CN216762346U - Surrounding strip flanging conveying mechanism - Google Patents

Abstract

The utility model discloses a surrounding strip flanging conveying mechanism which comprises a conveying device, a surrounding strip flanging assembly, a positioning device and a material pressing adjusting roller, wherein the conveying device is arranged on the surrounding strip flanging assembly; the conveying device is used for conveying the partially attached raw materials of the inner box plate and the facial tissue plate; the foxing flanging assembly comprises a pressing device and a flanging device which are respectively arranged on two sides of the conveying device, the pressing device is used for pressing raw materials of the inner box plate and the face tissue plate, and the flanging device is used for flanging and attaching the extending edge of the face tissue plate to the inner box plate; the positioning device is used for assisting the conveying device to convey the raw materials of the inner box plate and the surface paper plate to the position corresponding to the foxing flanging assembly; the material pressing adjusting roller is arranged at the feeding end of the conveying device. The foxing flanging conveying mechanism aims to improve the flanging processing quality and the processing efficiency of the foxing of the inner box plate and the tissue plate by utilizing a mechanical automation device.

Description

Surrounding strip flanging conveying mechanism

Technical Field

The application relates to the technical field of automatic packaging machinery, in particular to a foxing flanging conveying mechanism.

Background

Referring to fig. 1 and 2, in order to improve the appearance and/or improve the mutual covering accuracy of the upper cover and the lower cover of the packing box and prevent dislocation, an inner box is arranged in the packing box, and the inner box assembled by an inner box plate 7 and a surface paper plate 8 is called a frame enclosing box. The surface cardboard 8 generally serves as a decoration, and the inner box board 7 is made of a rigid cardboard and serves as a support. The surface paper board 8 is bonded with one side of the inner box board 7 in advance by glue and is a surrounding strip flanging raw material. The surface paper board 8 is provided with an extending edge 810 which is more than the outline range of the inner box board 7, the extending edge 810 is positioned on the side edge of the length direction of the inner box board 7, the extending edge 810 and/or the inner box board 7 are/is coated with glue in advance, the extending edge 810 is turned over to be glued with the other side of the inner box board 7, and the extending edge 810 covers the side edge of the inner box board 7 to form a surrounding strip, so that the surrounding strip becomes a raw material for subsequent processing of the surrounding frame box.

At present, the inner box plate 7 and the surface paper plate 8 are subjected to raw material surrounding strip flanging processing, and the defects of low operation efficiency, easy occurrence of deviation and unstable forming quality exist due to manual operation.

Disclosure of Invention

The utility model mainly aims at the problems and provides a foxing flanging conveying mechanism which aims to improve the flanging processing quality and the processing efficiency of the foxing of inner box plates and face paper plates by using a mechanical automation device.

In order to achieve the purpose, the utility model provides a foxing flanging conveying mechanism, which comprises: the conveying device is used for conveying the partially attached raw materials of the inner box plate and the facial tissue plate;

the surrounding strip flanging assembly comprises a pressing device and a flanging device which are respectively arranged on two sides of the conveying device, the pressing device is used for pressing raw materials of the inner box plate and the face tissue plate, and the flanging device is used for attaching the extending edge of the face tissue plate to the flanging of the inner box plate;

the positioning device is used for assisting the conveying device to convey the raw materials of the inner box plate and the surface paper plate to the position corresponding to the foxing flanging component;

the material pressing adjusting roller is arranged at the feeding end of the conveying device.

Furthermore, the pressing device is provided with a first support frame, a first driving cylinder arranged on the first support frame, and a pressing plate arranged at the power output end of the first driving cylinder;

the flanging device is provided with a second support frame, a second driving air cylinder arranged on the second support frame and a push plate arranged at the power output end of the second driving air cylinder;

the pressing plate is provided with a first contraposition part which is similar to the edge of the inner box plate, the push plate is provided with a second contraposition part which is correspondingly matched with the first contraposition part, and the flanging device is also provided with a first driving device which drives the second supporting frame to enable the push plate to move relative to the pressing plate.

