CN211945604U - Grooving and belt storing device of edge bonding machine - Google Patents

Abstract

The utility model belongs to the technical field of the bag sealer technique and specifically relates to indicate a banding machine's grooving stores up belting, including the grooving board, rotate and set up in two at least parallel arrangement's of grooving board guide roller, set up in the storage area of the feed end of guide roller and supply the belting, set up in the guide subassembly of the discharge end of guide roller, the grooving ware that the grooving was carried out to the sideband in the guide subassembly, a band-feeding mechanism for drawing the dust catcher of waste material and set up in the discharge end of guide subassembly, band-feeding mechanism is used for pulling the sideband and removes, storage area supplies belting to construct and is used for storing the sideband material and to guide roller supply sideband, the grooving ware includes grooving mechanism and lower grooving mechanism, the grooving end of going up grooving mechanism and the grooving end of grooving mechanism all stretch to the guide subassembly down in. The utility model discloses can carry out the grooving to the sideband of removal on line continuously, once only can process out two grooves, the efficient, of grooving is of high quality, and can collect and clear up the waste material in time.

Description

Grooving and belt storing device of edge bonding machine

Technical Field

The utility model belongs to the technical field of the bag sealer technique and specifically relates to indicate a notch groove storage device of bag sealer.

Background

In the process of processing the plate, the processed plate needs to be edge-sealed. Because the shapes of the edge sealing surfaces of the boards with different shapes are different, if the edge sealing surfaces are arc surfaces with water chests, a groove needs to be carved at the corresponding position of the edge band before the edge sealing surfaces are sealed, so that the edge band can be accurately and efficiently sealed. The grooving device and the tape storage device of the existing edge bonding machine are independently and separately arranged, the grooving device can only process a groove on the side tape, a processed plate is single, and waste materials generated during grooving can be splashed or scattered randomly, so that the cleanness of the working environment is influenced, and the edge bonding machine needs to be cleaned frequently. Therefore, the drawbacks are obvious, and a solution is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an object of the utility model is to provide a can be online carry out the grooving to the sideband of removal in succession, once only can process out two grooves, the high quality of grooving, efficient, position precision between the twice grooving is high, and can collect and clear up the waste material in time and store up the belting in the grooving of bag sealer.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a notch cut storage device of bag sealer, its includes the notch cut board, rotate and set up in at least two parallel arrangement's of notch cut board guide roller, set up in the storage area of the feed end of guide roller and supply the belting, set up in the guide subassembly of the discharge end of guide roller, carry out the notch cut ware of notch cut to the sideband in the guide subassembly, be used for absorbing the dust catcher of the produced waste material of notch cut ware when to the notch cut of side area and set up the band-feeding mechanism in the discharge end of guide subassembly, band-feeding mechanism is used for drawing the sideband and removes, the storage area supplies the belting to be used for storing the sideband material and to guide roller supply sideband, the notch cut ware includes notch cut mechanism and lower notch cut mechanism, the notch cut end of going up notch cut mechanism and the notch cut end of lower notch cut mechanism all stretch out to the guide subassembly in.

Furthermore, the upper notching mechanism or/and the lower notching mechanism comprises a mobile driving mechanism arranged on the notching machine table, a notching driver arranged at the output end of the mobile driving mechanism and a notching cutter arranged at the output end of the notching driver, wherein the cutting edge of the notching cutter is positioned in the dust collector and protrudes into the material guide component, and the notching driver is used for driving the notching cutter to rotate.

Furthermore, the material guiding assembly comprises a first material guiding plate and a second material guiding plate arranged in parallel with the first material guiding plate, the first material guiding plate is provided with a notch hole, a cutting edge of the notch cutter extends between the first material guiding plate and the second material guiding plate through the notch hole, and the dust collector is communicated with the notch hole.

Furthermore, the moving driving mechanism comprises a longitudinal moving driving device installed on the notching machine table and a transverse moving driving device installed at the output end of the longitudinal moving driving device, and the notching driver is installed at the output end of the transverse moving driving device.

