CN217703523U - Full-automatic feeding and discharging adhesive tape slitting machine - Google Patents

Full-automatic feeding and discharging adhesive tape slitting machine Download PDF

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Publication number
CN217703523U
CN217703523U CN202221975624.1U CN202221975624U CN217703523U CN 217703523 U CN217703523 U CN 217703523U CN 202221975624 U CN202221975624 U CN 202221975624U CN 217703523 U CN217703523 U CN 217703523U
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CN
China
Prior art keywords
adhesive tape
tape core
half body
full
slitting machine
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CN202221975624.1U
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Chinese (zh)
Inventor
傅光森
梁文晖
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Ningbo Haishu Taigang Precision Machinery Co ltd
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Ningbo Haishu Taigang Precision Machinery Co ltd
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Abstract

The utility model provides a full-automatic unloading sticky tape divides strip machine of going up, which comprises a frame, be provided with the positioning tube that is used for the push-and-pull rod of centre gripping coiling axle tip and is used for placing the sticky tape core section of thick bamboo in the frame, the removal route of push-and-pull rod passes the lumen of positioning tube along the axial, a plurality of stock guides that are used for putting into the sticky tape core section of thick bamboo are offered to the week of positioning tube, be provided with a plurality of annular positioning groove that are used for placing the sticky tape core section of thick bamboo on the inner tube wall of positioning tube. The positioning tube is arranged to place the adhesive tape core cylinder, the groove wall of the annular positioning groove can limit the axial direction of the adhesive tape core cylinder, the adhesive tape core cylinder which is positioned in the annular positioning groove when the push-pull rod drives the winding shaft to penetrate through the positioning tube can be sleeved on the winding shaft at the original position, the annular positioning groove is uniformly arranged at intervals, and the adhesive tape core cylinder which is sleeved and finished can be uniformly arranged on the winding shaft at intervals.

Description

Full-automatic feeding and discharging adhesive tape slitting machine
Technical Field
The utility model relates to a sticky tape manufacturing field especially relates to a full-automatic unloading sticky tape of going up divides strip machine.
Background
The adhesive tape is usually cut into several strips by a huge wide adhesive tape and wound on a tape core cylinder to form a narrow adhesive tape, and the process is usually completed by a tape slitting machine.
The working principle of the adhesive tape slitting machine is shown in figure 1, and the adhesive tape slitting machine comprises a main adhesive tape roller 2, an adhesive tape 3 on the main adhesive tape roller 2 reaches a cutter 4 through a plurality of reversing rollers and a labeling device, the cutter 4 divides the adhesive tape 3 into a plurality of narrow adhesive tapes 3, then the narrow adhesive tapes 3 are staggered into two winding paths and an adhesive tape waste recycling path, the adhesive tapes 3 in the two winding paths reach a winding shaft 1 through an embossing process, an adhesive tape core barrel is sleeved on the winding shaft 1, and the adhesive tape is wound on the adhesive tape core barrel to form a finished adhesive tape. The both ends setting of coiling axle 1 is on can pivoted rim plate, generally be provided with two coiling axles 1 on a rim plate, and realize two coiling axles 1 through rotating in the work position with get the switching of putting the position, the coiling axle 1 that is located to get to put the position need take off it then with coiling axle 1 and finished product sticky tape separation, then sheathe the sticky tape core section of thick bamboo on coiling axle 1 again, again with the cover have the coiling axle 1 of sticky tape core section of thick bamboo place again and get the position, then the rim plate rotates and delivers coiling axle 1 to the work position and carries out the roll-up of sticky tape 3. And the operation of taking the winding shaft 1 from the taking and placing position and then placing the winding shaft is completed by the transfer mechanism.
However, when the tape cartridge is rewound on the winding shaft 1, it is necessary to ensure that the cartridges are equally spaced on the winding shaft 1, so that the winding shaft 1 can stably wind the tape.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a full-automatic unloading sticky tape of going up divides strip machine, it can be at the epaxial equidistant spacer sleeve of coiling and establish sticky tape core section of thick bamboo.