Furthermore, the pressure plate is detachably connected with the power output end of the first driving cylinder; the push plate is detachably connected with the power output end of the second driving cylinder.

Further, the pressing device is provided with a second driving device which drives the first support frame to enable the pressing plate to move along the width direction of the conveying device.

Further, the device also comprises a supporting platform; the conveying device is arranged on the upper end surface of the supporting platform; the upper end surface of the supporting platform is provided with a linear slide rail; the first driving device is provided with a first sliding seat in sliding connection with the linear sliding rail and a first power cylinder for driving the first sliding seat to move along the linear sliding rail; the second driving device is provided with a second sliding seat in sliding connection with the linear sliding rail and a second power cylinder for driving the second sliding seat to move along the linear sliding rail; the second support frame is connected with the first sliding seat, and the first support frame is connected with the second sliding seat.

Furthermore, supporting platform is equipped with the activity and leads to the groove, first power cylinder, second power cylinder all install in terminal surface under the supporting platform, first slide, second slide stretch into the activity lead to the groove respectively with first power cylinder power take off end, second power cylinder power take off end are connected.

Furthermore, the positioning device comprises a mounting frame arranged on the supporting platform or the conveying device, a third driving cylinder arranged on the mounting frame, and a positioning plate arranged at the power output end of the third driving cylinder, wherein the positioning plate is used for abutting against and positioning the side edges of the inner box plate and the raw material of the tissue plate, so that the inner box plate and the raw material of the tissue plate correspond to the pressing device and the flanging device.

Furthermore, the positioning device also comprises a positioning guide plate arranged on the first support frame.

Further, conveyor is the belt feeder that induced drafts, the belt feeder that induced drafts includes driving motor, driving belt, driving roller, convulsions box, driving belt be equipped with the hole of inhaling that convulsions box corresponds.

Furthermore, the material pressing adjusting roller comprises an adjusting screw, a supporting shaft, a pressing roller sleeved with the supporting shaft and an adjusting frame arranged on the air suction belt conveyor; the adjusting bracket is provided with an adjusting groove, the two ends of the supporting shaft penetrate through the adjusting groove, and the adjusting screw penetrates through the adjusting bracket and extends into the adjusting groove to be connected with the supporting shaft through threads

Compared with the prior art, the foxing flanging conveying mechanism provided by the utility model can be used for pre-adjusting the distance between the material pressing adjusting roller arranged at the feeding end of the conveying device and the transmission belt of the belt conveyor, so that the partially attached raw materials of the inner box plate and the surface paper plate entering from the feeding end obtain proper pressing force, the raw materials are prevented from swinging in the conveying process, and the feeding stability is improved. Box board, surface tissue board raw materials correspond with foxing turn-ups subassembly position in promoting through positioner, and box board, surface tissue board raw materials in the press device supports to press, fixes, prevent that box board, surface tissue board raw materials from removing in, and turn-ups device promotes processingquality with the side of stretching out of surface tissue board and the laminating of interior box board turn-ups. The conveying device is used for conveying the inner box plate and the surface paper plate raw materials to the surrounding strip flanging assembly, is a processing platform for flanging the inner box plate and the surface paper plate raw material surrounding strip by the surrounding strip flanging assembly, can convey the workpiece after the surrounding strip flanging away from a station of the surrounding strip flanging assembly, facilitates processing of the next workpiece, is centralized with the processing device, and avoids the situation that the workpiece is loaded and unloaded by a plurality of conveying devices, so that the production efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of an inner box plate and a face tissue plate in a bonding state and an exploded state.

FIG. 2 is a schematic view of the elongated edge of the top paperboard being hemmed and attached to the inner box panel to form the foxing.

Fig. 3 is a schematic structural diagram of a foxing flanging conveying mechanism of the present application.

Fig. 4 is a structural schematic diagram of a foxing flanging conveying mechanism of the present application.

