CN108394749B

CN108394749B - Fluff strip feeding device

Info

Publication number: CN108394749B
Application number: CN201810280670.1A
Authority: CN
Inventors: 何正中
Original assignee: Zhejiang Yidingdian Handicraft Co ltd
Current assignee: Zhejiang Yidingdian Handicraft Co ltd
Priority date: 2018-04-02
Filing date: 2018-04-02
Publication date: 2023-05-30
Anticipated expiration: 2038-04-02
Also published as: CN108394749A

Abstract

The invention discloses a wool top feeding device which comprises a conveying mechanism, a cutting mechanism and a broken line detection mechanism, wherein the wool top circulating feeding device can continuously feed and twist, reduce the volume of the device, stop conveying before the cut wool top is not taken away, prevent the cut wool top from being scattered and piled up, detect whether the wool top is broken, send out a warning signal to remind workers to connect wires when the wool top is broken, prevent a large number of defective products from being processed, and improve the processing efficiency of the wool top.

Description

Fluff strip feeding device

Technical Field

The invention belongs to the technical field of fluff strip processing equipment, and particularly relates to a fluff strip feeding device.

Background

When the wool tops are processed, the strength is increased by twisting the wool tops, the traditional polyester wool tops processing machine is complex in structure and high in failure rate, the feeding device is required to clamp the wool tops to move forwards for feeding when the wool tops are processed, and the wool tops stop moving forwards when the wool tops are retreated, so that the processing efficiency of the wool tops is low, and the transverse moving distance is required to be large when the wool tops are stably sent out for a single time, so that the whole machine is quite large.

The existing slitting device generally pushes a cutter to automatically slit through an air cylinder, and the velvet strips need to be manually taken away by a worker for bundling after being cut off, if the worker does not take away the velvet strips yet, the velvet strips at the front side can be scattered and piled up and are difficult to bundle if the velvet strips at the rear side are continuously conveyed.

A plurality of floss strip coils are arranged on the pay-off rack, finished floss strips are cut into finished floss strips through a cutting device after the floss strips are conveyed by a twisting and conveying device, and because the floss strips are formed by twisting a plurality of floss strips and steel wires, if the situation that the floss strips are broken off is not found timely, a large number of defective floss strips can be produced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the wool strip feeding device, which can continuously feed and twist, reduce the volume of the device, stop conveying before the cut wool strips are not taken away, prevent the cut wool strips from being scattered and piled up, detect whether the wool strips are broken, send out a warning signal to remind workers to connect wires when the wool strips are broken, prevent a large number of defective products from being processed, and improve the processing efficiency of the wool strips.

In order to solve the technical problems, the invention is solved by the following technical scheme: the velvet strip feeding device comprises a conveying mechanism and a cutting mechanism, the conveying mechanism further comprises a broken wire detection mechanism, the conveying mechanism comprises a first screw rod, a second screw rod and a spline shaft, a first sliding platform is arranged on the first screw rod in a matched mode, a first clamping device is arranged on the first sliding platform and comprises a first fixed seat and a first sliding seat, a first rotating shaft with a central hole is arranged on the first fixed seat and the first sliding seat in a rotating mode, a first movable chuck is arranged at one end of the first rotating shaft, a first linear driving device pushing the first sliding seat to move is arranged on the first sliding platform, the first linear driving device controls the position of the first sliding seat to enable the first locking die to be loosened or clamped, and a first synchronous wheel is arranged on the first rotating shaft; the second screw rod is provided with a second sliding platform in a matched mode, the second sliding platform is provided with a second clamping device, the second clamping device comprises a second fixed seat and a second sliding seat, a second rotating shaft with a center hole is rotatably arranged on the second fixed seat and the second sliding seat, one end of the second rotating shaft is provided with a second locking die, the other end of the second rotating shaft is provided with a second movable clamping head, the second sliding platform is provided with a second linear driving device for pushing the second sliding seat to move, the second linear driving device controls the position of the second sliding seat to enable the second locking die to be loosened or clamped, and the second rotating shaft is provided with a second synchronous wheel; the spline shaft is provided with a third synchronizing wheel and a fourth synchronizing wheel, the third synchronizing wheel and the first synchronizing wheel are driven by a first synchronizing belt, and the fourth synchronizing wheel and the second synchronizing wheel are driven by a second synchronizing belt; the cutting mechanism comprises a frame, a positioning block with a line concentration hole is arranged between the frame and the conveying mechanism, a cutter driven by a third linear driver is arranged on the frame, and an infrared detector is arranged on the side surface of the frame along the front side of the cutter in the advancing direction of the velvet strip; the broken line detection mechanism comprises two oppositely arranged plate bodies, a plurality of through holes used for penetrating down strips are oppositely formed in the two plate bodies, a bottom plate is arranged below the through holes between the two plate bodies, an infrared emitter and an infrared receiver are respectively arranged on two sides of the bottom plate, the down strips penetrate through the through holes and are sleeved with detection sleeves, and the infrared receivers are connected with a warning device.

