CN212884758U - Feeding structure of angle needle punch forming device - Google Patents
Feeding structure of angle needle punch forming device Download PDFInfo
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- CN212884758U CN212884758U CN202021462268.4U CN202021462268U CN212884758U CN 212884758 U CN212884758 U CN 212884758U CN 202021462268 U CN202021462268 U CN 202021462268U CN 212884758 U CN212884758 U CN 212884758U
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- needle
- feeding
- angle
- punching
- conveying belt
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Abstract
The utility model discloses a feed structure of angle needle stamping forming device, characterized by: comprises a storage bin and a feeding mechanism; a needle outlet is formed in the bottom wall of the storage bin; the feeding mechanism comprises a feeding frame, a conveying belt and a feeding driving wheel; the feeding frame is provided with a feeding position and a punching position, the feeding position corresponds to the needle outlet and allows the linear angle needle in the needle outlet to fall into the feeding frame; the conveying belt circulates through the feeding frame in a one-way mode and conveys the linear angle needles falling into the feeding frame to the punching position; the feeding driving wheel is connected with the conveying belt and drives the conveying belt to drive. The utility model discloses can promote the stability that sharp angle needle transported to promote the quality and the efficiency of sharp angle needle punching press.
Description
Technical Field
The utility model relates to a feed structure of angle needle stamping forming device.
Background
With the development of society and the high-speed development of clothes, corresponding textile needles are widely applied, and particularly angle needles are widely applied in the daily textile process.
Fig. 8 is a schematic structural diagram of an angle needle in the prior art, which is produced by stamping with a stamping device, where the current stamping device includes a first stamping mechanism, a second stamping mechanism, and a conveying and positioning device. During punching, the straight line angle needles are conveyed and positioned on the conveying and positioning device, the first punching mechanism is used for punching the straight line angle needles into a U-shaped structure, and then the second punching mechanism punches angles at two ends of the U-shaped angle needles on the conveying and positioning device. The conveying and positioning device in the prior art is poor in stability, and the stamping quality of the stamping mechanism is influenced, so that the stamping efficiency is improved.
SUMMERY OF THE UTILITY MODEL
Not enough to prior art, the utility model provides a feed structure of angle needle stamping forming device can promote the stability that sharp angle needle transported to promote the quality and the efficiency of sharp angle needle punching press.
In order to achieve the above purpose, the utility model provides a following technical scheme:
the utility model provides a feed structure of angle needle stamping forming device, characterized by: comprises a storage bin and a feeding mechanism;
a needle outlet is formed in the bottom wall of the storage bin;
the feeding mechanism comprises a feeding frame, a conveying belt and a feeding driving wheel; the feeding frame is provided with a feeding position and a punching position, the feeding position corresponds to the needle outlet and allows the linear angle needle in the needle outlet to fall into the feeding frame; the conveying belt circulates through the feeding frame in a one-way mode and conveys the linear angle needles falling into the feeding frame to the punching position; the feeding driving wheel is connected with the conveying belt and drives the conveying belt to drive.
Preferably, the bottom of feed bin has the play needle passageway that extends from top to bottom, it is the under shed of the passageway of going out the needle to go out the needle mouth to and the bottom of feed bin is the slope setting.
Preferably, an opening is formed in the side wall of the needle outlet channel, and a transmission belt for driving the linear angle needle to move downwards is arranged at the opening.
Preferably, the feeding frame comprises two parallel and separately arranged guide rails, and guide chutes for erecting two ends of the linear angle needle are formed in opposite side walls of the two guide rails; the conveying belts are two, the upper side belt body of each conveying belt is respectively matched in the two material guide grooves, and each conveying belt is provided with a positioning groove for the end part of the straight line angle needle to enter.
Preferably, the positioning groove has a trapezoidal structure.
The utility model has the advantages that: the pay-off frame is as the support of pay-off in-process, and the conveyer belt is used for transporting the sharp angle needle that supports on the pay-off frame to showing the stability that promotes the angle needle and transport and support, with the quality and the efficiency of promotion punching press.
Drawings
Fig. 1 is a schematic view of an angle pin punch forming device provided in this embodiment;
fig. 2 is a schematic diagram of a storage bin provided in this embodiment;
fig. 3 is a schematic view of a material guide rail and a first punching block punching straight angle pin provided in this embodiment;
FIG. 4 is a top view of the conveyor belt and the straight angled needles of this embodiment shown in engagement with the conveyor belt for transport;
fig. 5 is a schematic view of a punching mechanism provided in the present embodiment;
fig. 6 is a schematic view of a first punch block provided in the present embodiment;
fig. 7 is a schematic view of a second punch block provided in the present embodiment;
fig. 8 is a schematic view of a finished angle pin provided in this embodiment.