Fig. 5 is a schematic structural diagram of a foxing flanging conveying mechanism of the present application.

Fig. 6 is a schematic structural diagram of a foxing flanging conveying mechanism of the present application.

Fig. 7 is a schematic structural diagram of a foxing flanging conveying mechanism of the present application.

Reference numerals shown in the drawings: 1. a conveying device; 110. a drive motor; 120. a drive belt; 121. sucking holes; 130. a driving roller; 140. an air draft box; 2. the surrounding strip flanging component; 210. a pressing device; 211. a first support frame; 212. a first driving cylinder; 213. pressing a plate; 2131. a first alignment portion; 214. a second driving device; 2141. a second slide carriage; 2142. a second power cylinder; 220. a flanging device; 221. a second support frame; 222. a second driving cylinder; 223. pushing a plate; 2231. a second aligning part; 224. a first driving device; 2241. a first slider; 2242. a first power cylinder; 3. a positioning device; 310. a mounting frame; 320. a third driving cylinder; 330. positioning a plate; 340. positioning a guide plate; 4. a material pressing adjusting roller; 410. an adjusting screw; 420. a support shaft; 430. a compression roller; 440. an adjusting bracket; 441. an adjustment groove; 5. a support platform; 510. a movable through groove; 6. a linear slide rail; 7. an inner box plate; 8. a surface paper board; 810. and (6) extending the edge.

Detailed Description

Referring to fig. 1 to 7, the present embodiment provides a foxing cuff conveying mechanism, including: the device comprises a conveying device 1, a surrounding strip flanging component 2, a positioning device 3 and a material pressing adjusting roller 4;

the conveying device 1 is used for conveying partially bonded raw materials of the inner box plate and the tissue plate;

the foxing flanging component 2 comprises a pressing device 210 and a flanging device 220 which are respectively arranged at two sides of the conveying device 1, the pressing device 210 is used for pressing raw materials of the inner box plate and the face tissue plate, and the flanging device 220 is used for flanging and jointing the extending edge of the face tissue plate with the inner box plate;

the positioning device 3 is used for assisting the conveying device 1 to convey the raw materials of the inner box plate and the surface paper plate to the position corresponding to the foxing flanging assembly 2;

the material pressing adjusting roller 4 is arranged at the feeding end of the conveying device 1.

The conveying device 1 can convey the partially attached inner box plate and surface paper plate raw materials to the position corresponding to the foxing flanging assembly 2 from the feeding end for the belt conveyor, and in order to improve the feeding stability, the distance between a material pressing adjusting roller 4 arranged at the feeding end of the conveying device 1 and the belt conveyor of the belt conveyor is adjusted in advance, so that the partially attached inner box plate and surface paper plate raw materials entering from the feeding end obtain proper pressing force, and the raw materials are prevented from swinging in the conveying process.

Promote interior box board, surface tissue board raw materials and foxing turn-ups subassembly 2 positions through positioner 3 and correspond, then press device 210 supports and presses interior box board, surface tissue board raw materials, fixes, prevents interior box board, surface tissue board raw materials and removes, and turn-ups device 220 promotes processingquality with the side of stretching out of surface tissue board and the laminating of interior box board turn-ups.

Conveying device 1 both had been used for carrying interior box board, surface paper board raw materials to foxing turn-ups subassembly 2, and the inside box board of foxing turn-ups subassembly 2, the turn-ups of surface paper board raw materials foxing platform again can leave foxing turn-ups subassembly 2 stations with carrying the work piece after the foxing turn-ups, makes things convenient for the processing of next work piece, and feeding device and processingequipment concentrate the setting, have avoided the work piece to utilize a plurality of transporters to carry out the material loading, the turnover of unloading has promoted production efficiency.