Furthermore, the traverse driving device comprises a traverse guide rod connected with the output end of the longitudinal movement driving device in a sliding manner, a traverse seat arranged at one end of the traverse guide rod, a mounting seat arranged at the other end of the traverse guide rod and a traverse driver arranged on the mounting seat and used for driving the traverse guide rod to move, and the grooving driver is arranged on the traverse seat.

Further, the sideslip driver is the cylinder, the cylinder body of cylinder is installed in the mount pad, the piston rod of cylinder with indulge the seat of moving and be connected, it is provided with the piece that resets that is used for driving sideslip seat to reset to remove to indulge between seat and the sideslip seat of moving.

Furthermore, the mounting base is provided with a displacement reader and a fine adjustment screw rod for fine adjustment of the position of the mounting base, and the displacement reader is used for reading the displacement of the fine adjustment screw rod.

Further, the belt storage and supply mechanism comprises a belt storage seat, two storage racks symmetrically arranged on two sides of the belt storage seat and two belt releasing wheels symmetrically arranged on two sides of the belt storage seat, a plurality of belt guide rollers are arranged on two sides of the belt storage seat, and the plurality of belt guide rollers on the same side of the belt storage seat are arranged around the belt releasing wheels according to the winding position of the side belt.

Furthermore, a plurality of limiting wheels are rotatably arranged between the discharge end of the material guide assembly and the belt conveying mechanism, and limiting grooves used for limiting the side belts are circumferentially arranged on the limiting wheels.

Further, the tape feeding mechanism comprises a main tape feeding roller rotatably arranged on the notching machine table, a rotation driver for driving the main tape feeding roller to rotate, a secondary tape feeding roller slidably arranged on the notching machine table, and a moving driver which is arranged on the notching machine table and is used for driving the secondary tape feeding roller to be close to or far away from the main tape feeding roller.

The utility model has the advantages that: in actual work, the side band materials are stored in the storage band feeding mechanism, the storage band feeding mechanism supplies the side bands of the side band materials to a position between two adjacent guide rollers, the side bands sequentially penetrate through the guide assembly and the band feeding mechanism, the band feeding mechanism pulls the side bands to move along a winding moving track, in the moving process of the side bands, the upper grooving mechanism and the lower grooving mechanism respectively groove the side bands positioned in the guide assembly, so that grooves are formed in different positions of the side bands, two grooves can be machined on the side bands at one time, the efficiency of grooving the side bands is improved, the position accuracy of the grooves is high, a dust collector can timely adsorb waste materials (such as powder and the like) generated in grooving, the waste materials are conveniently collected and cleaned, the waste materials are prevented from splashing or scattering randomly, and the cleanness of a working environment is improved. The utility model discloses an integrative setting of grooving and storage area, can guarantee the stability that the sideband removed, the quality of opposite side area grooving has been improved, can online carry out the grooving to the sideband of removal in succession, once can process out two grooves, the efficiency of opposite side area grooving has been improved, position precision between the two grooves is high, the pattern of processing strake has been increased, and can collect and clear up the waste material in time, avoid the waste material to influence the normal opposite side area grooving of machine, the quality of grooving has further been improved, operator's intensity of labour has been reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the notching device of the present invention.

Fig. 3 is a schematic view of the three-dimensional structure of the belt feeding mechanism, the limiting wheel and the discharging guide roller of the present invention.

Fig. 4 is a schematic perspective view of the material guiding assembly of the present invention.

