CN218699259U - Nanometer adhesive tape slitting device - Google Patents

Abstract

The utility model relates to a device is cut to nanometer sticky tape, including cutting the mechanism, feed mechanism and discharge mechanism, move to slightly being less than narrower nanometer sticky tape on buffering elevator motor drive lift buffer memory bench, one side that ejection of compact motor drive arc splint kept away from the push pedal towards the material loading roller continues to remove, make two arc splint arrange the outside of lift buffer memory bench in, stop when the push pedal presss from both sides the narrower nanometer sticky tape of cutting with the cooperation of buffer memory baffle, then move down to narrower nanometer sticky tape and arrange lift buffer memory bench in and break away from arc splint completely through ejection of compact elevator motor drive arc splint, the condition that falls scattered can not take place for narrower nanometer sticky tape, the staff can directly pack it this moment, be convenient for staff's operation packing when not influencing cutting efficiency cuts the better narrower nanometer sticky tape, promote whole packing and cut efficiency, further improve whole efficiency of cutting.

Description

Nanometer adhesive tape slitting device

Technical Field

The utility model relates to a cut the structure field, especially relate to a device is cut to nanometer sticky tape.

Background

The nano adhesive tape is also a nano adhesive tape, is produced by adopting imported materials and advanced technology, has excellent quality and complete specifications. The nano adhesive tape has many excellent properties: extremely excellent insulation properties, extremely strong chemical stability, and the like.

Generally, in the production process, a wide nano adhesive tape is produced first, and then the wide nano adhesive tape is cut into narrow nano adhesive tapes by a cutting machine.

Current patent CN 201821540671.7 provides a novel sealing-tape machine cut device, and its structure includes base, fuselage, controller, snubber block, protection casing, motor, sticky tape stick, cuts mechanism, elevating system, fixed joint, the upper end left side of base is equipped with the fuselage, be equipped with the controller on the front side of fuselage, the right-hand member inboard of fuselage is equipped with the motor, the cover has the sticky tape stick on the motor shaft of motor, the sticky tape stick is fixed on the motor shaft through the fixed joint who is equipped with, the top of sticky tape stick is equipped with cuts the mechanism, it comprises knife rest axle, separation sleeve and slitting blade to cut the mechanism, separation sleeve and slitting blade all cup joint and install on the outside of knife rest axle, the left end of knife rest axle is equipped with the draw-in groove and links to each other with elevating system, and the right-hand member is fixed mutually with elevating system through the fixed joint who is equipped with. The utility model discloses a structural design is ingenious, reasonable, cuts effectually, is convenient for adjust, can divide the sticky tape of cutting different width, and stability is good, and the security is high.

However, the above patents still have the following drawbacks: after the cutting, people are required to manually take down the cut narrow nano adhesive tapes, the narrow nano adhesive tapes are more in number, so that the cutting efficiency and the packaging efficiency of the narrow nano adhesive tapes are reduced if the narrow nano adhesive tapes are taken down in batches, and the narrow nano adhesive tapes are easy to scatter when all the narrow nano adhesive tapes are taken down at one time, so that the subsequent packaging is inconvenient, even the narrow nano adhesive tapes can be polluted, and the subsequent cleaning is required, and the operation is complicated.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a device is cut to nanometer sticky tape, solve the problem that complex operation that prior art brought is inconvenient, cut efficiency and packing inefficiency.

In order to solve the technical problem, the utility model adopts the technical scheme that: the utility model provides a device is cut to nanometer sticky tape, its innovation point lies in: comprises a splitting mechanism, a feeding mechanism and a discharging mechanism;

the feeding mechanism comprises a bottom workbench, a first rotating motor and a feeding roller, the bottom workbench is of an L-shaped structure, the top end of the vertical part of the bottom workbench is higher than the top end of the horizontal part of the bottom workbench, the first rotating motor is installed at the top end of the vertical part of the bottom workbench, the feeding roller is horizontally arranged above the horizontal part of the bottom workbench, and one end of the feeding roller is connected with the output end of the first rotating motor;

