CN213170624U - Synchronous loading attachment of perpendicular many charging trays - Google Patents

Abstract

The utility model relates to a synchronous loading attachment of perpendicular many charging trays, include: carry material mechanism, carry material mechanism includes: the device comprises a movable bracket, an inflatable shaft, a plurality of loading trays and a transmission disc; the feeding machine frame is provided with a butt joint port at one side; power drive mechanism, power drive mechanism includes: the device comprises a driving motor, a gearbox, a hollow power shaft and a linkage assembly; and a material guiding mechanism. During the material loading, will remove the bracket and dock with the pay-off frame from the butt joint, make hollow power axle and physiosis axle realize power transmission through the linkage subassembly, and outwards see off the head end of label charging tray by guide mechanism, drive the rotation of physiosis axle by driving motor, can stably emit the label, because a plurality of label charging trays carry out the feed in step, the time of reloading has been prolonged, and can directly change another group of year material mechanism after the label is put, make the label free end be connected with the label end of last group year material mechanism, the change process is more swift, thereby cover mark efficiency has been improved.

Description

Synchronous loading attachment of perpendicular many charging trays

Technical Field

The utility model relates to a label charging equipment technical field, in particular to synchronous loading attachment of perpendicular many charging trays.

Background

The label needs to be sleeved outside the beverage bottle through the label sleeving machine during processing of the beverage bottle, the existing label sleeving machine supplies materials through a single label roll, the roll needs to be frequently replaced, and the label sleeving efficiency is low due to the fact that the roll is replaced and disassembled and assembled more complexly.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a synchronous loading attachment of perpendicular many charging trays has the advantage that improves cover mark efficiency.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a vertical multi-tray synchronous feeding device comprises:

carry material mechanism, carry material mechanism includes: the label roll feeding device comprises a movable bracket, an inflatable shaft rotationally assembled on the movable bracket, a plurality of material carrying trays arranged on the movable bracket at intervals in the vertical direction, and a transmission disc fixed at the top of the inflatable shaft, wherein a space for accommodating a label roll is formed between every two adjacent material carrying trays;

the feeding machine frame is provided with a butt joint port for butt joint with the movable bracket on one side;

bear in the pay-off frame is used for the drive physiosis axle pivoted power drive mechanism, power drive mechanism includes: the pneumatic transmission device comprises a driving motor, a gearbox connected to a power output shaft of the driving motor, a hollow power shaft connected to the gearbox, and a linkage assembly which is connected to the hollow power shaft in a sliding manner and used for realizing power transmission of the hollow power shaft and an inflatable shaft; and the number of the first and second groups,

bear in the material guide mechanism that one side of pay-off frame is used for exporting the label material area.

Before the label material tray is used, the material carrying tray and the label material trays are sequentially sleeved on the air expansion shaft, the head ends and the tail ends of the adjacent label material trays are sequentially connected, and the label material trays are expanded and fixed through the air expansion shaft; during the material loading, will remove the bracket and dock with the pay-off frame from the butt joint, make hollow power axle and physiosis axle realize power transmission through the linkage subassembly, and outwards see off the head end of label charging tray by guide mechanism, drive the rotation of physiosis axle by driving motor, can stably emit the label, because a plurality of label charging trays carry out the feed in step, the time of reloading has been prolonged, and can directly change another group of material loading mechanism after the label is put, make the label free end be connected with the label end of last group of material loading mechanism, can accomplish the reloading, the change process is more swift, thereby cover mark efficiency has been improved.

As a preferred aspect of the present invention, the linkage assembly includes: the feeding device comprises a mounting plate for fixing the feeding rack, a linkage cylinder fixed on the mounting plate and distributed along the vertical direction, a power transmission shaft rotatably connected with a power output shaft of the linkage cylinder and inserted in the hollow power shaft in a sliding manner, and a driving disc fixed at the lower end of the power transmission shaft and butted with the driving disc.