Detailed Description
The feeding structure of the angle pin punch forming device of the present invention will be further described with reference to fig. 1 to 8.
The utility model provides an angle needle stamping forming device which characterized by: comprises a workbench 1, a bin 3, a feeding mechanism 5, a stamping mechanism 6 and a stamping transmission mechanism 2.
The bottom wall of the storage bin 3 is provided with a needle outlet passage 32, and the lower opening of the needle outlet passage 32 is a needle outlet 321. The feeding mechanism 5 is positioned at the lower side of the storage bin 3 and comprises a feeding frame 4, a conveying belt 52 and a driving wheel 51; the feeding frame 4 is arranged on the workbench through a bracket, and the feeding frame is provided with a feeding position and a punching position 43, wherein the feeding position is provided with a feeding hole 42, the feeding hole 42 corresponds to the needle outlet 321, and the linear angle needle 8 in the needle outlet falls into the feeding frame 4; the conveyor belt 52 circulates through the feeding frame 4 in a single direction and conveys the straight angle needles 8 falling into the feeding frame 4 to the punching position 43; the two feeding driving wheels 51 are installed on the upright post 11 of the workbench 1 and connected with a driving motor (not shown in the figures), and the two feeding driving wheels 51 are used for the belt 52 to wind so as to drive the belt 52 to rotate in one direction. The punching mechanism 6 is provided with a plurality of punching mechanisms (only one is marked in the figures) and each punching mechanism comprises a first punching block 61, a second punching block 62, a guide block 7 and an elastic resetting piece (not marked in the figures); the first stamping block 61 is connected to the stamping transmission mechanism 2, is driven by the stamping transmission mechanism 2 to unidirectionally circulate from top to bottom through the stamping position 43, and presses the straight angle needle 8 on the stamping position 43 out of the stamping position 43 and simultaneously stamps the straight angle needle 8 into a U-shaped angle needle 10; the second punch block 62 is horizontally slidably fitted on the first punch block 61 and has punch rods 622 horizontally corresponding to both ends of the U-angle pin 10; the guide block 7 is arranged below the feeding frame 4 and is positioned on the movement line of the first stamping block 61, and can drive the second stamping block 62 to stamp the end part of the U-shaped angle needle 10 to form a finished angle needle 9; the elastic reset piece is a spring, and the spring is arranged between the first stamping block 61 and the second stamping block 62, and drives the second stamping block 62 to reset and eject the finished angle needle.
Based on the structure, during specific work, the straight angle needles 8 in the stock bin 3 enter the material feeding frame 4 through the needle outlet channel 32, and then the conveyor belt 52 drives the straight angle needles 8 to horizontally move to the punching position 43; when the straight angle needle 8 moves to the punching position 43, the punching transmission mechanism 2 drives the punching mechanism 6 to pass through the punching position 43 from top to bottom, so that the bottom wall of the first punching block 61 punches the middle part 81 of the straight angle needle 8, during punching, two ends of the straight angle needle 8 are supported on the feeding frame 4, and the middle part is in a suspended state, so that the first punching block 61 presses the middle part of the straight angle needle 8 to move downwards, two ends of the straight angle needle 8 can simultaneously tilt upwards and adhere to two side walls of the first punching block 61, and then the straight angle needle 8 is quickly separated from the feeding frame 4; after the two ends of the linear angle needle 8 are separated from the support of the feeding frame 4, the guide block 7 is contacted with the second punching block 62 to drive the second punching block 62 to press the two end pins of the U-shaped angle needle 10, so that the end pins form an angle, namely, punching is finished; after the second punching block 62 passes through the guide block 7, the second punching block 62 is reset under the action of the spring, and the end part of the finished angle needle 9 is pushed to synchronously move with the resetting direction of the second punching block 62 during resetting, so that the finished angle needle is separated from the first punching block 61, and the unloading effect is achieved. In the process, the angle needle is punched in a unidirectional and continuous mode, the middle of the angle needle does not stop and does not move reversely, so that the punching efficiency is obviously improved, and meanwhile, the abrasion degree among all parts is obviously reduced, so that the service life is prolonged; on the other hand, the punching mechanism has a plurality of and evenly distributed on the punching transmission mechanism, the straight line angle needle is also conveyed to the punching position in succession to and every punching mechanism all can be with straight line angle needle punching off the punching position when punching, consequently can not influence the punching press of follow-up punching mechanism to the straight line angle needle on the punching station, consequently further promotes the efficiency of punching press.