Description of reference numerals:

20. a notching machine table; 21. a guide roller; 22. a tape storage and supply mechanism; 221. a tape storage seat; 222. a tape storage rack; 223. releasing the belt wheel; 224. a tape guide roller; 225. a photoelectric switch; 23. a material guiding assembly; 231. a first material guide plate; 232. a second material guide plate; 233. notching holes; 234. a fixing member; 235. a spring plate; 236. a baffle plate; 24. a notching device; 241. an upper notching mechanism; 242. a lower notching mechanism; 244. a notching driver; 245. a grooving cutter; 246. a displacement reader; 25. a vacuum cleaner; 26. a tape feeding mechanism; 261. a main belt feeding roller; 262. a rotation driver; 263. a secondary feed roller; 264. a movement driver; 27. a longitudinal movement driving device; 271. a screw rod; 272. moving the nut; 273. longitudinally moving the base; 274. a drive member; 275. a longitudinal guide post; 276. a longitudinal guide sleeve; 28. a traverse driving device; 281. transversely moving the guide rod; 282. a traversing seat; 283. a mounting seat; 284. a traverse actuator; 285. a reset member; 286. mounting a column; 29. a limiting wheel; 291. a limiting groove; 292. a connecting rod; 293. a discharging guide roller; 294. moving the caster; 295. limit bolt 296, elastic piece.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 4, the utility model provides a notch groove belt storage device of an edge bonding machine, which comprises a notch groove machine table 20, at least two guide rollers 21 which are arranged in parallel and rotatably arranged on the notch groove machine table 20, a belt storage belt supply mechanism 22 arranged at the feed end of the guide rollers 21, a guide assembly 23 arranged at the discharge end of the guide rollers 21, a notch groove device 24 for notching the side belt in the guide assembly 23, a dust collector 25 for absorbing the waste material generated when the notch groove device 24 notches the side belt, and a belt conveying mechanism 26 arranged at the discharge end of the guide assembly 23, the tape feeding mechanism 26 is used for pulling the side tape to move, the tape storage and supply mechanism 22 is used for storing the side tape material and supplying the side tape to the guide roller 21, the grooving device 24 comprises an upper grooving mechanism 241 and a lower grooving mechanism 242, and both the grooving end of the upper grooving mechanism 241 and the grooving end of the lower grooving mechanism 242 protrude into the material guiding assembly 23.

In actual work, the side band material is stored in the storage band supply mechanism 22, the storage band supply mechanism 22 supplies the side band of the side band material to a position between two adjacent guide rollers 21, the side band sequentially penetrates through the material guide assembly 23 and the belt conveying mechanism 26, the belt conveying mechanism 26 pulls the side band to move along a winding movement track, the upper notching mechanism 241 and the lower notching mechanism 242 notch the side band in the material guide assembly 23 respectively in the moving process of the side band, so that notches are formed in different positions of the side band, two notches can be machined in the side band at one time, the efficiency of notching the side band is improved, the position accuracy of the notches is high, the dust collector 25 can timely adsorb waste materials (such as powder scraps and the like) generated in notching, collection and cleaning of the waste materials are facilitated, the waste materials are prevented from splashing or scattering at will, and the cleanness of a work environment is improved. The utility model discloses an integrative setting of grooving and storage area, can guarantee the stability that the sideband removed, the quality of opposite side area grooving has been improved, can online carry out the grooving to the sideband of removal in succession, once can process out two grooves, the efficiency of opposite side area grooving has been improved, position precision between the two grooves is high, the pattern of processing strake has been increased, and can collect and clear up the waste material in time, avoid the waste material to influence the normal opposite side area grooving of machine, the quality of grooving has further been improved, operator's intensity of labour has been reduced.

In this embodiment, the upper notching mechanism 241 and/or the lower notching mechanism 242 includes a moving driving mechanism installed on the notching machine 20, a notching driver 244 installed on an output end of the moving driving mechanism, and a notching cutter 245 installed on an output end of the notching driver 244, a blade of the notching cutter 245 is located in the dust collector 25 and protrudes into the material guiding component 23, and the notching driver 244 is used for driving the notching cutter 245 to rotate. In actual operation, the notching driver 244 drives the notching tool 245 to rotate, the moving driving mechanism drives the notching tool 245 to move to the notching position, and the rotating notching tool 245 protrudes into the material guiding assembly 23 and notches the side band in the material guiding assembly 23.

Specifically, the scoring drive 244 is a motor, and the scoring knife 245 is provided with a plurality of blades arranged in an annular array around a central axis of the scoring knife 245. The structural design improves the efficiency and quality of grooving.

