicated with a discharge hole of the storage bin; the feeding device is positioned between the two plate edge conveying devices.
Furthermore, the connecting piece is provided with a material leaking hole, and a feeding hole of the plate edge conveying device is communicated with a discharging hole of the storage bin through the material leaking hole.
Further, the flanging feeding machine further comprises a pressing device, and the pressing device is used for pressing or loosening the plate in the storage bin.
Furthermore, the pressing device comprises a swing arm seat arranged on the rack or the storage bin, a swing arm shaft with one end rotatably connected with the swing arm seat, a pressing piece connected with the other end of the swing arm shaft and an elastic piece connected with the swing arm shaft and the swing arm seat; the compressing piece can stretch into the storage bin in a protruding mode, and the compressing piece is arranged above the breaking space in a rotating mode.
Furthermore, the flanging feeding driving device comprises a flanging feeding driver, a limiting plate connected with the output end of the flanging feeding driver and two movable grooves respectively penetrating through the limiting plate, one end of the movable seat is inserted into the movable grooves and is in sliding connection with the movable grooves, and the other end of the movable seat is respectively connected with the connecting piece and the flanging driving mechanism; the movable seat is connected to the frame in a sliding mode.
The utility model has the beneficial effects that: this hem feeder is broken the flange limit of lamp plate through the cooperation of broken piece two and broken piece one, drives broken piece two and the automatic feed of lamp plate in the feed bin through hem pay-off drive arrangement, just can realize the automatic blanking of the base plate after the rupture and the automatic feed of lamp plate in the feed bin, has reduced the quantity of the power source of required hem feeder among the prior art, action step when having simplified the lamp plate hem, has improved the hem pay-off efficiency of lamp plate, has reduced the follow-up processing cost of lamp plate. The flanging feeder is high in practicability, simple and compact in structure, high in automation degree, capable of reducing the labor intensity of workers and high in flanging feeding efficiency of the lamp panel; the second breaking part and the first breaking part are connected with the moving seat respectively, the synchronism of the second breaking part and the first breaking part during movement is improved, and the accuracy and the stability of the hem feeder during hem feeding of the lamp panel are improved.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a rear view of the present invention with a second material guiding plate removed.
Fig. 3 is an enlarged view of a portion a in fig. 2.
Fig. 4 is a partial perspective view of the first embodiment of the present invention.
Fig. 5 is a partial perspective view of the second embodiment of the present invention.
Fig. 6 is a schematic view of the lamp panel in a three-dimensional structure.
Description of reference numerals:
1. a frame; 2. a storage bin; 3. a flanging feeding driving device; 4. a flanging feeding device; 5. a feeding device; 6. a board edge conveying device; 7. a pressing device; 21. a first material guide plate; 22. a second material guide plate; 23. a guide groove; 31. a hem feed driver; 32. a limiting plate; 33. a movable groove; 41. a connecting member; 42. a hem driving mechanism; 43. a first breaking part; 44. a movable seat; 45. a second breaking part; 46. a second inclined surface; 47. a card slot; 48. a first inclined surface; 61. a material leaking hole; 71. a compression member; 72. a swing arm seat; 73. a swing arm shaft; 74. an elastic member; 75. a limiting column; 100. a substrate; 101. plate edges; 102. breaking the line; 103. a limiting groove; 441. a first connecting plate; 442. a second connecting plate; 443. a slide rail; 444. a sliding seat.
Detailed Description
In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.