According to the technical scheme, the power transmission shaft is driven to be pressed downwards through the linkage air cylinder, the driving disc is connected with the transmission disc in a butt joint mode, and the driving force of the hollow power shaft can be transmitted to the air expansion shaft due to the fact that the power transmission shaft is connected with the hollow power shaft in a sliding insertion mode.

As an optimized scheme of the utility model, be equipped with a plurality of connection projections on the driving-disc, be equipped with on the driving disc with connect projection matched with locating hole.

Realize above-mentioned technical scheme, cooperate through connecting projection and location mouth, can realize that driving-disc and driving disc are connected relatively.

As an optimized scheme of the utility model, the piston rod of linkage cylinder is fixed with the connecting plate, be equipped with the bearing frame on the connecting plate, power transmission shaft with the bearing frame rotates to be connected.

According to the technical scheme, the bearing seat is conveniently and rotatably connected with the power transmission shaft.

As a preferred scheme of the utility model, guide mechanism includes: the rotary type assemble in the first guiding axle of pay-off frame, be fixed in the stock guide of pay-off frame, a plurality of rotary type assemble in the first switching-over axle of stock guide upper portion and a plurality of rotary type assemble in the second switching-over axle of stock guide lower part, the label material area is reciprocal around locating first switching-over axle and second switching-over axle.

According to the technical scheme, the free end of the label penetrates through the first guide shaft and is wound on the first reversing shaft and the second reversing shaft in a reciprocating mode, and the label is tensioned and buffered.

As an optimized scheme of the utility model, vertical direction slidingtype is equipped with the sliding seat on the stock guide, and is a plurality of second reversing shaft pivoted assembly in the sliding seat.

By the technical scheme, feeding is smooth, and label breakage caused by jumping and dragging can be avoided.

As an optimized scheme of the utility model, still be equipped with in the pay-off frame with the scarce mark brake subassembly that first guiding axle corresponds, lack mark brake subassembly and include: the feeding device comprises a feeding rack, a brake cylinder fixed on the feeding rack and a material clamping plate fixed on a piston rod of the brake cylinder, wherein the material clamping plate is arranged corresponding to the first guide shaft.

Realize above-mentioned technical scheme, put the back or when the label coil stock is put down, accessible brake cylinder drive presss from both sides the flitch and presss from both sides the label tight fixedly, conveniently connects the material adjustment.

As an optimized scheme of the utility model, still be equipped with the label in the pay-off frame and climb the pole, the lower part that the label climbed the pole is equipped with the arc and leads the portion of rising.

According to the technical scheme, when the label is released to the material tray in the middle, the label can be gradually lifted by means of the arc-shaped lifting guide part to form a path, and label breakage caused by the fact that the label and the material guide mechanism are too large in height drop and the material carrying tray rub is avoided.

As an optimized scheme of the utility model, be located in the pay-off frame one side that the label climbed the pole is equipped with the center adjusting lever, the center adjusting lever with first guiding axle is corresponding.

According to the technical scheme, when the label climbs to the material guide mechanism, the label center point can be displaced due to different folding diameters, and the label center and the first guide shaft center can be maintained at the same position through the center adjusting rod.

As an optimized scheme of the utility model, be located in the pay-off frame the stock guide with one side that first guiding axle is relative still is equipped with the second guiding axle.

According to the technical scheme, the label can be guided into the label sleeving machine more conveniently through the second guide shaft.

To sum up, the utility model discloses following beneficial effect has:

the embodiment of the utility model provides a through providing a synchronous loading attachment of perpendicular many charging trays, include: carry material mechanism, carry material mechanism includes: the label roll feeding device comprises a movable bracket, an inflatable shaft rotationally assembled on the movable bracket, a plurality of material carrying trays arranged on the movable bracket at intervals in the vertical direction, and a transmission disc fixed at the top of the inflatable shaft, wherein a space for accommodating a label roll is formed between every two adjacent material carrying trays; the feeding machine frame is provided with a butt joint port for butt joint with the movable bracket on one side; bear in the pay-off frame is used for the drive physiosis axle pivoted power drive mechanism, power drive mechanism includes: the pneumatic transmission device comprises a driving motor, a gearbox connected to a power output shaft of the driving motor, a hollow power shaft connected to the gearbox, and a linkage assembly which is connected to the hollow power shaft in a sliding manner and used for realizing power transmission of the hollow power shaft and an inflatable shaft; and the material guide mechanism is borne on one side of the feeding rack and used for guiding out the label material belt. Before use, the material loading tray and the label material discs are sequentially sleeved on the air expansion shaft, the head ends and the tail ends of the adjacent label material discs are sequentially connected, and then the label material discs are expanded and fixed through the air expansion shaft; during the material loading, will remove the bracket and dock with the pay-off frame from the butt joint, make hollow power axle and physiosis axle realize power transmission through the linkage subassembly, and outwards see off the head end of label charging tray by guide mechanism, drive the rotation of physiosis axle by driving motor, can stably emit the label, because a plurality of label charging trays carry out the feed in step, the time of reloading has been prolonged, and can directly change another group of material loading mechanism after the label is put, make the label free end be connected with the label end of last group of material loading mechanism, can accomplish the reloading, the change process is more swift, thereby cover mark efficiency has been improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

Fig. 2 is a side view of an embodiment of the present invention.

The corresponding part names indicated by the numbers and letters in the drawings:

1. a material loading mechanism; 11. moving the carriage; 12. an inflatable shaft; 13. a loading tray; 14. a drive plate; 2. a feeding frame; 21. a label climbing rod; 22. an arc-shaped guide lifting part; 23. a center adjusting lever; 3. a power drive mechanism; 31. a drive motor; 32. a gearbox; 33. a hollow power shaft; 34. a linkage assembly; 341. mounting a plate; 342. a linkage cylinder; 343. a power transmission shaft; 344. a drive disc; 345. connecting the convex columns; 346. a connecting plate; 347. a bearing seat; 4. a material guiding mechanism; 41. a first guide shaft; 42. a material guide plate; 43. a first reversing shaft; 44. a second reversing shaft; 45. a movable seat; 46. a second guide shaft; 5. a missing mark brake assembly; 51. a brake cylinder; 52. and a material clamping plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Examples

A vertical multi-tray synchronous loading device, as shown in fig. 1 and 2, comprising: a loading mechanism 1; a feeding frame 2; a power drive mechanism 3; and the material guide mechanism 4 is borne on one side of the feeding rack 2 and used for guiding out the label material belt.

Specifically, carry material mechanism 1 and include: the mobile bracket 11, the rotary type is assembled in the physiosis axle 12 of mobile bracket 11, a plurality of are laid in the material tray 13 that carries of mobile bracket 11 along vertical direction interval, and be fixed in the drive plate 14 at physiosis axle 12 top, be formed with the space that is used for supplying the label coil stock holding between the adjacent material tray 13 that carries, the bottom of mobile bracket 11 is equipped with the universal wheel, in order to make things convenient for mobile bracket 11 to remove, it establishes on physiosis axle 12 to carry material tray 13 cover, can be fixed with carrying material tray 13 and label charging tray inflation through physiosis axle 12, be equipped with the butt joint that is used for and moves carrier 11 butt joint in one side of pay-off frame 2, mobile bracket 11 can follow butt joint and pay-off frame 2 butt joint.

The power driving mechanism 3 is carried on the feeding frame 2 and used for driving the inflatable shaft 12 to rotate, and comprises: the air inflation device comprises a driving motor 31, a gearbox 32 connected to a power output shaft of the driving motor 31, a hollow power shaft 33 connected to the gearbox 32, and a linkage assembly 34 connected to the hollow power shaft 33 in a sliding mode and used for achieving power transmission of the hollow power shaft 33 and the air inflation shaft 12.