In this embodiment, the material guiding assembly 23 includes a first material guiding plate 231 and a second material guiding plate 232 parallel to the first material guiding plate 231, the first material guiding plate 231 is provided with a slotted hole 233, a cutting edge of the slotted knife 245 protrudes to a position between the first material guiding plate 231 and the second material guiding plate 232 through the slotted hole 233, and the dust collector 25 is communicated with the slotted hole 233. The sideband is guided by the guide roller 21 and then enters between the first guide plate 231 and the second guide plate 232, the first guide plate 231 and the second guide plate 232 limit and guide the sideband to ensure the stability of sideband movement, and the grooving holes 233 provide an avoiding space for the cutting edge of the grooving tool 245 to ensure that the grooving tool 245 can groove the sideband, and the dust collector 25 sucks waste materials generated during grooving.

In this embodiment, the moving driving mechanism includes a longitudinal moving driving device 27 installed on the notching machine 20 and a transverse moving driving device 28 installed at the output end of the longitudinal moving driving device 27, and the notching driver 244 is installed at the output end of the transverse moving driving device 28. The longitudinal movement driving device 27 drives the grooving cutter 245 to move to a set position in a vertical direction, and the transverse movement driving device 28 drives the grooving cutter 245 to move to a set position in a horizontal direction, so that the position of the grooving cutter 245 can be accurately adjusted.

Specifically, the longitudinal movement driving device 27 includes a screw 271 rotatably disposed on the notching machine 20, a moving nut 272 threadedly connected to the screw 271, a longitudinal movement seat 273 disposed on the moving nut 272, and a driving member 274 for driving the screw 271 to rotate, and the traverse movement driving device 28 is disposed on the longitudinal movement seat 273. In actual operation, the driving element 274 drives the screw 271 to rotate, the rotating screw 271 drives the moving nut 272 to move along the screw 271, the moving nut 272 drives the longitudinal moving seat 273 to move along the length direction of the screw 271, the moving longitudinal moving seat 273 drives the traverse driving device 28 to move, and the moving traverse driving device 28 drives the notching driver 244 and the notching knife 245 to move, so as to accurately adjust the longitudinal position of the notching knife 245.

Specifically, the longitudinal moving seat 273 is slidably connected with the notching machine table 20 through the longitudinal guide pillar 275 and the longitudinal guide sleeve 276, and the longitudinal guide pillar 275 and the longitudinal guide sleeve 276 are slidably matched, so that the moving efficiency and stability of the longitudinal moving seat 273 are improved, and the notching quality is further improved; the driving member 274 is a regular polygon integrally formed with the lead screw 271, and preferably, the regular polygon is a cube or a regular hexagon. In actual operation, the driving member 274 is twisted by a wrench with a corresponding regular polygonal groove, so that the driving member 274 drives the lead screw 271 to rotate, and the longitudinal positions of the traverse driving device 28 and the grooving tool 245 can be manually adjusted.

In this embodiment, the traverse driving device 28 includes a traverse guide 281 slidably connected to the output end of the traverse driving device 27, a traverse seat 282 installed at one end of the traverse guide 281, a mounting seat 283 installed at the other end of the traverse guide 281, and a traverse driver 284 installed on the mounting seat 283 and used for driving the traverse guide 281 to move, and the notch driver 244 is installed on the traverse seat 282.

In actual operation, the traverse actuator 284 drives the traverse seat 282 to move horizontally, the traverse seat 282 is connected with the longitudinal moving seat 273 of the longitudinal moving drive device 27 through the traverse guide rod 281 in a sliding manner, so that the moving stability and efficiency of the traverse seat 282 are improved, the moving traverse seat 282 drives the notching actuator 244 and the notching knife 245 to move, the transverse position of the notching knife 245 is convenient to adjust, and the notching knife 245 is convenient to notch the side belt.