As shown in fig. 1 to 6, the automatic flanging feeder provided by the utility model comprises a frame 1, a bin 2 arranged on the frame 1, two flanging feeding devices 4 arranged at two sides of a discharge port of the bin 2, and a flanging feeding driving device 3 arranged on the frame 1, the flanging feeding driving device 3 is used for driving the two flanging feeding devices 4 to move close to or away from each other, the flanging feeding device 4 comprises a first fracture part 43, a second fracture part 45, a moving seat 44 connected with the output end of the flanging feeding driving device 3 and a flanging driving mechanism 42 arranged on the moving seat 44, the first breaking piece 43 is connected with the output end of the folding driving mechanism 42, the second breaking piece 45 is connected with the movable seat 44 through the connecting piece 41, the second breaking piece 45 and the connecting piece 41 are enclosed to form a folded plate space, and the first breaking piece 43 is arranged corresponding to the folded plate space; the first breaking part 43 is positioned above the second breaking part 45 and forms an included angle with the second breaking part 45; the first breaking piece 43 can protrude into the bin 2; the second breaking part 45 is positioned below the discharge hole of the bin 2 and can open or close the discharge hole of the bin 2.
Specifically, the hem driving mechanism 42 is used to drive the first flap 43 to move out of or into the flap space; the lamp panel comprises a substrate 100, two plate edges 101 respectively arranged at the left side and the right side of the substrate 100 and a broken line 102 connected with the substrate 100 and the plate edges 101, wherein the broken line 102 consists of continuous nicking lines or discontinuous hole lines; a plurality of lamp panels are stacked in the inner layer of the storage bin 2; at the beginning, the second breaking piece 45 is positioned in the lower part of the discharge hole of the bin 2 and can support the plate edge 101 of the lamp panel at the bottommost layer in the bin 2, so that a plurality of lamp panels are stably stored in the bin 2, and the first breaking piece 43 is positioned outside the discharge hole side of the bin 2; the two flanging feeding devices 4 are symmetrically arranged along the central axis of the frame 1.
This hem feeder can wide application in the hem pay-off to the plate of multiple different grade type such as PCB board or lamp plate, and this embodiment mainly uses to carry out hem and blanking to the lamp plate to explain as the example. In the actual use process, a plurality of lamp panels are stacked in the bin 2, the second breaking parts 45 of the two flanging feeding devices 4 respectively support two panel edges 101 of the bottommost lamp panel in the bin 2, and the tips of the folded plates of the first breaking parts 43 are aligned to and located outside a gap between the two bottommost lamp panels in the bin 2; when the lamp panel at the bottommost layer needs to be flanged, namely two panel edges 101 on the lamp panel are broken, firstly, the flanging feeding driving device 3 drives the two flanging feeding devices 4 to approach each other, namely the driving moving seat 44, the connecting piece 41, the flanging driving mechanism 42, the first breaking piece 43 and the second breaking piece 45 synchronously move towards the inner direction of the bin 2 until the tip of the folded plate of the first breaking piece 43 protrudes into the discharge hole of the bin 2 and is inserted into the gap between the two lamp panels at the bottommost layer, so as to separate the two lamp panels at the bottommost layer in the bin 2, at the moment, the first breaking piece 43 supports the other lamp panels in the bin 2 except the bottommost layer, meanwhile, the second breaking piece 45 moves to the position of the broken line 102 of the lamp panel at the bottommost layer or moves to the position below the substrate 100 at the bottommost layer, and the tip of the folded plate of the second breaking piece 45 aligns with the broken line 102 or supports the substrate 100 at the bottommost layer, the lamp panel at the bottommost layer is located between the first breaking part 43 and the second breaking part 45, then the first breaking part 43 is driven by the folding driving mechanism 42 to move to the folding edge space, the first breaking part 43 moves downwards, the plate edge 101 of the lamp panel at the bottommost layer rotates downwards relative to the base plate 100, under the matching of the first breaking part 43 and the second breaking part 45, the plate edge 