As shown in fig. 2, in order to facilitate the straight angle needle 8 in the bin 3 to enter the needle outlet channel 32, the bottom of the bin 3 is inclined 31, that is, the feeding end of the needle outlet channel 32 is at the lowest position on the inner bottom wall of the bin 3, so that the straight angle needle 8 in the bin 3 can automatically roll into the needle outlet channel 32.
The needle outlet channel 32 is located on the side of the magazine 3, and the side wall of the magazine 3 corresponding to the needle outlet channel 32 is provided with an opening 34, the width of the opening is smaller than the length of the straight angle needle 8, so that the blanking of the straight angle needle 8 in the needle outlet channel 32 is not affected. The opening part is provided with drive belt 33 that drives sharp angle needle 8 and remove downwards, and drive belt is around establishing on two running rollers, and one of them running roller is the initiative and rotates to through a belt and the same driving motor of drive wheel sharing, drive belt laminates on the sharp angle needle 8 in the needle passageway 32 of play simultaneously towards one side of sharp angle needle 8, in order to drive the sharp angle needle 8 that goes out in the needle passageway 32 and remove downwards, in order to reach stable play needle effect.
As shown in fig. 1, 3 and 4, the feeding frame 4 includes two parallel and separated guide rails 44, and guide chutes 441 for erecting two ends of the straight angle needle 8 are opened on opposite side walls of the two guide rails 44; the conveyor belts 52 have two belts, the upper belts 5211 of each conveyor belt 52 are respectively fitted into the two guide grooves 441, and each conveyor belt 52 has a positioning groove 521 for the end of the straight angle needle 8 to enter. When the belt body 5211 of the belt body 52 in the material guiding chute is driven, and when the positioning groove 521 on the belt body 5211 moves to a position right below the needle outlet, the straight angle needle 8 in the needle outlet enters the positioning groove 521, i.e. the material guiding chute, under the action of the self weight and the driving belt 33, and then moves along with the belt 52 in the material guiding chute. It should be noted that when the positioning groove 521 does not correspond to the needle outlet, the surface of the conveyor belt 52 will be attached to the needle outlet, so that the straight angle needle will not enter the material guiding groove and only stay in the material feeding hole 42. Under this structure, can show the stability that promotes the conveying of straight line angle needle 8.
The positioning groove 521 is of a trapezoidal structure. This structure can be convenient for sharp angle needle 8 enters into constant head tank 521 in, avoids taking place the dead problem of card, promotes the stability of whole device operation.
As shown in fig. 5, 6 and 7, the first punch 61 has a limiting groove 611 on the bottom surface thereof for engaging with the bottom wall of the U-angle pin 10, a limiting step 612 on the side wall thereof for abutting against the two side walls of the U-angle pin 10, and the second punch 62 is located on the front surface of the step surface of the limiting step 612 in the natural state. When first punching press piece 61 punching press sharp angle needle 8's middle part, spacing groove 611 block is punched straight angle needle 8 on sharp angle needle 8's middle part, and spacing groove 611 can play limiting displacement to the angle needle of punching press in-process, avoids the problem that the angle needle takes place the skew. When the second punching block 62 punches the end portion of the U-shaped angle pin 10, both side walls of the U-shaped angle pin 10 can be supported on the limit step 612, thereby realizing angle punching.
In order to improve the stability of the U-angle pin 10 on the first punch block 61, a magnet 613 for attracting the U-angle pin 10 is disposed on the step surface of the limit step 612. The magnet 613 can attract the side wall of the U-shaped angle pin 10, and prevent the end of the U-shaped angle pin 10 from being separated from the first punch block 61 without punching.