In this embodiment, the traverse actuator 284 is an air cylinder, a cylinder body of the air cylinder is installed on the installation seat 283, a piston rod of the air cylinder is connected with the longitudinal moving seat 273, a reset piece 285 for driving the transverse moving seat 282 to reset and move is arranged between the longitudinal moving seat 273 and the transverse moving seat 282, specifically, the reset piece 285 is a spring, the transverse moving seat 282 is provided with an installation column 286, the longitudinal moving seat 273 is provided with a fixing hole, one end of the spring is inserted into the fixing hole, and the other end of the spring is sleeved outside the installation column 286. During actual work, the piston rod of the air cylinder works in a telescopic mode, and the longitudinal moving seat 273 can only move in the vertical direction and cannot move horizontally any more, so that when the piston rod of the air cylinder extends, the cylinder body of the air cylinder drives the mounting seat 283 to move away from the material guide assembly 23, the moving mounting seat 283 drives the transverse moving guide rod 281 and the transverse moving seat 282 to move away from the material guide assembly 23, and the moving transverse moving seat 282 drives the notching driver 244 and the notching cutter 245 to move away from the material guide assembly 23 and compress the resetting piece 285 until the notching cutter 245 is located at a non-notching position; when the air cylinder does not work, the traverse seat 282 moves close to the material guiding assembly 23 under the resilience force of the resetting piece 285, and the air cylinder is in a retraction state, and the moving traverse seat 282 drives the grooving driver 244 and the grooving cutter 245 to move close to the material guiding assembly 23 until the grooving cutter 245 is at a grooving position.

In this embodiment, the mounting seat 283 is provided with a displacement reader 246 and a fine adjustment screw for fine adjustment of the position of the mounting seat 283, and the displacement reader 246 is used for reading the displacement of the fine adjustment screw. One end of the fine adjustment screw is threadedly coupled to the longitudinal movement base 273, and the other end of the fine adjustment screw extends through the mounting base 283 and the displacement reader 246. The fine adjustment screw rod is rotated, the fine adjustment screw rod can drive the transverse position of the mounting seat 283 to be fine adjusted, so that the transverse position of the transverse moving seat 282 is fine adjusted, the transverse position of the grooving cutter 245 is fine adjusted, the displacement reader 246 is used for reading the displacement of the fine adjustment screw rod, the moving precision of the transverse moving seat 282 is guaranteed, the transverse moving seat 282 is prevented from colliding with the longitudinal moving seat 273, and the precision and the quality of the grooving cutter 245 on the side band are guaranteed.

Specifically, the longitudinally moving seat 273, the traverse guide rod 281, the traverse seat 282 and the grooving machine 20 are respectively provided with a limit bolt 295, and the limit bolt 295 on the grooving machine 20 is located below the longitudinally moving seat 273; the limiting bolt 295 on the longitudinal moving seat 273 is used for abutting against the mounting seat 283 and limiting the transverse moving position of the mounting seat 283; the limiting bolts 295 on the traverse guide rods 281 are used for abutting against the longitudinally moving seats 273 and limiting the position of the transverse movement of the traverse guide rods 281, and the limiting bolts 295 on the traverse seats 282 are used for abutting against the longitudinally moving seats 273 and limiting the position of the longitudinal movement; the limiting bolt 295 on the notching machine 20 is used for abutting against the bottom end of the longitudinal moving seat 273 and limiting the lifting and moving position of the longitudinal moving seat.

In this embodiment, the tape storage and supply mechanism 22 includes a tape storage seat 221, two storage racks symmetrically disposed on two sides of the tape storage seat 221, and two tape releasing wheels 223 symmetrically disposed on two sides of the tape storage seat 221, wherein a plurality of tape guiding rollers 224 are disposed on two sides of the tape storage seat 221, and the plurality of tape guiding rollers 224 disposed on the same side of the tape storage seat 221 are disposed around the tape releasing wheels 223 according to the winding position of the tape. The belt storage and supply mechanism 22 with the structural design can store two rolls of the same or different side belt materials, one roll of the side belt material is in a working state, and the other roll of the side belt material is in a non-working state, so that the time for replacing the side belt material is saved, the efficiency for replacing the side belt material is improved, and the production efficiency is further improved; or the side band of a curled edge band material needs to be processed through grooving, the side band of another curled edge band material does not need to be processed through grooving, the side band material stored in different stations can be selected according to actual requirements, the application range is wide, and the practicability is high.