101 is broken along the breaking line 102, and the folding driving mechanism 42 stops moving, so that the lamp panel in the folding edge station is folded. Accomplish the hem back, drive a broken piece 43 and two 45 resets of broken piece through hem pay-off drive arrangement 3 and hem actuating mechanism 42, make base plate 100 behind the hem automatic blanking under the effect of gravity, meanwhile, the support of the lamp panel of a broken piece 43 release in to feed bin 2, make the thickness of the whole lamp panel that descends of all lamp panels in the feed bin 2, thereby make two 45 supports all lamp panels in the feed bin 2 again of broken piece, in order to wait for next hem work, repeat the above-mentioned action, constantly realize carrying out hem and blanking to the lamp panel in the feed bin 2. This hem feeder breaks through the cooperation of second break 45 and first break 43 with the flange 101 of lamp plate, drive second break 45 and the first 43 of break through hem pay-off drive arrangement 3 and reset, just can realize the automatic blanking of the base plate 100 after the fracture and the automatic feed of lamp plate in the feed bin 2, the quantity of the power source of required hem feeder among the prior art has been reduced, the action step when having simplified the lamp plate hem, the hem pay-off efficiency of lamp plate has been improved, the subsequent processing cost of lamp plate has been reduced. The flanging feeder is high in practicability, simple and compact in structure, high in automation degree, capable of reducing the labor intensity of workers and high in flanging feeding efficiency of the lamp panel; with a second break 45 and a first break 43 be connected with removal seat 44 respectively, the synchronism when having improved a second break 45 and a break 43 motion has improved precision and stability when hem feeder carries out the hem pay-off to the lamp plate.
Further, the flanging feeding device 4 further comprises a first inclined surface 48 arranged on the second breaking part 45, and the first inclined surface 48 is arranged on one side, close to the first breaking part 43, of the second breaking part 45; the bottom end of the first inclined surface 48 inclines towards the direction far away from the storage bin 2.
Preferably, the first break 43 and the second break 45 are arranged vertically. The first inclined surface 48 is additionally arranged, when the first breaking part 43 moves towards the direction close to the second breaking part 45, the first inclined surface 48 provides an avoidance space, and the first breaking part 43 cannot be abutted against the second breaking part 45 when the plate edge 101 is broken downwards, so that the stability and the efficiency of the plate edge 101 during breaking are improved.
Further, the first breaking piece 43 comprises a breaking piece body, two inclined planes 46 arranged at the top end of the breaking piece body and a clamping groove 47 arranged at the bottom end of the breaking piece body, and the clamping groove 47 and the two inclined planes 46 are arranged on one side close to the bin 2 with the breaking piece body.
Specifically, the lamp plate still includes the spacing groove 103 that is established by the diapire of flange 101 and the diapire of base plate 100 circumference inwards concave. When a break 43 stretches out to in the feed bin 2, two 46 pairs of break bodies on the inclined plane lead, be convenient for the break body to insert the spacing inslot 103 of locating between two lamp plates of bottom, and locate the flange 101 card of the lamp plate of bottom in draw-in groove 47, a break 43 drives flange 101 when bending downwards, can avoid flange 101 from break body below roll-off or deviate from, lead to the problem that flange 101 upwards kick-backed and not thoroughly broken, be favorable to a break 43 to carry out the hem to the lamp plate fast accurately.
Further, the storage bin 2 comprises a material cavity, and two material guide plates I21 and two material guide plates II 22 which are respectively arranged on the rack 1, wherein the material cavity is formed by enclosing the inner side walls of the two material guide plates I21 and the inner side walls of the two material guide plates II 22; the second material guide plate 22 is positioned between the moving seat 44 and the first material guide plate 21; the first breaking piece 43 can penetrate through the second material guide plate 22 and protrude into the material cavity, and the second breaking piece 45 is located below the material cavity and can open or close a material outlet of the material cavity.