In the above technical solution, preferably, the first screw is driven by a first servo motor, and the second screw is driven by a second servo motor. The control of the screw rod is more convenient through the servo motor.

In the above technical solution, preferably, the spline shaft is driven by a third servo motor. The control of the screw rod is more convenient through the servo motor.

In the above technical scheme, preferably, the first locking die is a first elastic locking flap arranged at the periphery of the central hole and distributed at the end part of the first rotating shaft, the first elastic locking flap is elastically deformed and folded when propping against the first fixing seat, the second locking die is a second elastic locking flap arranged at the periphery of the central hole and distributed at the end part of the second rotating shaft, and the second elastic locking flap is elastically deformed and folded when propping against the second fixing seat. The structure is adopted to control the position of the first sliding seat through the first linear driving device, and the first elastic locking valve is matched with the shaft hole of the first fixing seat to open and close so as to achieve the purposes of loosening and clamping the velvet strip; the second linear driving device is used for controlling the position of the second sliding seat, and the second elastic locking valve is matched with the shaft hole of the second fixing seat to open and close so as to achieve the purposes of loosening and clamping the velvet strip.

In the above technical solution, preferably, the first movable chuck is fixed on the outer side of the first rotating shaft and is rotationally connected with the first sliding seat, and the second movable chuck is fixed on the outer side of the second rotating shaft and is rotationally connected with the second sliding seat.

Compared with the prior art, the invention has the following beneficial effects: the velvet strip circulating feeding device drives the first rotating shaft and the second rotating shaft to rotate through the spline shaft, the first linear driving device controls the position of the first sliding seat to enable the first locking die to be loosened or clamped, and the second linear driving device controls the position of the second sliding seat to enable the second locking die to be loosened or clamped. When in processing, the wool tops pass through the central holes of the first rotating shaft and the second rotating shaft, the first linear driving device controls the position of the first sliding seat to enable the first locking die to be located at the loosening position, and the first sliding platform is controlled by the first screw rod to move reversely towards the running direction of the wool tops; at the moment, the second linear driving device controls the position of the second sliding seat to enable the second locking die to be located at the clamping position, the second sliding platform is controlled by the second screw rod to move towards the running direction of the wool tops, and at the moment, the spline shaft rotates to drive the first rotating shaft and the second rotating shaft to rotate to twist the wool tops; after the first sliding platform returns, the first locking mould clamps the wool tops, the second clamping mould releases the wool tops, the first sliding platform advances with the wool tops, and the second sliding platform returns, and the cycle is performed. And detecting whether the cut down strips are taken away or not through the infrared detector, stopping running if the down strips are not taken away from the conveying mechanism and the cutting mechanism, and continuing running if the down strips are taken away from the conveying mechanism and the cutting mechanism. Through the through hole when the fine hair strip is carried to the cover is equipped with the detection cover on the fine hair strip, when the fine hair strip breaks, detects the cover and can drop because of gravity and block infrared transmitter and make infrared receiver lose infrared signal, then warning device sends warning signal, thereby prevents to process out the substandard product in batches. This kind of fine hair strip circulation material feeding unit can last pay-off twisting, reduces the device volume, can stop carrying before the fine hair strip of being cut off is not taken away, prevents that the fine hair strip of cutting off from scattering and piling up, can detect the condition that whether the fine hair strip appears breaking off, sends warning signal and reminds the workman wiring when the fine hair strip breaks off, prevents to process out a large amount of substandard products, improves the machining efficiency of fine hair strip.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Description of the embodiments