In order to achieve the technical purpose, the utility model adopts the following technical scheme:
the utility model provides a full-automatic unloading sticky tape divides strip machine of going up, includes the sticky tape core section of thick bamboo sequencing unit that divides strip machine main part and feed to the strip machine main part, sticky tape core section of thick bamboo sequencing unit includes the frame, be provided with the support that is used for placing the coiling axle and put the station, the push-and-pull rod that is used for the centre gripping coiling axle tip and the registration arm that is used for placing sticky tape core section of thick bamboo in the frame, the moving path of push-and-pull rod passes the lumen of registration arm along the axial, seted up a plurality of guide openings that are used for putting into sticky tape core section of thick bamboo in the circumference of registration arm, be provided with a plurality of annular constant head tank that are used for placing sticky tape core section of thick bamboo on the inner tube wall of registration arm, annular constant head tank external diameter size and width size are the same with sticky tape core section of thick bamboo external diameter size and width size, annular constant head tank evenly spaced arrangement in the core section of thick bamboo direction of thick bamboo, guide opening and annular constant head tank intercommunication and one-to-on-one, the registration arm includes semi-tubular first halfpipe and second halfbody, first halfbody and second halfbody link with the actuating mechanism that orders about both to separate respectively.
Set up the registration arm in the above-mentioned scheme and place a sticky tape core section of thick bamboo, the cell wall of annular positioning groove just can carry on spacingly to the axial of sticky tape core section of thick bamboo, and the sticky tape core section of thick bamboo that lies in annular positioning groove just can overlap in the original position when push-and-pull rod drives the coiling axle and passes the registration arm just like this and establish in the coiling axle, and annular positioning groove itself is even interval arrangement, and the sticky tape core section of thick bamboo of accomplishing of establishing like this also can be even interval arrangement on the coiling axle.
Preferably, the first half body is arranged above the second half body, the driving mechanism comprises a swing arm connected with two ends of the tube wall of the first half body and a lifting platform connected with the lower part of the tube wall of the second half body, a rotating shaft core of the swing arm is parallel to the direction of a tube center of the positioning tube, and the swing arm and the lifting platform are driven by a hydraulic cylinder or an air cylinder.
Preferably, the material guide opening is arranged on the second half body.
Preferably, the material guide port is connected with a material guide groove used for conveying the adhesive tape core barrel, the material guide groove is obliquely arranged, the lower end of the material guide groove is connected with the material guide port, and the upper end of the material guide groove is connected with a material arranging hopper used for adjusting the adhesive tape core barrel to be in a rolling posture.
Preferably, the lower end of the guide chute is provided with a plurality of material blocking deflector rods for blocking the adhesive tape core barrel, and the material blocking deflector rods are connected with a driving shaft for driving the material blocking deflector rods to swing.
Preferably, a cover plate is arranged above the material guide groove, and an observation port is formed in the position, corresponding to the lower end of the material guide groove, of the cover plate.
Preferably, a plurality of material stirring sheets are uniformly arranged in the whole hopper at intervals, the distance between every two adjacent material stirring sheets is the same as the width of the adhesive tape core cylinder, the bottom of the whole hopper is obliquely arranged, a feed opening is formed in the whole hopper below the material stirring sheets, the width of the feed opening is the same as the width of the adhesive tape core cylinder, and the height of the feed opening is larger than the diameter of the adhesive tape core cylinder.
Preferably, the device further comprises a conveying belt which is obliquely arranged, the upper end of the conveying belt is provided with a discharge opening, the discharge opening is positioned right above the material arranging hopper, the lower end of the conveying belt is provided with a storage hopper, and the conveying direction of the conveying belt is from the storage hopper to the material arranging hopper.