Specifically, the guide grooves 23 are formed in both the first guide plate 21 and the second guide plate 22, and the guide grooves 23 extend along the height direction of the first guide plate 21 or/and the second guide plate 22. In the in-service use process, when the height of the first guide plate 21 and the second guide plate 22 is higher, the inner side wall of the material cavity can limit and guide the lamp panel, so that more lamp panels can be stored conveniently. However, when the multiple lamp panels slide down to the second breaking piece 45 under the action of gravity, the lamp panels are likely to rub against the inner side wall of the material cavity to generate large friction force or resistance, so that the positions of the stacked multiple lamp panels are shifted, and the feeding efficiency of the lamp panels in the storage bin 2 and the accuracy of the fed positions are affected; the guide groove 23 is additionally arranged, so that the contact area between the lamp panel and the inner side wall of the material cavity is reduced, and the friction resistance is reduced; in addition, workman's hand can also insert in the guide slot 23 to in the handheld a plurality of lamp plates of a plurality of range upon range of move down in the material chamber, conflict until the diapire of hand and guide slot 23, loosen a plurality of lamp plates again and take out the hand from the guide slot 23, thereby accomplish the material loading of a plurality of lamp plates. Guide slot 23 can dodge workman's hand, and the handheld a plurality of lamp plates of the workman of being convenient for carry out the material loading, and the interpolation of lamp plate is convenient to a plurality of lamp plates drop steadily to broken piece two 45 on, improved lamp plate material loading efficiency, and guide slot 23 can supply operating personnel to observe the clout condition and the behavior in the feed bin 2.
Further, the hemming feeding driving device 3 includes a hemming feeding driver 31, a limiting plate 32 connected to an output end of the hemming feeding driver 31, and two movable grooves 33 respectively penetrating through the limiting plate 32, one end of the movable seat 44 is inserted into the movable groove 33 and slidably connected to the movable groove 33, and the other end of the movable seat 44 is respectively connected to the connecting member 41 and the hemming driving mechanism 42; the movable seat 44 is slidably connected to the frame 1; specifically, the movable groove 33 is an inclined groove or an arc groove.
Specifically, the moving seat 44 includes a first connecting plate 441, a sliding seat 444 disposed at the bottom end of the first connecting plate 441, a sliding rail 443 disposed on the frame 1, and a second connecting plate 442 having one end connected to the first connecting plate 441, and the other end of the second connecting plate 442 is connected to the connecting member 41 and the hemming driving mechanism 42, respectively; the sliding seat 444 is slidably connected with the sliding rail 443; the two movable grooves 33 are symmetrically arranged on the limit plate 32; the top end of the first connecting plate 441 is inserted into the movable groove 33 and is in sliding connection with the movable groove 33; the movable groove 33 is obliquely arranged on the limit plate 32; the flanging feeding driving device 3 is used for driving the limiting plate 32 to move towards or away from the connecting plates 441, the limiting plate 32 drives the two connecting plates 441 to move towards or away from each other through the two movable grooves 33, and the sliding direction of the connecting plates 441 on the frame 1 is perpendicular to the moving direction of the limiting plate 32.
Specifically, the first connecting plate 441 is provided with a contact piece, and the contact piece is located in the movable groove 33 and is in sliding connection with the movable groove 33. Preferably, the abutting element is a roller or a bearing, and the abutting element is in rolling abutting contact with the inner wall of the movable groove 33, so that the friction resistance between the connecting plate-441 and the movable groove 33 in the sliding process can be reduced.
Preferably, the top projection views of the two movable grooves 33 are in a shape of a Chinese character 'zhu' or a Chinese character 'zhu', and the hemming feeding driver 31 may adopt an air cylinder. In the actual use process, the folding feeding driver 31 drives the limiting plate 32 and the movable groove 33 to move in the direction away from the first connecting plate 441, so that the top end of the first connecting plate 441 slides in the movable groove 33, meanwhile, the first connecting plate 441 drives the sliding seat 444 to slide in the direction of the bottom end of the moving-in bin 2 relative to the sliding rail 443, so as to drive the second connecting plate 442, the first breaking piece 43 and the second breaking piece 45 to move in the direction close to the bin 2, folding of the lamp panel is performed, after folding, the limiting plate 32, the movable groove 33, the first connecting plate 441 and the second connecting plate 442 are driven to reset through the folding feeding driver 31, and automatic feeding of the substrate 100 and automatic feeding of a folding station are realized. The movable groove 33 can be used for limiting the sliding stroke of the first connecting plate 441 on the rack 1, so that the position accuracy of the first connecting plate 441 is improved; the sliding rail 443 and the sliding seat 444 are additionally arranged, so that the stability of the first connecting plate 441 in sliding is improved; the movable seat 44 is connected with the flanging feeding driving device 3 conveniently and stably. Hem pay-off drive arrangement 3, connecting plate 441 and limiting plate 32 all are located the below of feed bin 2, and two connecting plates 442 set up respectively in the outside of two guide plate 22, carry out make full use of the vacant space of feed bin 2 below and side, mutual interference's problem when still can avoiding hem pay-off driver 31, feed bin 2 and hem material feeding unit 4 to install for the structure of hem feeder is more compact.