the slitting mechanism is arranged vertically above the feeding roller and comprises a second rotating motor, a slitting roller and a plurality of slitting blades sleeved on the slitting roller, the slitting roller is horizontally arranged and is positioned on the same vertical surface with the feeding roller, and one end of the slitting roller is connected with the second rotating motor;

discharge mechanism includes ejection of compact subassembly and ejection of compact motor, ejection of compact subassembly includes two arc splint that two ejection of compact elevator motors and symmetry set up, two arc splint are close to one side inner of first rotating electrical machines and are equipped with the push pedal, and the push pedal is arranged in between sticky tape stick and the first rotating electrical machines, leave the space that holds the sticky tape stick between two arc splint, and the top of two arc splint is not higher than the water flat line that the material loading roller centre of a circle was located, two ejection of compact elevator motors all with ejection of compact motor connects to slide and set up on the horizontal part top of bottom workstation, and two ejection of compact elevator motors's output upwards extend and respectively with two arc splint connect, and two ejection of compact elevator motors's the length direction of sliding route and material loading roller is in same vertical face.

Further, the device also comprises a caching mechanism which is used for caching the slit narrow nano adhesive tapes, so that the slit narrow nano adhesive tapes can be conveniently operated and packaged by staff while the slitting efficiency is not influenced;

buffer memory mechanism includes a lift buffer memory platform and a buffer memory elevator motor, buffer memory elevator motor installs on the horizontal part top of bottom workstation for the material loading roller is located between first rotating electrical machines and the buffer memory elevator motor, lift buffer memory platform includes an arc structural slab, and the radian of this arc structural slab is less than radian between two arc splint bottoms, the extending direction of this arc structural slab and the extending direction of sticky tape stick are in on same vertical face, buffer memory elevator motor's output upwards extend to with the bottom of lift buffer memory platform is connected.

The device further comprises a lifting support piece, wherein the lifting support piece is arranged on the horizontal part of the bottom workbench and is positioned between the buffer mechanism and the discharging mechanism, and is used for ensuring the levelness of the feeding roller;

the lifting support piece is positioned between the moving paths of the two discharging lifting motors and comprises a telescopic rod and an arc-shaped support plate, and the arc-shaped support plate is lifted by the telescopic rod;

the opening of the arc-shaped supporting plate is vertically upwards arranged and used for containing and supporting the other end of the feeding roller, and a plurality of balls are further arranged on the inner wall of the arc-shaped supporting plate.

Further, go up and down the buffer memory platform and still include a buffer memory baffle, the buffer memory baffle is fixed discharge mechanism's top one end is kept away from to circular arc structural slab, prevents that discharge mechanism from removing excessively, leads to keeping away from the narrow nanometer sticky tape of cutting of one side of push pedal to take place to drop from buffer memory mechanism.

Furthermore, the length of the arc-shaped clamping plate is not less than that of the adhesive tape rod, and the length of the arc-shaped structural plate is not less than that of the arc-shaped clamping plate.

The utility model has the advantages that:

1) The utility model discloses a plurality of narrower nanometer sticky tapes that form after the well is cut utilize ejection of compact elevator motor drive arc splint to rise to arc splint and narrower nanometer sticky tape laminating back, through ejection of compact motor drive arc splint towards the one side that the push pedal was kept away from to the loading roller remove, utilize the push pedal to push away all narrower nanometer sticky tapes on the loading roller from the loading roller and realize automatic discharging, need not artifical ejection of compact, simplify manual operation flow, use manpower sparingly;

2) In the utility model, the arc-shaped supporting plate is lifted and descended by the telescopic rod, the opening of the arc-shaped supporting plate is vertically arranged upwards and is used for holding and supporting the other end of the feeding roller, and the inner wall of the arc-shaped supporting plate is also provided with a plurality of balls, so that the rotating smoothness of the feeding roller is ensured while the levelness of the feeding roller is ensured, and the cutting work precision is ensured;