Referring to fig. 1-6, the pressing device 210 includes a first supporting frame 211, a first driving cylinder 212 disposed on the first supporting frame 211, and a pressing plate 213 disposed on a power output end of the first driving cylinder 212;

the flanging device 220 is provided with a second support frame 221, a second driving cylinder 222 arranged on the second support frame 221, and a push plate 223 arranged on the power output end of the second driving cylinder 222;

the pressing plate 213 has a first positioning portion 2131 fitting the edge of the inner box plate, the pushing plate 223 has a second positioning portion 2231 corresponding to the first positioning portion 2131, and the turning device 220 further has a first driving device 224 driving the second supporting frame 221 to move the pushing plate 223 relative to the pressing plate 213.

The surrounding strip flanging component 2 specifically comprises the extending edge of the surface paper board and the realization scheme of the flanging fitting of the inner box board: the pressing device 210 arranged on one side of the conveying device 1 operates, and the first driving cylinder 212 arranged on the first supporting frame 211 drives the pressing plate 213 to press and fix the raw materials of the inner box plate and the tissue plate which are positioned on the conveying end face of the conveying device 1.

Then the second driving cylinder 222 drives the push plate 223 to move and lift, the lifting height distance approximately corresponds to the thickness of the inner box plate, meanwhile, the first driving device 224 drives the second supporting frame 221, so that the second positioning portion 2231 of the push plate 223 is aligned with the first positioning portion 2131 of the pressing plate 213, in the process, the extending edge of the surface paper plate is driven by the push plate 223 to move and change in flanging and fitting with the inner box plate, and the side edge of the inner box plate is wrapped by the surface paper plate to form a surrounding strip.

Referring to fig. 4 and 6, the pressing plate 213 is detachably connected to the power output end of the first driving cylinder 212; the push plate 223 is detachably connected with the power output end of the second driving cylinder 222.

When the mechanism is used for flanging, enclosing and attaching raw materials of inner box plates and tissue plates with different specifications, only the pressing plate 213 of the first positioning part 2131 which is similar to the edge of the inner box plate needs to be replaced, and the push plate 223 of the second positioning part 2231 which is correspondingly matched with the first positioning part 2131 is arranged, so that the universality of the mechanism is improved. Preferably, the pressure plate 213 is connected with the power output end of the first driving cylinder 212 by a screw; the push plate 223 is connected with the power output end of the second driving cylinder 222 by a screw.

Referring to fig. 4-6, the pressing device 210 has a second driving device 214 for driving the first supporting frame 211 to move the pressing plate 213 along the width direction of the conveying device 1.

When the raw materials of the inner box plate and the face tissue plate with different widths are processed to be flanged, the second driving device 214 drives the first supporting frame 211 to move and be matched with the width of the inner box plate, so that when the pressing plate 213 is pressed against the raw materials of the inner box plate and the face tissue plate, the first positioning part 2131 which is in a shape similar to the edge of the inner box plate can correspond to the edge of the inner box plate, and the processing universality of the equipment is improved.

Referring to fig. 3, 4 and 6, the present invention further includes a supporting platform 5; the conveying device 1 is arranged on the upper end surface of the supporting platform 5; the upper end surface of the supporting platform 5 is provided with a linear slide rail 6; the first driving device 224 is provided with a first slide seat 2241 connected with the linear slide rail 6 in a sliding manner, and a first power cylinder 2242 for driving the first slide seat 2241 to move along the linear slide rail 6; the second driving device 214 is provided with a second sliding seat 2141 connected with the linear slide rail 6 in a sliding manner, and a second power cylinder 2142 driving the second sliding seat 2141 to move along the linear slide rail 6; the second support frame 221 is connected to the first slide 2241, and the first support frame 211 is connected to the second slide 2141.

Referring to fig. 6, the supporting platform 5 is provided with a movable through slot 510, the first power cylinder 2242 and the second power cylinder 2142 are both installed on the lower end surface of the supporting platform 5, and the first slide 2241 and the second slide 2141 extend into the movable through slot 510 to be respectively connected with the power output end of the first power cylinder 2242 and the power output end of the second power cylinder 2142.