As preferred, divide strip quick-witted main part including rotating a plurality of rim plates that set up in the frame, the rim plate is arranged at the both sides mirror symmetry of frame, and the regional constitution between a set of rim plate of symmetry is placed and is got the district of putting of coiling axle, be provided with a wobbling arm in the frame, the free end of arm is connected with the horizontal pole, horizontal pole length direction is parallel with coiling axle center direction and the position of being connected of horizontal pole and arm is located the middle part, the both ends of horizontal pole are provided with the jack catch that is used for snatching coiling axle both ends, the removal route of jack catch with get and put the district coincidence, be provided with the support that is used for placing the coiling axle on the removal route of jack catch and put the station.
Drawings
FIG. 1 is a schematic diagram of the adhesive tape slitting machine;
FIG. 2 is a schematic structural view of the present invention;
FIG. 3 is a schematic view of a tape cartridge device with a crimped sleeve;
FIG. 4 is a schematic view of the construction of the spool transfer device;
FIG. 5 is an enlarged view of portion A of FIG. 4;
FIG. 6 is a schematic illustration of a monolith hopper position;
FIG. 7 is a schematic view of the material guiding chute structure;
FIG. 8 is a schematic view of a positioning tube structure;
FIG. 9 is a schematic view of the second half;
FIG. 10 is a schematic view of a robotic arm configuration;
description of reference numerals: 1. a take-up reel; 2. a main adhesive tape roll; 3. an adhesive tape; 4. a cutter; 10. a frame; 11. a wheel disc; 12. a pick-and-place area; 20. a support station; 21. a carrier roller; 22. a push-pull rod; 23. a striker plate; 30. a mechanical arm; 31. a cross bar; 32. a base; 33. a middle arm; 34. a claw; 35. a forearm; 40. a positioning tube; 41. a material guide port; 42. an annular positioning groove; 43. a first half body; 44. a second half body; 45. swinging arms; 50. a material guide chute; 51. a cover plate; 52. a viewing port; 60. a material preparation hopper; 61. stirring the material sheet; 62. a feeding port; 70. a material blocking deflector rod; 71. a drive shaft; 80. a conveyor belt; 81. a discharge opening; 82. a storage hopper.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.
In the description of the present invention, it should be noted that the terms "bottom", "outside", "front and back", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the state of the drawings of the present application, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the term "connected" is to be interpreted broadly, for example, as a fixed connection, a detachable connection, or an integral connection; 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.
A full-automatic loading and unloading adhesive tape slitting machine comprises a slitting machine main body and an adhesive tape core cylinder sequencing unit for supplying materials to the slitting machine main body, wherein the adhesive tape core cylinder sequencing unit comprises a machine frame, a supporting and placing station 20 for placing a winding shaft 1, a push-pull rod 22 for clamping the end part of the winding shaft 1 and a positioning pipe 40 for placing adhesive tape core cylinders are arranged on the machine frame, the moving path of the push-pull rod 22 axially penetrates through a pipe cavity of the positioning pipe 40, a plurality of material guide openings 41 for placing the adhesive tape core cylinders are formed in the circumferential direction of the positioning pipe 40, a plurality of annular positioning grooves 42 for placing the adhesive tape core cylinders are formed in the inner wall of the positioning pipe 40, the outer diameter size and the width size of each annular positioning groove 42 are the same as those of the adhesive tape core cylinders, the annular positioning grooves 42 are uniformly arranged in the pipe center of the positioning pipe 40 at intervals, the material guide openings 41 are communicated with the annular positioning grooves 42 and correspond to one another, the positioning pipe 40 comprises a first half-pipe 43 and a second half pipe 44, and the first half pipe 43 and the second half pipe 44 are respectively connected with a driving mechanism for driving the two half pipes to separate.