3) The utility model discloses in, through buffer memory elevator motor drive lift buffer memory bench move to slightly less than narrower nanometer sticky tape, ejection of compact motor drive arc splint continue to move towards the one side that the push pedal was kept away from to the material loading roller, make two arc splint arrange in the outside of lift buffer memory bench, stop when the push pedal cooperates with the buffer memory baffle to press from both sides the narrower nanometer sticky tape of cutting, then move down to narrower nanometer sticky tape through ejection of compact elevator motor drive arc splint and arrange in lift buffer memory bench and break away from the arc splint completely, narrower nanometer sticky tape can not take place the condition of scattering, staff can directly pack it at this moment, be convenient for staff to operate the narrower nanometer sticky tape of cutting when not influencing cutting efficiency, promote whole packing and cutting efficiency; then, the discharging motor is used for driving the arc-shaped clamping plate to move towards the first rotating motor and reset, and meanwhile, the buffer lifting motor drives the lifting buffer table to move downwards, so that the feeding and the slitting of the next adhesive tape rod are realized, and the integral slitting efficiency is further improved;

4) The utility model discloses in, the length of arc splint is not less than the length of sticky tape stick, guarantees that narrower nanometer sticky tape can not drop from arc splint, and the length of circular arc structural slab is not less than the length of arc splint, can be used to once or many times the buffer memory cut good narrower nanometer sticky tape, improves its practicality.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a front view of a partial structure of a nano adhesive tape slitting device of the present invention.

Fig. 2 is a first schematic view of the operation of the nano adhesive tape slitting device of the present invention.

Fig. 3 is a second working schematic diagram of the nano adhesive tape slitting device of the present invention.

Fig. 4 is a third working schematic diagram of the nano adhesive tape slitting device of the present invention.

Fig. 5 is a fourth working schematic diagram of the nano adhesive tape slitting device of the present invention.

Fig. 6 is a fifth schematic view of the operation of the nano adhesive tape slitting device of the present invention.

Fig. 7 is a left side view of a partial structure of the nano adhesive tape slitting device of the present invention.

Detailed Description

As shown in fig. 1 to 7, the nano adhesive tape slitting device includes a slitting mechanism 1, a feeding mechanism 2, a discharging mechanism 3, a lifting support 4 and a buffering mechanism 5.

The feed mechanism 2 includes a bottom table 21, a first rotating motor 22, and a feed roller 23.

Bottom table 21 is an L-shaped structure, and the vertical portion top of bottom table 21 is higher than its horizontal part top, and first rotating electrical machines 22 installs at the vertical portion top of bottom table 21, and material loading roller 23 level sets up in the top of the horizontal part of bottom table 21, and its one end is connected with first rotating electrical machines 22 output.

The lifting support member 4 is arranged on the horizontal part of the bottom workbench 21 and positioned between the buffer mechanism 5 and the discharging mechanism 3, and is used for ensuring the levelness of the feeding roller 23.

The lifting support member 4 is located between the moving paths of the two discharging lifting motors 31, and comprises an expansion link 41 and an arc-shaped support plate 42, and the arc-shaped support plate 42 is lifted by the expansion link 41.

The opening of the arc-shaped supporting plate 42 is vertically arranged upwards and is used for containing and supporting the other end of the feeding roller 23, and a plurality of balls are further arranged on the inner wall of the arc-shaped supporting plate.

The slitting mechanism 1 is arranged vertically above the feeding roller 23 and comprises a portal frame 11, a second rotating motor 12, a slitting roller 13 and a plurality of slitting blades 14 sleeved on the slitting roller 13.

The portal frame 11 assumes in the both sides of feed mechanism 2, all installs a vertical hydraulic stem that sets up downwards in the top both sides of portal frame 11, is first hydraulic stem 15 and second hydraulic stem 16 respectively, and a fixed block is installed to the bottom of first hydraulic stem 15, installs second rotating electrical machines 12 on the fixed block, and a connecting block 17 is installed to the bottom of second hydraulic stem 16.

The slitting roller 13 is horizontally arranged between the fixing block and the connecting block 17 and is positioned on the same vertical surface with the feeding roller 23, one end of the slitting roller 13 is connected with the second rotating motor 12, and the other end of the slitting roller is rotatably connected onto the connecting block 17 through a rotating bearing.

The discharging mechanism 3 comprises a discharging component and a discharging motor.