The structure of the mechanism is simpler and more compact due to the design, the first power cylinder 2242 and the second power cylinder 2142 which respectively drive the first support frame 211 and the second support frame 221 to move can be arranged on the lower end face of the support platform 5 by arranging the movable through groove 510, the area of the upper end face of the support platform 5 for arranging all the components is reduced, and the occupied space is saved.

Referring to fig. 3-7, the positioning device 3 includes a mounting frame 310 mounted on the supporting platform 5 or the conveying device 1, a third driving cylinder 320 disposed on the mounting frame 310, and a positioning plate 330 disposed at a power output end of the third driving cylinder 320, where the positioning plate 330 is used for abutting against and positioning side edges of the inner box plate and the tissue plate raw materials, so that the inner box plate and the tissue plate raw materials correspond to the pressing device 210 and the flanging device 220.

The positioning device 3 can be erected on the conveying device 1 or the supporting platform 5 through the mounting frame 310, the positioning device 3 specifically drives the cylinder 320 to drive the positioning plate 330 to move towards the end face of the conveying device 1 supporting the inner box plate and the face tissue plate raw material by the third driving cylinder arranged on the mounting frame 310, the side edges of the partially attached inner box plate and the face tissue plate raw material are supported by the positioning plate 330 to be positioned, and the positioning device corresponds to the pressing device 210 and the flanging device 220. Preferably, the positioning plate 330 is L-shaped and abuts against the side edges of the inner box plate in the length direction and the width direction.

After the flanging device 220 completes flanging the extending edge of the facial tissue plate to the inner box plate, the third driving cylinder 320 drives the positioning plate 330 to cancel the abutting positioning of the raw materials of the inner box plate and the facial tissue plate, the first driving cylinder 212 of the pressing device 210 carries the pressing plate 213 to ascend, and the flanging device 220 resets, so as to facilitate the processing of the next workpiece.

Referring to fig. 3-7, the positioning device 3 further includes a positioning guide plate 340 disposed on the first supporting frame 211.

The positioning guide plate 340 is used for abutting against the side edge of the inner box plate in the other length direction and is matched with the positioning plate 330; when inner box plates with different widths are processed, the second driving device 214 drives the first supporting frame 211 to move along the width direction of the conveying device 1, namely the width direction of the width of the inner box plates is matched with the width of the inner box plates, so that the processing universality of the equipment is improved.

Referring to fig. 3, 5 and 7, the conveying device 1 is an air suction belt conveyor, which includes a driving motor 110, a driving belt 120, a driving roller 130 and an air suction box 140, and the driving belt 120 is provided with suction holes 121 corresponding to the air suction box 140.

Compared with a common belt conveyor, the air suction belt conveyor can utilize the suction holes 121 which are arranged on the air suction box 140 and the transmission belt 120 and correspond to the air suction box 140 to adsorb and fix raw materials of the inner box plate and the face tissue plate, so that the movement of the raw materials of the inner box plate and the face tissue plate is prevented, and the processing precision is low. In addition, the air draft box 140 also supports the pressing plate 213 of the pressing device 210 when pressing the raw materials of the inner box plate and the tissue plate.

Referring to fig. 3, 5 and 7, the nip adjusting roller 4 includes an adjusting screw 410, a supporting shaft 420, a pressing roller 430 sleeved on the supporting shaft 420, and an adjusting frame 440 mounted on the suction belt conveyor; the adjusting bracket 440 is provided with an adjusting groove 441, the two ends of the supporting shaft 420 penetrate through the adjusting groove 441, and the adjusting screw 410 penetrates through the adjusting bracket 440 and extends into the adjusting groove 441 to be in threaded connection with the supporting shaft 420.

The distance between the press roller 430 and the transmission belt 120 is adjusted by screwing the adjusting screw 410, so that the partially attached raw materials of the inner box plate and the tissue plate entering from the feeding end obtain proper pressing force, and the raw materials are prevented from swinging in the conveying process.