In the above solution, the positioning tube 40 is provided for placing the adhesive tape core cylinder, the groove wall of the annular positioning groove 42 can limit the axial direction of the adhesive tape core cylinder, so that the adhesive tape core cylinder located in the annular positioning groove 42 can be sleeved on the winding shaft 1 at the original position when the push-pull rod 22 drives the winding shaft 1 to pass through the positioning tube 40, and the annular positioning grooves 42 are arranged at uniform intervals, so that the sleeved adhesive tape core cylinders can be arranged at uniform intervals on the winding shaft 1. The working process is as follows:
the adhesive tape core barrel is placed in the positioning tube 40, the push-pull rod 22 penetrates through the adhesive tape core barrel in the positioning tube 40 to clamp the winding shaft 1 on the unwinding station 20, then the winding shaft 1 is pulled to enable the winding shaft 1 to penetrate through the adhesive tape core barrel in the positioning tube 40, so that the adhesive tape core barrel can be sleeved on the winding shaft 1, then the first half body 43 and the second half body 44 are separated and opened under the action of the driving mechanism, the adhesive tape core barrel is separated from the annular positioning groove 42 to prevent the annular positioning groove 42 from interfering with the taking out of the adhesive tape core barrel, then the push-pull rod 22 pushes the winding shaft 1 to enable the winding shaft 1 to be placed on the unwinding station 20 again, at the moment, the push-pull rod 22 releases the winding shaft 1 to return, and the first half body 43 and the second half body 44 are closed to place the adhesive tape core barrel in the positioning tube 40 again.
Preferably, the first half body 43 is located above the second half body 44, the driving mechanism includes a swing arm 45 connected to two ends of a tube wall of the first half body 43 and a lifting platform connected to a lower portion of the tube wall of the second half body 44, a rotation axis of the swing arm 45 is parallel to a direction of a tube center of the positioning tube 40, and the swing arm 45 and the lifting platform are both driven by a hydraulic cylinder or an air cylinder. When the swing arm 45 swings upwards, the first half body 43 can be driven to move upwards, and the lifting platform can drive the second half body 44 to move downwards.
Preferably, the material guide port 41 is provided on the second half body 44. Thus, even when the first half 43 is opened upward, the tape cartridge can be additionally inserted into the second half 44 through the material guide port 41.
Preferably, the material guiding port 41 is connected with a material guiding chute 50 for conveying the tape core barrel, the material guiding chute 50 is obliquely arranged, the lower end of the material guiding chute is connected with the material guiding port 41, and the upper end of the material guiding chute is connected with a material arranging hopper 60 for adjusting the tape core barrel to a rolling posture. Because the material guiding groove 50 is obliquely arranged, the adhesive tape core barrel in the rolling posture can directly roll in the material guiding groove 50 to finish conveying.
Preferably, a plurality of material blocking deflector rods 70 for blocking the adhesive tape core barrel are arranged at the lower end of the material guide chute 50, and the material blocking deflector rods 70 are connected with a driving shaft 71 for driving the material blocking deflector rods 70 to swing. When the material blocking deflector rod 70 swings to the lower position, the adhesive tape core cylinder can be prevented from continuously rolling to enter the positioning tube 40, and when the material blocking deflector rod 70 swings to the upper position, the adhesive tape core cylinder can roll to enter the positioning tube 40.
Preferably, a cover plate 51 is disposed above the material guiding chute 50, and a viewing port 52 is opened on the cover plate 51 corresponding to the lower end of the material guiding chute 50. The cover plate 51 can shield the notch of the guide chute 50, so as to prevent the adhesive tape cartridge from flying due to too high falling speed. Meanwhile, the observation port 52 can observe the blockage at the lower end of the material guide chute 50.