Preferably, both sides of the tape storage seat 221 are provided with a photoelectric switch 225 for detecting whether a side tape is present, the photoelectric switch 225 is electrically connected with a control system, and the control system is used for controlling the opening and closing of the notching and tape storage device. The side band is detected through the photoelectric switch 225, and when the photoelectric switch 225 detects that the side band exists, the notch groove belt storage device works normally; when the photoelectric switch 225 cannot detect the side band, the photoelectric switch 225 feeds back a signal to the control system, the control system gives an alarm, and the notch groove belt storage device stops working to remind an operator that the side band material is used up and needs to be replaced by a new side band material.

Specifically, the number of the guide rollers 21 is three. The side bands of the two side band materials are respectively guided by the two adjacent guide rollers 21 so as to limit and guide the side bands, and the stability and the efficiency of the side band moving are improved.

In this embodiment, a plurality of limiting wheels 29 are rotatably disposed between the discharge end of the material guiding assembly 23 and the belt feeding mechanism 26, a limiting groove 291 for limiting the side belt is circumferentially disposed on each limiting wheel 29, and preferably, the number of the limiting wheels 29 is two. One end of the side band protrudes into the limit groove 291, the limit groove 291 limits the side band, the moving side band is prevented from rotating or swinging, the moving stability of the side band is improved, and the two limit wheels 29 limit the side bands of the two winding side bands respectively.

Specifically, the grooving machine 20 goes up and down to be provided with a plurality of connecting rods 292, the grooving machine 20 is further provided with an elastic sheet 296, one end of the elastic sheet 296 is fixedly connected with the grooving machine 20, the connecting rods 292 penetrate through the other end of the elastic sheet 296, under the elastic force action of the elastic sheet 296, the connecting rods 292 are fixed at the set position of the grooving machine 20, the connecting rods 292 are arranged in one-to-one correspondence with a plurality of limiting wheels 29, and the limiting wheels 29 are arranged at the bottom end of the connecting rods 292 in a rotating manner. When the other end of the elastic sheet 296 is pressed, the elastic sheet 296 releases locking force on the connecting rod 292, the connecting rod 292 can be adjusted to move up and down, after the vertical position of the connecting rod 292 is adjusted, only the pressing force on the other end of the elastic sheet 296 needs to be released, and under the action of resilience force, the other end of the elastic sheet 296 fixes the connecting rod 292 on the grooving machine table 20 again, so that the lifting adjustment of the limiting wheel 29 is realized. Adjust spacing round 29 in the position of vertical direction through connecting rod 292, improved spacing round 29's flexibility to spacing round 29 carries on spacingly to the sideband of different specifications, and just spacing round 29 rotates and sets up in connecting rod 292, and spacing round 29 rolls with the sideband and contradicts, has reduced the friction between spacing round 29 and the sideband, reducing wear.

In this embodiment, the tape feeding mechanism 26 includes a main tape feeding roller 261 rotatably disposed on the notching machine 20, a rotating driver 262 installed on the notching machine 20 and used for driving the main tape feeding roller 261 to rotate, a sub tape feeding roller 263 slidably disposed on the notching machine 20, and a moving driver 264 installed on the notching machine 20 and used for driving the sub tape feeding roller 263 to approach or depart from the main tape feeding roller 261. The sideband enters between the main feeding roller 261 and the slave feeding roller 263 after being limited by the limiting wheel 29, the main feeding roller 261 is driven to rotate by the rotating driver 262, the slave feeding roller 263 is driven to move close to the main feeding roller 261 by the moving driver 264 until the slave feeding roller 263 pushes the sideband against the main feeding roller 261, and the sideband is conveyed by the cooperation of the main feeding roller 261 and the slave feeding roller 263, so that the sideband is pulled to move. Preferably, the rotation driver 262 is a motor, and the moving driver 264 is an air cylinder.