The invention is described in further detail below with reference to the attached drawings and detailed description: referring to fig. 1, the fluff strip feeding device comprises a conveying mechanism a and a cutting mechanism b, the feeding device further comprises a broken wire detecting mechanism c, the conveying mechanism a comprises a first screw rod 1, a second screw rod 2 and a spline shaft 3, a first sliding platform 4 is arranged on the first screw rod 1 in a matching way, a first clamping device 41 is arranged on the first sliding platform 4, the first clamping device 41 comprises a first fixing seat 42 and a first sliding seat 43, a first rotating shaft 44 with a central hole is rotatably arranged on the first fixing seat 42 and the first sliding seat 43, a first movable clamping head 46 is arranged at one end of the first rotating shaft 44, a first locking die 45 is arranged at the other end of the first rotating shaft 46, a first linear driving device 47 for pushing the first sliding seat 43 to move is arranged on the first sliding platform 4, the first linear driving device 47 controls the position of the first sliding seat 43 to enable the first locking die 45 to be loosened or clamped, and a first synchronous wheel 48 is arranged on the first rotating shaft 44; the second screw rod 2 is provided with a second sliding platform 5 in a matching way, the second sliding platform 5 is provided with a second clamping device 51, the second clamping device 51 comprises a second fixed seat 52 and a second sliding seat 53, a second rotating shaft 54 with a central hole is rotatably arranged on the second fixed seat 52 and the second sliding seat 53, one end of the second rotating shaft 54 is provided with a second locking die 55, the other end of the second rotating shaft is provided with a second movable clamping head 56, the second sliding platform 5 is provided with a second linear driving device 57 for pushing the second sliding seat 53 to move, the second linear driving device 57 controls the position of the second sliding seat 53 to enable the second locking die 55 to be loosened or clamped, and the second rotating shaft 54 is provided with a second synchronous wheel 58; the spline shaft 3 is provided with a third synchronizing wheel 31 and a fourth synchronizing wheel 32, the third synchronizing wheel 31 and the first synchronizing wheel 48 are driven by a first synchronizing belt 33, and the fourth synchronizing wheel 32 and the second synchronizing wheel 58 are driven by a second synchronizing belt 34; the cutting mechanism b comprises a frame 71, a positioning block 73 with a line concentration hole 72 is arranged between the frame 71 and the conveying mechanism a, a cutter 75 driven by a third linear driver 74 is arranged on the frame 71, and an infrared detector 76 is arranged on the side surface of the frame 71 along the front side of the cutter 75 in the advancing direction of the wool strip; the broken line detection mechanism c comprises two oppositely arranged plate bodies 81, a plurality of through holes 83 for penetrating down strips 82 are oppositely formed in the two plate bodies 81, a bottom plate 84 is arranged between the two plate bodies 81 and below the through holes 83, an infrared emitter 85 and an infrared receiver are respectively arranged on two sides of the bottom plate 84, the down strips 82 penetrate through the through holes 83 and are sleeved with detection sleeves 86 on the down strips 82, and the infrared receiver is connected with a warning device 87.

The first screw 1 is driven by a first servo motor 61, and the second screw 2 is driven by a second servo motor 62.

The spline shaft 3 is driven by a third servomotor 63.

The first locking mold 45 is a first elastic locking flap 451 disposed at the end of the first rotating shaft 44 and disposed around the central hole in an inclined manner, the first elastic locking flap 451 is elastically deformed and folded when abutting against the first fixing seat 42, the second locking mold 55 is a second elastic locking flap 551 disposed at the end of the second rotating shaft 54 and disposed around the central hole in an inclined manner, and the second elastic locking flap 551 is elastically deformed and folded when abutting against the second fixing seat 52.

The first movable chuck 46 is fixed on the outer side of the first rotating shaft 44 and is rotatably connected with the first sliding seat 43, and the second movable chuck 56 is fixed on the outer side of the second rotating shaft 54 and is rotatably connected with the second sliding seat 53.

The bottom plate 84 is inclined towards one side, and the infrared emitter 85 and the infrared receiver are respectively arranged on two sides of the lowest part of the bottom plate 84.

The present embodiment includes a control device for controlling the operation of each operation member.

The velvet strip circulating feeding device drives the first rotating shaft and the second rotating shaft to rotate through the spline shaft, the first linear driving device controls the position of the first sliding seat to enable the first locking die to be loosened or clamped, and the second linear driving device controls the position of the second sliding seat to enable the second locking die to be loosened or clamped. When in processing, the wool tops pass through the central holes of the first rotating shaft and the second rotating shaft, the first linear driving device controls the position of the first sliding seat to enable the first locking die to be located at the loosening position, and the first sliding platform is controlled by the first screw rod to move reversely towards the running direction of the wool tops; at the moment, the second linear driving device controls the position of the second sliding seat to enable the second locking die to be located at the clamping position, the second sliding platform is controlled by the second screw rod to move towards the running direction of the wool tops, and at the moment, the spline shaft rotates to drive the first rotating shaft and the second rotating shaft to rotate to twist the wool tops; after the first sliding platform returns, the first locking mould clamps the wool tops, the second clamping mould releases the wool tops, the first sliding platform advances with the wool tops, and the second sliding platform returns, and the cycle is performed. And detecting whether the cut down strips are taken away or not through the infrared detector, stopping running if the down strips are not taken away from the conveying mechanism and the cutting mechanism, and continuing running if the down strips are taken away from the conveying mechanism and the cutting mechanism. Through the through hole when the fine hair strip is carried to the cover is equipped with the detection cover on the fine hair strip, when the fine hair strip breaks, detects the cover and can drop because of gravity and block infrared transmitter and make infrared receiver lose infrared signal, then warning device sends warning signal, thereby prevents to process out the substandard product in batches. This kind of fine hair strip circulation material feeding unit can last pay-off twisting, reduces the device volume, can stop carrying before the fine hair strip of being cut off is not taken away, prevents that the fine hair strip of cutting off from scattering and piling up, can detect the condition that whether the fine hair strip appears breaking off, sends warning signal and reminds the workman wiring when the fine hair strip breaks off, prevents to process out a large amount of substandard products, improves the machining efficiency of fine hair strip.