Preferably, a plurality of material stirring sheets 61 are uniformly arranged in the whole material hopper 60 at intervals, the distance between adjacent material stirring sheets 61 is the same as the width of the adhesive tape core cylinder, the bottom of the whole material hopper 60 is obliquely arranged, a feed opening 62 is arranged on the whole material hopper 60 below the material stirring sheets 61, the width of the feed opening 62 is the same as the width of the adhesive tape core cylinder, and the height of the feed opening is larger than the diameter of the adhesive tape core cylinder. The diameter of the adhesive tape core cylinder is generally larger than the width of the adhesive tape core cylinder, so that the adhesive tape core cylinder can only penetrate through the feed opening 62 in a rolling posture, and the material shifting sheet 61 can shift the adhesive tape core cylinder in a non-rolling posture to change the adhesive tape core cylinder into a rolling posture so as to prevent the material from being blocked.
Preferably, the device further comprises an obliquely arranged conveying belt 80, the upper end of the conveying belt 80 is provided with a discharge opening 81, the discharge opening 81 is positioned right above the material preparing hopper 60, the lower end of the conveying belt 80 is provided with a material storing hopper 82, and the conveying direction of the conveying belt 80 is from the material storing hopper 82 to the material preparing hopper 60. The material preparation hopper 60 is not capable of placing too many adhesive tape core cylinders due to the need of material preparation, otherwise the material is blocked, and meanwhile, the opening of the material preparation hopper 60 is high and difficult to directly feed, so that the additional conveying belt 80 is arranged to facilitate the feeding.
The utility model discloses a take-up reel, including frame 10, swing arm, horizontal pole length direction and 1 axle center direction parallel of coiling axle and the horizontal pole is located the middle part with the hookup location of arm 30, the both ends of horizontal pole 31 are provided with the jack catch 34 that is used for snatching 1 both ends of coiling axle, the removal route of jack catch 34 with get and put district 12 coincidence, be provided with the support that is used for placing coiling axle 1 on the removal route of jack catch 34 and put worker's position 20.
In the above scheme, the transfer of the reeling shaft 1 can be completed by only using one mechanical arm 30, and the problem of synchronism of the single mechanical arm 30 can be solved. The middle of the reeling shaft 1 is also the position of its centre of gravity, and the robot arm 30 holds the centre of gravity directly avoiding its unbalance. In addition, even if the mechanical arm 30 is damaged, the gripping device 31 which cannot grip and grip the winding shaft 1 cannot drive the winding shaft 1, so that the winding shaft 1 is prevented from falling and smashing other peripheral equipment.
Preferably, the mechanical arm 30 includes a base 32 fixedly connected to the frame 10, a middle arm 33 is hinged to the base 32, a motor for driving the middle arm 33 to swing is disposed at the hinged position, a front arm 35 is hinged to the middle arm 33, a motor for driving the front arm 35 to swing is disposed at the hinged position, and the axes of the two motors are parallel to the length direction of the pick-and-place area 12. By forming the two-degree-of-freedom mechanical arm 30, the moving path of the gripping device 31 can form a complete plane instead of an arc, and the moving path of the planar structure is convenient to adapt to the working requirements in a wider range.
Preferably, the placing and placing station 20 includes two carrier rollers 21 for placing the winding shaft 1, a roller center direction of the carrier rollers 21 is parallel to a length direction of the placing and placing area 12, and one end of the carrier rollers 21 is provided with a material removing unit for removing a finished adhesive tape on the winding shaft 1. The length direction of the pick-and-place area 12 is the same as that of the winding shaft 1, so that the posture of the winding shaft 1 does not need to be changed when the winding shaft is placed on the carrier roller 21, and the operation of the mechanical arm 30 is facilitated.