Wherein, linkage assembly 34 includes: the pneumatic conveying device comprises a mounting plate 341 for fixing the feeding rack 2, a linkage cylinder 342 fixed on the mounting plate 341 and arranged along the vertical direction, a power transmission shaft 343 rotatably connected to a power output shaft of the linkage cylinder 342 and slidably inserted in the hollow power shaft 33, and a driving disc 344 fixed at the lower end of the power transmission shaft 343 and butted with the driving disc 14, wherein the driving disc 344 is provided with a plurality of connecting convex columns 345, the driving disc 14 is provided with positioning holes matched with the connecting convex columns 345, the power transmission shaft 343 is driven to press downwards through the linkage cylinder 342, so that the connecting convex columns 345 are matched with the positioning holes, the driving disc 344 is connected with the driving disc 14 in a butting mode, and the driving force of the hollow power shaft 33 can be transmitted to the inflatable shaft 12 due to the fact that the power transmission shaft 343 is slidably inserted in.

In this embodiment, a connecting plate 346 is fixed to a piston rod of the linkage cylinder 342, a bearing seat 347 is disposed on the connecting plate 346, and the power transmission shaft 343 is rotatably connected to the bearing seat 347, and is conveniently rotatably connected to the power transmission shaft 343 through the bearing seat 347.

The material guiding mechanism 4 includes: the label feeding device comprises a first guide shaft 41 rotatably assembled on the feeding rack 2, a material guide plate 42 fixed on the feeding rack 2, a plurality of first reversing shafts 43 rotatably assembled on the upper portion of the material guide plate 42, and a plurality of second reversing shafts 44 rotatably assembled on the lower portion of the material guide plate 42, wherein label material belts are wound on the first reversing shafts 43 and the second reversing shafts 44 in a reciprocating manner, free ends of labels pass through the first guide shaft 41 and are wound on the first reversing shafts 43 and the second reversing shafts 44 in a reciprocating manner, so that the labels are tensioned and buffered, a movable seat 45 is slidably assembled on the material guide plate 42 in the vertical direction, and a plurality of second reversing shafts 44 are rotatably assembled on the movable seat 45, so that feeding is smoother, and label breakage caused by jumping and pulling can be avoided.

A label climbing rod 21 is further arranged on the feeding rack 2, an arc-shaped guide lifting part 22 is arranged at the lower part of the label climbing rod 21, when a label is released to a material tray in the middle, a path is formed by the arc-shaped guide lifting part 22 to achieve a gradual lifting effect, and label breakage caused by friction between the label and the material guide mechanism 4 due to overlarge height drop and the material carrying tray 13 is avoided; meanwhile, a center adjusting rod 23 is arranged on one side of the feeding rack 2, which is located on the label climbing rod 21, the center adjusting rod 23 corresponds to the first guide shaft 41, when the label climbs to the material guiding mechanism 4, the center point of the label can be displaced due to different folding diameters, and the center of the label and the center of the first guide shaft 41 can be maintained at the same position through the center adjusting rod 23.

Further, a second guide shaft 46 is further provided on the feeder frame 2 on a side of the material guide plate 42 opposite to the first guide shaft 41, and the label can be more conveniently guided into the labeler through the second guide shaft 46.

Further, still be equipped with the scarce mark brake assembly 5 that corresponds with first guiding axle 41 on pay-off frame 2, lack mark brake assembly 5 and include: the feeding device comprises a brake cylinder 51 fixed on the feeding rack 2 and a material clamping plate 52 fixed on a piston rod of the brake cylinder 51, wherein the material clamping plate 52 is arranged corresponding to the first guide shaft 41; after the label coil stock was put or when marking absolutely, accessible brake cylinder 51 drive presss from both sides flitch 52 with the label clamp tightly fixed, conveniently connects the material adjustment.