Specifically, the number of the slave feeding rollers 263 and the number of the moving drivers 264 are both two, the two slave feeding rollers 263 are respectively located at both sides of the master feeding roller 261, and each of the limiting wheels 29 is located between the master feeding roller 261 and the slave feeding rollers 263. The side bands of the two curled band materials respectively enter between the main band feeding roller 261 and the auxiliary band feeding roller 263 after passing through the corresponding limiting wheels 29, so that the side bands of the two curled band materials are respectively positioned at two sides of the main band feeding roller 261, and the side bands of the two curled band materials can be driven to move.

Specifically, the discharging end of the belt conveying mechanism 26 is provided with a plurality of discharging guide rollers 293, and the plurality of discharging guide rollers 293 are arranged and rotatably arranged on the notching machine 20. The two adjacent discharge guide rollers 293 guide and limit the side bands of a rolled band material, and the side bands can change the moving direction by winding the discharge guide rollers 293.

Specifically, the second material guiding plate 232 includes a fixing member 234, an elastic piece 235 and a baffle 236, the fixing member 234 is detachably mounted on the notching machine 20, one end of the elastic piece 235 is mounted on the fixing member 234, the baffle 236 is mounted on the other end of the elastic piece 235, the baffle 236 is located on one side of the elastic piece 235 close to the first material guiding plate 231, and the elastic piece 235 provides the baffle 236 with an elastic force toward the first material guiding plate 231. The sideband is located between baffle 236 and the first stock guide 231, shell fragment 235 provides an elasticity to baffle 236, make baffle 236 press the sideband on first stock guide 231, thereby make the sideband can paste the medial surface removal of first stock guide 231 all the time, with the stability that the sideband removed, and then the quality of cut groove has been improved, and because shell fragment 235 has elasticity, so the distance between baffle 236 and the first stock guide 231 can be according to the thickness of actual sideband and automatically regulated, the flexibility of baffle 236 is good, be fit for leading to the sideband of different thickness, make the application range of guide assembly 23 wide, therefore, the clothes hanger is strong in practicability.

Preferably, the bottom of the grooving machine 20 is provided with a movable caster 294 and a leveling foot pad. The leveling foot pads can support the grooving machine table 20, and when the supporting surface is a non-plane surface, the length of the leveling foot pads can be adjusted, so that the grooving machine table 20 is in a flat state, and the stability of the grooving machine table 20 is guaranteed. When the grooving machine 20 needs to be moved, the support length of the leveling foot pad is only required to be adjusted to be short, so that the plurality of movable casters 294 are all in contact with the support surface, the grooving machine 20 can be moved, and the grooving machine 20 is convenient to transfer and transport.

All the technical features in the embodiment can be freely combined according to actual needs.

The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims (10)

1. The utility model provides a notch groove storage device of bag sealer which characterized in that: comprises a notching machine table (20), at least two guide rollers (21) which are arranged in parallel and rotatably arranged on the notching machine table (20), a belt storage and supply mechanism (22) arranged at the feeding end of the guide rollers (21), a guide assembly (23) arranged at the discharging end of the guide rollers (21), a notching device (24) for notching the side belt in the guide assembly (23), a dust collector (25) for absorbing waste materials generated when the notching device (24) notches the side belt, and a belt conveying mechanism (26) arranged at the discharging end of the guide assembly (23), the belt feeding mechanism (26) is used for drawing the side belt to move, the belt storage and supply mechanism (22) is used for storing the side belt material and supplying the side belt to the guide roller (21), the notching device (24) comprises an upper notching mechanism (241) and a lower notching mechanism (242), the grooving end of the upper grooving mechanism (241) and the grooving end of the lower grooving mechanism (242) both protrude into the material guiding assembly (23).