Claims (10)

1. The utility model provides a foxing turn-ups conveying mechanism which characterized in that includes:

the conveying device is used for conveying the partially attached raw materials of the inner box plate and the facial tissue plate;

the surrounding strip flanging assembly comprises a pressing device and a flanging device which are respectively arranged on two sides of the conveying device, the pressing device is used for pressing raw materials of the inner box plate and the face tissue plate, and the flanging device is used for attaching the extending edge of the face tissue plate to the flanging of the inner box plate;

the positioning device is used for assisting the conveying device to convey the raw materials of the inner box plate and the surface paper plate to the position corresponding to the foxing flanging component;

and the material pressing adjusting roller is arranged at the feeding end of the conveying device.

2. The foxing flanging conveying mechanism according to claim 1, wherein the pressing device is provided with a first support frame, a first driving cylinder arranged on the first support frame, and a pressing plate arranged at a power output end of the first driving cylinder;

the flanging device is provided with a second support frame, a second driving air cylinder arranged on the second support frame and a push plate arranged at the power output end of the second driving air cylinder;

the pressing plate is provided with a first contraposition part which is similar to the edge of the inner box plate, the push plate is provided with a second contraposition part which is correspondingly matched with the first contraposition part, and the flanging device is also provided with a first driving device which drives the second supporting frame to enable the push plate to move relative to the pressing plate.

3. The foxing flanging conveying mechanism according to claim 2, characterized in that the pressure plate is detachably connected with the power output end of the first driving cylinder; the push plate is detachably connected with the power output end of the second driving cylinder.

4. The foxing cuff conveying mechanism of claim 2 wherein the pressing device is provided with a second driving device for driving the first support frame to move the pressing plate along the width direction of the conveying device.

5. The foxing flanging conveying mechanism according to claim 4, further comprising a supporting platform; the conveying device is arranged on the upper end surface of the supporting platform; the upper end surface of the supporting platform is provided with a linear slide rail; the first driving device is provided with a first sliding seat in sliding connection with the linear sliding rail and a first power cylinder for driving the first sliding seat to move along the linear sliding rail; the second driving device is provided with a second sliding seat in sliding connection with the linear sliding rail and a second power cylinder for driving the second sliding seat to move along the linear sliding rail; the second support frame is connected with the first sliding seat, and the first support frame is connected with the second sliding seat.

6. The foxing flanging conveying mechanism according to claim 5, wherein the supporting platform is provided with a movable through groove, the first power cylinder and the second power cylinder are both mounted on the lower end face of the supporting platform, and the first sliding seat and the second sliding seat extend into the movable through groove and are respectively connected with the power output end of the first power cylinder and the power output end of the second power cylinder.

7. The foxing flanging conveying mechanism according to claim 5, wherein the positioning device comprises a mounting frame mounted on the supporting platform or the conveying device, a third driving cylinder arranged on the mounting frame, and a positioning plate arranged at a power output end of the third driving cylinder, wherein the positioning plate is used for abutting against and positioning side edges of raw materials of the inner box plate and the surface paper plate, so that the raw materials of the inner box plate and the surface paper plate correspond to the pressing device and the flanging device.

8. The foxing cuff conveying mechanism of claim 7 wherein the positioning device further comprises a positioning guide plate provided on the first support frame.

9. The foxing flanging conveying mechanism according to claim 1, wherein the conveying device is an air suction belt conveyor, the air suction belt conveyor comprises a driving motor, a transmission belt, a transmission roller and an air suction box, and the transmission belt is provided with a suction hole corresponding to the air suction box.

10. The foxing flanging conveying mechanism according to claim 9, wherein the material pressing adjusting roller comprises an adjusting screw, a supporting shaft, a pressing roller sleeved with the supporting shaft and an adjusting frame arranged on the air suction belt conveyor; the adjusting frame is provided with an adjusting groove, the two ends of the supporting shaft penetrate through the adjusting groove, and the adjusting screw penetrates through the adjusting frame and extends into the adjusting groove to be connected with the supporting shaft in a threaded mode.

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