The second punching block 62 is provided with a sliding rod 621, a punching rod 622 and a discharging rod 623; the slide bar 621 is a sliding fit within the slide 614 of the first punch block 61. The punching rods 622 are of two L-shaped structures, and are respectively formed on two sides of the sliding rod 621 for punching two ends of the U-shaped angle needle 10, and the punching head of the punching rod 622 is arranged in an inclined 6221 manner. The discharging rods 623 have two L-shaped structures and are respectively formed at both sides of the sliding rod 621 to drive the finished angle pins to be separated from the first punch block 61 when the second punch block 62 is reset. The spring is sleeved on the sliding rod 621, and one end of the spring abuts against the front end wall of the sliding rail 614, and the other end abuts against the punching rod 622. Specifically, when the second punching press piece 62 punches the end of the U-shaped angle needle 10, the guide block 7 drives the second punching press piece 62 to move towards the end of the U-shaped angle needle 10, the end of the U-shaped angle needle is punched towards one side of the discharging rod 623 through the punching rod 622, after the punching is completed, the spring drives the second punching press piece 62 to reset, the end of the discharging rod 623 can push the end of the punched and bent U-shaped angle needle 10 to move towards the punching rod 622 during the resetting, so that the bent end of the U-shaped angle needle is separated from the top wall of the limit step 612, the side wall of the U-shaped angle needle 10 is separated from the step surface of the limit step 612 and the magnet 613, the finished angle needle can automatically drop, and the discharging effect is achieved.
As shown in fig. 1 and 6, the guiding structure of the second punch block 62 and the guide block 7 is: the end of the slide bar 621 has a first guide surface 6211, and the guide block 7 has a second guide surface 71 engaged with the first guide surface 6211.
The punching transmission mechanism 2 comprises a punching transmission belt 22 and punching transmission wheels 21, a first punching block 61 in each punching mechanism 6 is connected to the punching transmission belt 22 through a connecting block 614 and a corresponding bolt, and the punching transmission wheels 21 are used for the punching transmission belt 22 to wind and drive the punching mechanisms 6 to move. When the stamping mechanisms are connected on the stamping transmission belt, the distance between every two adjacent stamping mechanisms is equal.
Unless otherwise specified, in the present invention, if the terms "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential" and the like indicate an orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, rather than to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, therefore, the terms describing orientation or positional relationship in the present invention are used for illustrative purposes only, and should not be construed as limiting the present patent, specific meanings of the above terms can be understood by those of ordinary skill in the art in light of the specific circumstances in conjunction with the accompanying drawings.
Unless expressly stated or limited otherwise, the terms "disposed," "connected," and "connected" are used broadly and encompass both fixed and removable connections, or integral connections; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.
Claims (5)
1. The utility model provides a feed structure of angle needle stamping forming device, characterized by: comprises a storage bin and a feeding mechanism;
a needle outlet is formed in the bottom wall of the storage bin;
the feeding mechanism comprises a feeding frame, a conveying belt and a feeding driving wheel; the feeding frame is provided with a feeding position and a punching position, the feeding position corresponds to the needle outlet and allows the linear angle needle in the needle outlet to fall into the feeding frame; the conveying belt circulates through the feeding frame in a one-way mode and conveys the linear angle needles falling into the feeding frame to the punching position; the feeding driving wheel is connected with the conveying belt and drives the conveying belt to drive.
2. The feeding structure of the angle pin punch forming apparatus according to claim 1, wherein: the bottom of feed bin has the play needle passageway that extends from top to bottom, the needle outlet is the under shed of a needle passageway to and the bottom of feed bin is the slope setting.
3. The feeding structure of the angle pin punch forming apparatus according to claim 2, wherein: an opening is formed in the side wall of the needle outlet channel, and a transmission belt for driving the linear angle needle to move downwards is arranged at the opening.
4. The feeding structure of the angle pin punch forming apparatus according to claim 1, wherein: the feeding frame comprises two parallel and separately arranged guide rails, and guide chutes for erecting two ends of the linear angle needle are formed in opposite side walls of the two guide rails; the conveying belts are two, the upper side belt body of each conveying belt is respectively matched in the two material guide grooves, and each conveying belt is provided with a positioning groove for the end part of the straight line angle needle to enter.
5. The feeding structure of the angle pin punch forming apparatus according to claim 4, wherein: the positioning groove is of a trapezoidal structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021462268.4U CN212884758U (en) | 2020-07-22 | 2020-07-22 | Feeding structure of angle needle punch forming device |
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CN202021462268.4U CN212884758U (en) | 2020-07-22 | 2020-07-22 | Feeding structure of angle needle punch forming device |
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CN212884758U true CN212884758U (en) | 2021-04-06 |
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CN202021462268.4U Active CN212884758U (en) | 2020-07-22 | 2020-07-22 | Feeding structure of angle needle punch forming device |
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- 2020-07-22 CN CN202021462268.4U patent/CN212884758U/en active Active
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