2. The groove-carving and belt-storing device of the edge-bonding machine according to claim 1, characterized in that: the upper notching mechanism (241) and/or the lower notching mechanism (242) comprise a moving driving mechanism arranged on the notching machine table (20), a notching driver (244) arranged on the output end of the moving driving mechanism and a notching knife (245) arranged on the output end of the notching driver (244), the cutting edge of the notching knife (245) is positioned in the dust collector (25) and protrudes into the material guiding component (23), and the notching driver (244) is used for driving the notching knife (245) to rotate.

3. The groove-carving and belt-storing device of the edge-bonding machine according to claim 2, characterized in that: the material guiding assembly (23) comprises a first material guiding plate (231) and a second material guiding plate (232) arranged in parallel with the first material guiding plate (231), the first material guiding plate (231) is provided with a notch groove hole (233), the cutting edge of the notch knife (245) protrudes to the position between the first material guiding plate (231) and the second material guiding plate (232) through the notch groove hole (233), and the dust collector (25) is communicated with the notch groove hole (233).

4. The groove-carving and belt-storing device of the edge-bonding machine according to claim 2, characterized in that: the moving driving mechanism comprises a longitudinal moving driving device (27) arranged on the grooving machine table (20) and a transverse moving driving device (28) arranged at the output end of the longitudinal moving driving device (27), and the grooving driver (244) is arranged at the output end of the transverse moving driving device (28).

5. The groove-carving and belt-storing device of the edge-bonding machine according to claim 4, characterized in that: the transverse moving driving device (28) comprises a transverse moving guide rod (281) connected with the output end of the longitudinal moving driving device (27) in a sliding mode, a transverse moving seat (282) installed at one end of the transverse moving guide rod (281), an installation seat (283) installed at the other end of the transverse moving guide rod (281), and a transverse moving driver (284) installed on the installation seat (283) and used for driving the transverse moving guide rod (281) to move, wherein the grooving driver (244) is installed on the transverse moving seat (282).

6. The groove-carving and belt-storing device of the edge-bonding machine according to claim 5, characterized in that: the transverse moving driver (284) is an air cylinder, the cylinder body of the air cylinder is installed on the installation seat (283), the piston rod of the air cylinder is connected with the longitudinal moving seat (273), and a reset piece (285) used for driving the transverse moving seat (282) to reset is arranged between the longitudinal moving seat (273) and the transverse moving seat (282).

7. The groove-carving and belt-storing device of the edge-bonding machine according to claim 5, characterized in that: the mounting seat (283) is provided with a displacement reader (246) and a fine adjustment screw rod for fine adjustment of the position of the mounting seat (283), and the displacement reader (246) is used for reading the displacement of the fine adjustment screw rod.

8. The groove-carving and belt-storing device of the edge-bonding machine according to claim 1, characterized in that: the belt storage and supply mechanism (22) comprises a belt storage seat (221), two storage racks symmetrically arranged on two sides of the belt storage seat (221) and two belt releasing wheels (223) symmetrically arranged on two sides of the belt storage seat (221), a plurality of belt guide rollers (224) are arranged on two sides of the belt storage seat (221), and the plurality of belt guide rollers (224) located on the same side of the belt storage seat (221) are arranged around the belt releasing wheels (223) according to the winding position of the side belt.

9. The groove-carving and belt-storing device of the edge-bonding machine according to claim 1, characterized in that: a plurality of limiting wheels (29) are rotatably arranged between the discharge end of the material guide assembly (23) and the belt conveying mechanism (26), and limiting grooves (291) used for limiting side belts are formed in the circumferential direction of the limiting wheels (29).

10. The groove-carving and belt-storing device of the edge-bonding machine according to claim 1, characterized in that: the belt feeding mechanism (26) comprises a main belt feeding roller (261) rotatably arranged on the notching machine table (20), a rotating driver (262) used for driving the main belt feeding roller (261) to rotate, a secondary belt feeding roller (263) slidably arranged on the notching machine table (20), and a moving driver (264) which is arranged on the notching machine table (20) and used for driving the secondary belt feeding roller (263) to be close to or far away from the main belt feeding roller (261).

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