Preferably, the stripping unit comprises a push-pull rod 22 and a material baffle plate 23 which are arranged at one end of the carrier roller 21, a chuck for clamping the end of the winding shaft 1 is arranged at one end of the push-pull rod 22, the length direction of the push-pull rod 22 and the sliding direction for driving the winding shaft 1 are parallel to the length direction of the carrier roller 21, and the material baffle plate 23 avoids the sliding path of the adhesive tape core barrel on the winding shaft 1 and blocks the sliding path of the finished adhesive tape on the winding shaft 1. In the above scheme, the push-pull rod 22 clamps the end of the winding shaft 1 and then pushes and pulls the winding shaft 1 to enable the winding shaft 1 to pass through the position of the material baffle plate 23, if the winding shaft 1 is sleeved with the adhesive tape core cylinder, the adhesive tape core cylinder can directly pass through the material baffle plate 23, if the winding shaft 1 is sleeved with the finished adhesive tape, the material baffle plate 23 can peel off the finished adhesive tape from the winding shaft 1, and only the winding shaft 1 passes through the material baffle plate 23. It should be noted that the adhesive force between the tape and the tape cartridge is strong, and the peeled off tape contains the tape cartridge. The winding shaft 1 for peeling off the finished product adhesive tape needs to be sleeved with an adhesive tape core cylinder again, then the winding shaft 1 sleeved with the adhesive tape core cylinder is conveyed to the carrier roller 21 through the push-pull rod 22, and then the mechanical arm 30 clamps the winding shaft 1 and conveys the winding shaft to the pick-and-place area 12.
Preferably, the striker plate 23 slides along the length direction of the carrier rollers 21, and the sliding stroke is located above the two carrier rollers 21. The material baffle plate 23 sliding above the carrier roller 21 can push the finished product adhesive tape on the material baffle plate from one end to the adhesive tape collecting position at the other end, so that the adhesive tape is prevented from being placed on the carrier roller 21 all the time.
Preferably, the striker plate 23 is a semicircular ring, the inner diameter of the striker plate 23 is smaller than the outer diameter of the finished adhesive tape, and the inner diameter of the striker plate 23 is larger than the outer diameter of the adhesive tape core cylinder. Thrust and blocking force of the semi-circular-ring-shaped material blocking plate 23 are uniform, and finished adhesive tapes are prevented from falling off and deflecting from the carrier roller 21.
Preferably, the docking station 20 is disposed below the robot arm 30. The holding station 20 is a table-shaped structure, and a mechanical arm 30 is arranged above the holding station to reduce the occupied space of the equipment.
Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present disclosure, and such changes and modifications will fall within the scope of the present disclosure.

Claims (9)

1. The utility model provides a full-automatic unloading sticky tape of going up divides strip machine which characterized in that: the adhesive tape core barrel sequencing unit comprises a slitting machine main body and an adhesive tape core barrel sequencing unit for supplying an adhesive tape core barrel to the slitting machine main body, the adhesive tape core barrel sequencing unit comprises a rack, a supporting and placing station (20) for placing a winding shaft (1), a push-pull rod (22) for clamping the end part of the winding shaft (1) and a positioning pipe (40) for placing the adhesive tape core barrel are arranged on the rack, the moving path of the push-pull rod (22) axially penetrates through a pipe cavity of the positioning pipe (40), a plurality of material guide ports (41) for placing the adhesive tape core barrel are formed in the circumferential direction of the positioning pipe (40), a plurality of annular positioning grooves (42) for placing the adhesive tape core barrel are formed in the inner wall of the positioning pipe (40), the outer diameter size and the width size of each annular positioning groove (42) are the same as those of the adhesive tape core barrel, the annular positioning grooves (42) are uniformly arranged at intervals in the half-direction of the positioning pipe (40), the material guide ports (41) are communicated with the annular positioning grooves (42) and correspond to one another, the positioning pipe (40) comprises a first half body (43) and a second half body (44) and a half body driving mechanism for driving the first half body and a second half body (44) to drive the second half body to separate the second half body.
2. The full-automatic feeding and discharging adhesive tape slitting machine as claimed in claim 1, wherein: the first half body (43) is positioned above the second half body (44), the driving mechanism comprises a swing arm (45) connected with two ends of the tube wall of the first half body (43) and a lifting platform connected with the lower portion of the tube wall of the second half body (44), a rotating shaft core of the swing arm (45) is parallel to the direction of a tube center of the positioning tube (40), and the swing arm (45) and the lifting platform are driven by a hydraulic cylinder or an air cylinder.