Further, the hem feeder is still including setting up two board edge conveyor 6 in the both sides of the discharge gate of feed bin 2, board edge conveyor 6 is located second 45 below of broken piece and communicates with the discharge gate of feed bin 2.
Specifically, the flanging feeding machine further comprises a feeding device 5 arranged on the frame 1, the feeding device 5 is positioned below the material cavity and communicated with a discharge hole of the material cavity, and the two plate edge conveying devices 6 are positioned on two sides of the feeding device 5; the connecting piece 41 is provided with a material leaking hole 61, and a feeding hole of the plate edge conveying device 6 is communicated with a discharging hole of the material cavity through the material leaking hole 61; the bottom end of the first inclined surface 48 inclines towards the direction close to the material leaking hole 61. In the actual use process, after the plate edge 101 of the lamp panel is broken through the flanging feeding device 4, the broken plate edge 101 slides to the plate edge conveying device 6 from the material leaking hole 61, and then is conveyed to a waste collecting position or other stations through the plate edge conveying device 6 to wait for the next operation, and the plate edge conveying device 6 is simple and compact in structure. In addition, the broken plate edge 101 slides into the material leaking hole 61 through the top end of the first inclined surface 48, so that the sliding speed of the plate edge 101 is increased, and the working efficiency of the flanging feeder is improved; meanwhile, the hemmed substrate 100 falls onto the feeding device 5 under the action of gravity, and the feeding device 5 conveys the substrate 100 to a preset position.
Specifically, the plate edge conveying device 6 and the feeding device 5 are obliquely arranged on the rack 1, and included angles between the plate edge conveying device 6 and the rack 1, and included angles between the feeding device 5 and the rack 1 are acute angles. The obliquely arranged plate edge conveying device 6 and the feeding device 5 accelerate the gliding speed of the plate edge 101 and the folded substrate 100, the plate edge 101 slides down in the plate edge conveying device 6 quickly, the substrate 100 slides down in the feeding device 5 quickly, the plate edge 101 and the substrate 100 can be prevented from being accumulated in the plate edge conveying device 6 and the feeding device 5 respectively, and the conveying efficiency of the folding feeder is improved; the conveying of the base plate 100 and the plate edge is realized by utilizing the gravity of the base plate 100 and the plate edge 101, the mechanical movement and the power source of the flanging feeder are further reduced, the action steps of lamp plate conveying are reduced, and the production and installation cost of the flanging feeder is saved.
Further, the flanging feeding machine further comprises a pressing device 7, wherein the pressing device 7 comprises a swing arm seat 72 detachably arranged on the frame 1 or the storage bin 2, a swing arm shaft 73 with one end rotatably connected with the swing arm seat 72, a pressing piece 71 connected with the other end of the swing arm shaft 73 and an elastic piece 74 connected with the swing arm shaft 73 and the swing arm seat 72; the pressing piece 71 can protrude into the bin 2; the pressing piece 71 rotates and is arranged above the broken space and can press the lamp panel in the broken space.