The ejection of compact subassembly includes two ejection of compact elevator motor 31 and two arc splint 32 that the symmetry set up, and the length of arc splint 32 is not less than the length of sticky tape stick 6, guarantees that narrower nanometer sticky tape can not drop from arc splint 32.

The inner end of one side of the two arc-shaped clamping plates 32 close to the first rotating motor 22 is provided with a push plate 33, the push plate 33 is arranged between the adhesive tape rod 6 and the first rotating motor 22, a gap for accommodating the adhesive tape rod 6 is reserved between the two arc-shaped clamping plates 32, and the top ends of the two arc-shaped clamping plates 32 are not higher than the horizontal line where the circle center of the feeding roller 23 is located.

The output ends of the two discharging lifting motors 31 extend upwards and are respectively connected with the two arc-shaped clamping plates 32, and the sliding routes of the two discharging lifting motors 31 and the length direction of the feeding roller 23 are positioned on the same vertical surface.

The ejection of compact motor is installed and is located between the vertical portion of bottom workstation 21 and ejection of compact elevator motor 31 on the horizontal part of bottom workstation 21, still is equipped with the slide rail on the horizontal part of bottom workstation 21, and two ejection of compact elevator motors 31 all install on the slide rail to be connected with ejection of compact motor.

The caching mechanism 5 is used for caching the cut narrow nano adhesive tapes, so that the cut narrow nano adhesive tapes can be conveniently operated and packaged by staff while the cutting efficiency is not influenced.

The buffer mechanism 5 includes a buffer elevation table 51 and a buffer elevation motor 52.

The buffer lifting motor 52 is installed on the top of the horizontal portion of the bottom table 21 such that the feeding roller 23 is located between the first rotating motor 22 and the buffer lifting motor 52.

The lifting buffer platform 51 comprises an arc structural plate 511, the radian of the arc structural plate 511 is smaller than the radian between the bottom ends of the two arc-shaped clamping plates 32, the extending direction of the arc structural plate 511 and the extending direction of the adhesive tape stick 6 are on the same vertical plane, and the output end of the buffer lifting motor 52 extends upwards to be connected with the bottom of the lifting buffer platform 51.

The lifting buffer platform 51 further comprises a buffer baffle 512, the buffer baffle 512 is fixed at one end of the top of the circular arc structure plate 511 far away from the discharging mechanism 3, so that the discharging mechanism 3 is prevented from moving excessively, and the narrow slit nano adhesive tape far away from one side of the push plate 33 falls off from the buffer mechanism 5.

The length of the arc structural plate 511 is not less than that of the arc clamping plate 32, and the arc structural plate can be used for caching the cut narrow nano adhesive tape for one time or multiple times, so that the practicability of the nano adhesive tape is improved.

The theory of operation of this patent:

as shown in fig. 1 to 2, the adhesive tape rod 6 is sleeved on the feeding roller 23, the telescopic rod 41 drives the arc-shaped supporting plate 42 to move upwards to the other end of the feeding roller 23 to be held and supported, the levelness of the feeding roller 23 is ensured, the hydraulic rod drives the slitting roller 13 to move downwards, and the second rotating motor 12 is driven to operate to cut the adhesive tape rod 6 to form the narrow nano adhesive tape.

As shown in fig. 3, after the discharging lifting motor 31 drives the arc-shaped clamping plate 32 to ascend to the arc-shaped clamping plate 32 to be attached to the narrower nanometer adhesive tape, the telescopic rod 41 drives the arc-shaped supporting plate 42 to descend and separate from the feeding roller 23, and the buffer lifting motor 52 drives the lifting buffer table 51 to move upwards to be slightly lower than the narrower nanometer adhesive tape.

As shown in fig. 4, the arc-shaped clamping plates 32 are driven by the discharging motor to move towards the lifting buffer table 51, all the narrow nano adhesive tapes on the feeding rollers 23 are pushed away from the feeding rollers 23 by the pushing plate 33 to realize automatic discharging, manual discharging is not needed, the manual operation flow is simplified, manpower is saved, the arc-shaped clamping plates 32 are continuously driven by the discharging motor to move towards the lifting buffer table 51, so that the two arc-shaped clamping plates 32 are arranged outside the lifting buffer table 51, and the operation is stopped until the pushing plate 33 is matched with the buffer baffle 512 to clamp the cut narrow nano adhesive tapes.