3. The full-automatic feeding and discharging adhesive tape slitting machine as claimed in claim 2, wherein: the material guide opening (41) is arranged on the second half body (44).
4. The full-automatic feeding and discharging adhesive tape slitting machine as claimed in claim 3, wherein: the feeding port (41) is connected with a feeding chute (50) used for conveying the adhesive tape core barrel, the feeding chute (50) is obliquely arranged, the lower end of the feeding chute is connected with the feeding port (41), and the upper end of the feeding chute is connected with a material arranging hopper (60) used for adjusting the adhesive tape core barrel into a rolling posture.
5. The full-automatic feeding and discharging adhesive tape slitting machine as claimed in claim 4, wherein: the lower end of the guide chute (50) is provided with a plurality of material blocking deflector rods (70) for blocking the adhesive tape core barrel, and the material blocking deflector rods (70) are connected with a driving shaft (71) for driving the material blocking deflector rods to swing.
6. The full-automatic feeding and discharging adhesive tape slitting machine as claimed in claim 4, wherein: a cover plate (51) is arranged above the material guide groove (50), and an observation port (52) is formed in the position, corresponding to the lower end of the material guide groove (50), of the cover plate (51).
7. The full-automatic feeding and discharging adhesive tape slitting machine as claimed in claim 4, 5 or 6, wherein: even interval arrangement has a plurality of plectrum pieces (61) in whole hopper (60), and is adjacent interval between plectrum piece (61) is the same with sticky tape core section of thick bamboo width, the bottom slope of whole hopper (60) is arranged, be provided with feed opening (62) on whole hopper (60) of the below of plectrum piece (61), feed opening (62) width is the same with sticky tape core section of thick bamboo width, highly is greater than the diameter of sticky tape core section of thick bamboo.
8. The full-automatic feeding and discharging adhesive tape slitting machine as claimed in claim 4, 5 or 6, wherein: still include conveyer belt (80) that the slope was arranged, the upper end of conveyer belt (80) is provided with discharge opening (81), discharge opening (81) are located whole hopper (60) directly over, the lower extreme of conveyer belt (80) sets up storage hopper (82), the direction of delivery of conveyer belt (80) is from storage hopper (82) to whole hopper (60).
9. The full-automatic feeding and discharging adhesive tape slitting machine as claimed in claim 1, wherein: divide strip quick-witted main part including rotating a plurality of rim plates (11) of setting in frame (10), rim plate (11) are arranged at the both sides mirror symmetry of frame (10), and the region between a set of rim plate (11) of symmetry constitutes places area (12) of getting of reeling axle (1) of putting, be provided with a oscillating arm (30) on frame (10), the free end of arm (30) is connected with the horizontal pole, horizontal pole length direction is parallel and the horizontal pole is located the middle part with the junction of arm (30) with reeling axle (1) axle center direction, the both ends of horizontal pole (31) are provided with jack catch (34) that are used for snatching reeling axle (1) both ends, the removal route of jack catch (34) with get and put the coincidence of area (12), be provided with the support that is used for placing reeling axle (1) on the removal route of jack catch (34) and put station (20).
CN202221975624.1U 2022-07-28 2022-07-28 Full-automatic feeding and discharging adhesive tape slitting machine Active CN217703523U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221975624.1U CN217703523U (en) 2022-07-28 2022-07-28 Full-automatic feeding and discharging adhesive tape slitting machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221975624.1U CN217703523U (en) 2022-07-28 2022-07-28 Full-automatic feeding and discharging adhesive tape slitting machine

Publications (1)

Publication Number Publication Date
CN217703523U true CN217703523U (en) 2022-11-01

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202221975624.1U Active CN217703523U (en) 2022-07-28 2022-07-28 Full-automatic feeding and discharging adhesive tape slitting machine

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Country Link
CN (1) CN217703523U (en)

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