Specifically, the swing arm seat 72 is disposed on the first material guide plate 21; the number of the pressing devices 7 is four, and the four pressing devices 7 are symmetrically arranged along the central axis of the rack 1; the elastic member 74 may be a torsion spring; one end of the pressing piece 71 is connected with the swing arm shaft 73, and the other end of the pressing piece 71 extends into the limiting groove 103 between the two lamp panels at the bottom end through adjusting the position of the swing arm seat 72 on the first material guide plate 21. When a plurality of lamp panels or first breaking parts 43 are added into the material cavity and move out of the bin 2 without supporting the lamp panels, the lamp panels in the bin 2 integrally move downwards under the action of gravity, the lamp panels can be abutted against the pressing parts 71 protruding into the material cavity in the downward movement process and drive the pressing parts 71 and the swing arm shafts 73 to rotate relative to the swing arm seats 72, so that one ends of the pressing parts 71 protruding into the material cavity swing downwards until the pressing parts move out of the material cavity, the elastic parts 74 are compressed and store elastic potential energy, and the movement is stopped until the lamp panels are supported by the second breaking parts 45; the elastic potential energy is released through the elastic piece 74, the swing arm shaft 73 and the pressing piece 71 are driven to reset, the pressing piece 71 swings upwards and protrudes into the material cavity, the pressing piece 71 protrudes into the limiting groove 103 between the two bottommost lamp plates, when the first breaking piece 43 and the second breaking piece 45 are matched for edge folding, the first breaking piece 43 drives the plate edges 101 on the two sides of the bottommost substrate 100 to be broken downwards, the second breaking piece 45 is supported below the bottommost substrate 100, the four pressing pieces 71 are respectively pressed on the top end face of the bottommost substrate 100 in a supporting mode, accordingly the upper side face and the lower side face of the bottommost substrate 100 are pressed, the problem that the middle of the substrate 100 is prone to upwards arching when the bottommost lamp plate is in edge folding can be avoided, and therefore the edge folding efficiency of the lamp plate and the quality of finished products after the lamp plate is folded are improved.
Specifically, a limit column 75 is arranged on the swing arm shaft 73, and when the pressing piece 71 protrudes into the material cavity, the limit column 75 abuts against the first material guide plate 21; will compress tightly 71 jack-up when can avoiding base plate 100 to arch up, lead to compressing tightly 71 and can't push down the problem of the base plate 100 in the hem station, treat the problem of a plurality of lamp plate jack-ups in the hem station with its top, improve the stability when compressing tightly 71 and using.
All the technical features in the embodiment can be freely combined according to actual needs.
The above embodiments are preferred implementations of the present invention, and the present invention can be implemented in other ways without departing from the spirit of the present invention.
Claims (10)
1. The utility model provides an automatic hem feeder which characterized in that: comprises a frame (1), a bin (2) arranged on the frame (1), two flanging feeding devices (4) arranged at two sides of a discharge hole of the bin (2) and a flanging feeding driving device (3) arranged on the frame (1), the flanging feeding driving device (3) is used for driving the two flanging feeding devices (4) to approach or move away from each other, the flanging feeding device (4) comprises a first fracture part (43), a second fracture part (45), a moving seat (44) connected with the output end of the flanging feeding driving device (3) and a flanging driving mechanism (42) arranged on the moving seat (44), the first folding part (43) is connected with the output end of the folding driving mechanism (42), the second breaking part (45) and the connecting part (41) are enclosed into a folded plate space, the first breaking part (43) is arranged corresponding to the folded plate space, the second breaking part (45) is connected with the movable seat (44) through a connecting piece (41); the first breaking part (43) is positioned above the second breaking part (45) and forms an included angle with the second breaking part (45); the first breaking piece (43) can protrude into the storage bin (2); the second breaking piece (45) is positioned below the discharge hole of the storage bin (2).