As shown in fig. 5, move down to narrower nanometer sticky tape through ejection of compact elevator motor 31 drive arc splint 32 and arrange in lift buffer platform 51 and break away from arc splint 32 completely, the condition of scattering can not take place for narrower nanometer sticky tape, and the staff can directly pack it this moment, and convenient and fast promotes whole packing and cuts efficiency.

As shown in fig. 6, the arc-shaped clamping plate 32 is driven by the discharging motor to move towards the first rotating motor 22 for resetting, and simultaneously, the buffer lifting motor 52 drives the lifting buffer table 51 to move downwards, so that the next adhesive tape stick 6 is fed and cut, and the overall cutting efficiency is further improved.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. A nanometer sticky tape cutting device which characterized in that: comprises a splitting mechanism, a feeding mechanism and a discharging mechanism;

the feeding mechanism comprises a bottom workbench, a first rotating motor and a feeding roller, the bottom workbench is of an L-shaped structure, the top end of the vertical part of the bottom workbench is higher than the top end of the horizontal part of the bottom workbench, the first rotating motor is installed at the top end of the vertical part of the bottom workbench, the feeding roller is horizontally arranged above the horizontal part of the bottom workbench, and one end of the feeding roller is connected with the output end of the first rotating motor;

the slitting mechanism is arranged vertically above the feeding roller and comprises a second rotating motor, a slitting roller and a plurality of slitting blades sleeved on the slitting roller, the slitting roller is horizontally arranged and is positioned on the same vertical plane with the feeding roller, and one end of the slitting roller is connected with the second rotating motor;

discharge mechanism includes ejection of compact subassembly and ejection of compact motor, ejection of compact subassembly includes two arc splint that two ejection of compact elevator motors and symmetry set up, two arc splint are close to one side inner of first rotating electrical machines and are equipped with the push pedal, and the push pedal is arranged in between sticky tape stick and the first rotating electrical machines, leave the space that holds the sticky tape stick between two arc splint, and the top of two arc splint is not higher than the water flat line that the material loading roller centre of a circle was located, two ejection of compact elevator motors all with ejection of compact motor connects to slide and set up on the horizontal part top of bottom workstation, and two ejection of compact elevator motors's output upwards extend and respectively with two arc splint connect, and two ejection of compact elevator motors's the length direction of sliding route and material loading roller is in same vertical face.

2. The nano adhesive tape slitting device according to claim 1, characterized in that: the system also comprises a cache mechanism;

buffer memory mechanism includes a lift buffer memory platform and a buffer memory elevator motor, buffer memory elevator motor installs on the horizontal part top of bottom workstation for the material loading roller is located between first rotating electrical machines and the buffer memory elevator motor, lift buffer memory platform includes a circular arc structural slab, and the radian of this circular arc structural slab is less than radian between two arc splint bottoms, the extending direction of this circular arc structural slab and the extending direction of sticky tape stick are in same vertical face, buffer memory elevator motor's output upwards extend to with the bottom of lift buffer memory platform is connected.

3. The nano adhesive tape slitting device according to claim 1, characterized in that: the lifting support piece is arranged on the horizontal part of the bottom workbench and is positioned between the buffer mechanism and the discharging mechanism;

the lifting support piece is positioned between the moving paths of the two discharging lifting motors and comprises a telescopic rod and an arc-shaped support plate, and the arc-shaped support plate is lifted by the telescopic rod;

the opening of the arc-shaped supporting plate is vertically upwards arranged and used for containing and supporting the other end of the feeding roller, and a plurality of balls are further arranged on the inner wall of the arc-shaped supporting plate.

4. The nano adhesive tape slitting device according to claim 2, characterized in that: the lifting buffer platform further comprises a buffer baffle, and the buffer baffle is fixed at one end, far away from the discharging mechanism, of the top of the circular arc structure plate.

5. The nano adhesive tape slitting device according to claim 2, characterized in that: the length of the arc-shaped clamping plate is not less than that of the adhesive tape rod, and the length of the arc-shaped structural plate is not less than that of the arc-shaped clamping plate.

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