Before use, the material loading tray 13 and the label material discs are sequentially sleeved on the air expansion shaft 12, the head ends and the tail ends of the adjacent label material discs are sequentially connected, and then the label material discs are expanded and fixed through the air expansion shaft 12; during the material loading, will remove bracket 11 and dock with the pay-off frame 2 from butt joint, make hollow power shaft 33 and physiosis axle 12 realize power transmission through linkage assembly 34, and outwards see off the head end of label charging tray by guide mechanism 4, drive physiosis axle 12 by driving motor 31 and rotate, can stably emit the label, because a plurality of label charging trays are synchronous to be supplied, the time of reloading has been prolonged, and can directly change another group and carry material mechanism 1 after the label is put, make the label free end be connected with the label end of last a group year material mechanism 1, can accomplish the reloading, the change process is more swift, thereby cover mark efficiency has been improved.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a synchronous loading attachment of perpendicular many charging trays which characterized in that includes:

carry material mechanism, carry material mechanism includes: the label roll feeding device comprises a movable bracket, an inflatable shaft rotationally assembled on the movable bracket, a plurality of material carrying trays arranged on the movable bracket at intervals in the vertical direction, and a transmission disc fixed at the top of the inflatable shaft, wherein a space for accommodating a label roll is formed between every two adjacent material carrying trays;

the feeding machine frame is provided with a butt joint port for butt joint with the movable bracket on one side;

bear in the pay-off frame is used for the drive physiosis axle pivoted power drive mechanism, power drive mechanism includes: the pneumatic transmission device comprises a driving motor, a gearbox connected to a power output shaft of the driving motor, a hollow power shaft connected to the gearbox, and a linkage assembly which is connected to the hollow power shaft in a sliding manner and used for realizing power transmission of the hollow power shaft and an inflatable shaft; and the number of the first and second groups,

bear in the material guide mechanism that one side of pay-off frame is used for exporting the label material area.

2. The vertical multi-tray synchronous loading device according to claim 1, wherein the linkage assembly comprises: the feeding device comprises a mounting plate for fixing the feeding rack, a linkage cylinder fixed on the mounting plate and distributed along the vertical direction, a power transmission shaft rotatably connected with a power output shaft of the linkage cylinder and inserted in the hollow power shaft in a sliding manner, and a driving disc fixed at the lower end of the power transmission shaft and butted with the driving disc.

3. The vertical multi-tray synchronous feeding device according to claim 2, wherein the driving plate is provided with a plurality of connecting convex columns, and the driving plate is provided with positioning holes matched with the connecting convex columns.

4. The vertical multi-tray synchronous feeding device according to claim 2 or 3, wherein a connecting plate is fixed on a piston rod of the linkage cylinder, a bearing seat is arranged on the connecting plate, and the power transmission shaft is rotatably connected with the bearing seat.

5. The vertical multi-tray synchronous feeding device according to claim 1, wherein the material guiding mechanism comprises: the rotary type assemble in the first guiding axle of pay-off frame, be fixed in the stock guide of pay-off frame, a plurality of rotary type assemble in the first switching-over axle of stock guide upper portion and a plurality of rotary type assemble in the second switching-over axle of stock guide lower part, the label material area is reciprocal around locating first switching-over axle and second switching-over axle.

6. The vertical multi-tray synchronous feeding device according to claim 5, wherein the material guiding plate is vertically slidably assembled with a movable seat, and a plurality of second reversing shafts are rotatably assembled on the movable seat.

7. The vertical multi-tray synchronous feeding device according to claim 5 or 6, wherein the feeding rack is further provided with a label-lacking brake assembly corresponding to the first guide shaft, and the label-lacking brake assembly comprises: the feeding device comprises a feeding rack, a brake cylinder fixed on the feeding rack and a material clamping plate fixed on a piston rod of the brake cylinder, wherein the material clamping plate is arranged corresponding to the first guide shaft.

8. The vertical multi-tray synchronous feeding device as claimed in claim 7, wherein a label climbing rod is further arranged on the feeding rack, and an arc-shaped guide lifting part is arranged at the lower part of the label climbing rod.

9. The vertical multi-tray synchronous feeding device according to claim 8, wherein a centering rod is provided on the feeding frame at one side of the label climbing rod, and the centering rod corresponds to the first guide shaft.

10. The vertical multi-tray synchronous feeding device according to claim 7, wherein a second guide shaft is further provided on the feeding frame at a side of the guide plate opposite to the first guide shaft.

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