2. The automatic flanging feeder according to claim 1, wherein: the flanging feeding device (4) further comprises a first inclined surface (48) arranged on the second broken part (45), and the first inclined surface (48) is arranged on one side, close to the first broken part (43), of the second broken part (45); the bottom end of the first inclined surface (48) inclines towards the direction far away from the storage bin (2).
3. The automatic flanging feeder according to claim 1, wherein: the first breaking part (43) comprises a breaking part body, two inclined planes (46) arranged at the top end of the breaking part body and a clamping groove (47) arranged at the bottom end of the breaking part body, and the clamping groove (47) and the two inclined planes (46) are arranged on one side close to the storage bin (2) with the breaking part body.
4. The automatic flanging feeder according to claim 1, wherein: the storage bin (2) comprises a material cavity, and a first two material guide plates (21) and a second two material guide plates (22) which are respectively arranged on the rack (1), wherein the material cavity is formed by enclosing the inner side walls of the first two material guide plates (21) and the inner side walls of the second two material guide plates (22); the second material guide plate (22) is positioned between the moving seat (44) and the first material guide plate (21); the first breaking piece (43) can penetrate through the second material guide plate (22) and protrudes into the material cavity, and the second breaking piece (45) is located below the material cavity.
5. The automatic flanging feeder according to claim 1, wherein: the flanging feeding machine further comprises two plate edge conveying devices (6) arranged on two sides of the discharging port of the storage bin (2), and the plate edge conveying devices (6) are located below the second fracture part (45) and communicated with the discharging port of the storage bin (2).
6. The automatic flanging feeder of claim 5, wherein: the flanging feeding machine also comprises a feeding device (5) arranged on the frame (1), and the feeding device (5) is positioned below the storage bin (2) and communicated with a discharge hole of the storage bin (2); the feeding device (5) is positioned between the two plate edge conveying devices (6).
7. The automatic flanging feeder of claim 5, wherein: the connecting piece (41) is provided with a material leaking hole (61), and a feeding hole of the plate edge conveying device (6) is communicated with a discharging hole of the storage bin (2) through the material leaking hole (61).
8. An automatic hemming feeder according to any one of claims 1 to 7, wherein: the flanging feeding machine further comprises a pressing device (7), and the pressing device (7) is used for pressing or loosening the plates in the storage bin (2).
9. The automatic flanging feeder of claim 8, wherein: the pressing device (7) comprises a swing arm seat (72) arranged on the rack (1) or the storage bin (2), a swing arm shaft (73) with one end rotatably connected with the swing arm seat (72), a pressing piece (71) connected with the other end of the swing arm shaft (73) and an elastic piece (74) connected with the swing arm shaft (73) and the swing arm seat (72); the pressing piece (71) can protrude into the storage bin (2), and the pressing piece (71) is rotatably arranged above the breaking space.
10. The automatic flanging feeder of claim 8, wherein: the flanging feeding driving device (3) comprises a flanging feeding driver (31), a limiting plate (32) connected with the output end of the flanging feeding driver (31) and two movable grooves (33) respectively penetrating through the limiting plate (32), one end of a movable seat (44) is inserted into the movable groove (33) and is in sliding connection with the movable groove (33), and the other end of the movable seat (44) is respectively connected with a connecting piece (41) and a flanging driving mechanism (42); the moving seat (44) is connected to the frame (1) in a sliding manner.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122573335.0U CN216188771U (en) | 2021-10-25 | 2021-10-25 | Automatic hem feeder |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122573335.0U CN216188771U (en) | 2021-10-25 | 2021-10-25 | Automatic hem feeder |
Publications (1)
Publication Number | Publication Date |
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CN216188771U true CN216188771U (en) | 2022-04-05 |
Family
ID=80889062
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202122573335.0U Active CN216188771U (en) | 2021-10-25 | 2021-10-25 | Automatic hem feeder |
Country Status (1)
Country | Link |
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CN (1) | CN216188771U (en) |
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2021
- 2021-10-25 CN CN202122573335.0U patent/CN216188771U/en active Active
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