Claims

1. The fluff strip feeding device comprises a conveying mechanism (a) and a cutting mechanism (b), and is characterized in that: the feeding device further comprises a wire breakage detection mechanism (c), the conveying mechanism (a) comprises a first screw rod (1), a second screw rod (2) and a spline shaft (3), a first sliding platform (4) is arranged on the first screw rod (1) in a matched mode, a first clamping device (41) is arranged on the first sliding platform (4), the first clamping device (41) comprises a first fixing seat (42) and a first sliding seat (43), a first rotating shaft (44) with a central hole is arranged on the first fixing seat (42) and the first sliding seat (43) in a rotating mode, a first movable chuck (46) is arranged at one end of the first rotating shaft (44), a first linear driving device (47) pushing the first sliding seat (43) to move is arranged on the first sliding platform (4), the first linear driving device (47) controls the position of the first sliding seat (43) to enable the first locking die (45) to be loosened or clamped, and a first rotating shaft (48) is arranged on the first rotating shaft (44); the second screw rod (2) is provided with a second sliding platform (5) in a matched mode, the second sliding platform (5) is provided with a second clamping device (51), the second clamping device (51) comprises a second fixing seat (52) and a second sliding seat (53), a second rotating shaft (54) with a central hole is rotatably arranged on the second fixing seat (52) and the second sliding seat (53), one end of the second rotating shaft (54) is provided with a second locking die (55), the other end of the second rotating shaft is provided with a second movable clamping head (56), the second sliding platform (5) is provided with a second linear driving device (57) for pushing the second sliding seat (53) to move, the second linear driving device (57) controls the position of the second sliding seat (53) to enable the second locking die (55) to be loosened or clamped, and the second rotating shaft (54) is provided with a second synchronous wheel (58); a third synchronizing wheel (31) and a fourth synchronizing wheel (32) are arranged on the spline shaft (3), the third synchronizing wheel (31) and the first synchronizing wheel (48) are driven by a first synchronizing belt (33), and the fourth synchronizing wheel (32) and the second synchronizing wheel (58) are driven by a second synchronizing belt (34); the cutting mechanism (b) comprises a frame (71), a positioning block (73) with a line concentration hole (72) is arranged between the frame (71) and the conveying mechanism (a), a cutter (75) driven by a third linear driver (74) is arranged on the frame (71), and an infrared detector (76) is arranged on the side surface of the frame (71) along the front side of the cutter (75) in the advancing direction of the wool strip; the broken line detection mechanism (c) comprises two oppositely arranged plate bodies (81), a plurality of through holes (83) used for penetrating down strips (82) are oppositely arranged on the two plate bodies (81), a bottom plate (84) is arranged below the through holes (83) between the two plate bodies (81), an infrared emitter (85) and an infrared receiver are respectively arranged on two sides of the bottom plate (84), the down strips (82) penetrate through the through holes (83) and are sleeved with a detection sleeve (86), the infrared receiver is connected with a warning device (87), the first locking die (45) is a first elastic locking flap (451) which is arranged at the end part of a first rotating shaft (44) and is obliquely arranged around the central hole, the first elastic locking flap (451) is elastically deformed and folded when being abutted against the first fixed seat (42), the second locking die (55) is a second elastic locking flap (551) which is arranged at the end part of a second rotating shaft (54) and is obliquely arranged around the central hole, the second elastic locking flap (551) is fixedly arranged on the second rotating seat (46) and is elastically deformed when being abutted against the first fixed seat (46), the second movable chuck (56) is fixed on the outer side of the second rotating shaft (54) and is rotationally connected with the second sliding seat (53), the bottom plate (84) inclines towards one side, and the infrared emitter (85) and the infrared receiver are respectively arranged on two sides of the lowest part of the bottom plate (84).

2. The lint feeding apparatus of claim 1, wherein: the first screw rod (1) is driven by a first servo motor (61), and the second screw rod (2) is driven by a second servo motor (62).

3. The lint feeding apparatus of claim 1, wherein: the spline shaft (3) is driven by a third servo motor (63).