CN217100826U - Labeling machine - Google Patents

Abstract

The utility model provides a paper mould labeling device, which comprises a working platform, a paper mould feeding device, a labeling mechanism, a paper mould output mechanism and a paper mould conveying mechanism; a power drive is arranged on the frame, a first transmission mechanism is arranged between the power drive and the paper mold feeding device, and a second transmission mechanism is arranged between the power drive and the paper mold conveying mechanism; the first transmission mechanism is provided with a tensioning mechanism, the second transmission mechanism comprises a worm and gear transmission box and a power transmission mechanism, the power transmission mechanism is arranged between the power drive and the worm and gear transmission box, and the worm and gear transmission box is arranged between the power transmission mechanism and the paper mold conveying mechanism. The utility model discloses a transport and the material loading synchronism of paper matrix among the paper matrix labeling device are better, let the transport of paper matrix have the effect of auto-lock moreover to indirect pay-off to the paper matrix carries out the auto-lock, lets the material loading of paper matrix and transport more reliable.

Description

Labeling machine

Technical Field

The utility model belongs to paper mould packing apparatus for producing field especially relates to a labeller.

Background

The paper pulp molding is a paper product with a certain shape, which is prepared by using waste paper as a raw material through a plurality of processes of pulping, adsorption molding, drying and shaping, appearance treatment (printing, film coating, labeling and the like), and the like. The utility model discloses a content.

The prior art is as Chinese patent application No. CN201922345523.0, published under the name of 2019.12.23, which discloses a paper mold labeling device, comprising a working platform, a labeling mechanism, a paper mold output mechanism and a paper mold conveying mechanism, wherein the working platform is provided with an input station, a labeling station and an output station, the input station of the working platform is used for being connected with an external paper mold input device, the labeling mechanism is arranged on the labeling station, and the paper mold output mechanism is arranged on the output station; the paper mold conveying mechanism comprises a rotary driving device and a rotary table, the rotary table is rotatably arranged on the working platform, a placing seat is arranged on the rotary table, and the rotary driving device is used for driving the rotary table to rotate so that the placing seat can be sequentially aligned with an input station, a labeling station and an output station. The utility model discloses a paper mould pastes mark device sets up a plurality of processing stations on same work platform, and sets up the carousel that has the seat of placing on work platform, makes when the carousel is rotatory place the seat and counterpoint each station in proper order to reduce the shared production space of equipment, but lack outside paper mould input device's connection structure, how solve the high-efficient pay-off of paper mould and get into work platform and how to improve the cooperation of each mechanism on the work platform and be worth us and study.

Disclosure of Invention

An object of the utility model is to provide a labeller utilizes the utility model discloses a structure lets the transport and the material loading synchronism of paper membrane better, lets the transport of paper membrane have the effect of auto-lock moreover to indirect pay-off to the paper membrane carries out the auto-lock, lets the material loading of paper membrane and transport more reliable.

In order to achieve the purpose, the labeling machine comprises a rack, a paper mold feeding device, a labeling mechanism, a paper mold output mechanism and a paper mold conveying mechanism, wherein a working platform is arranged on the rack, an input station, a labeling station and an output station are arranged on the working platform, the paper mold feeding device is arranged on the input station, the labeling mechanism is arranged on the labeling station, and the paper mold output mechanism is arranged at the output station; a power drive is arranged on the frame, a first transmission mechanism is arranged between the power drive and the paper mold feeding device, and a second transmission mechanism is arranged between the power drive and the paper mold conveying mechanism; a tensioning mechanism is arranged on the first transmission mechanism; the second transmission mechanism comprises a worm and gear transmission box and a power transmission mechanism, the power transmission mechanism is arranged between the power drive and the worm and gear transmission box, and the worm and gear transmission box is arranged between the power transmission mechanism and the paper mold conveying mechanism.

According to the arrangement, the power drive is arranged on the rack, the first transmission mechanism is arranged between the power drive and the paper mold feeding device, the second transmission mechanism is arranged between the power drive and the paper mold conveying mechanism, and the tensioning mechanism is arranged on the first transmission mechanism; the second transmission mechanism comprises a worm and gear transmission case and a power transmission mechanism, the power transmission mechanism is arranged between the power drive and the worm and gear transmission case, the worm and gear transmission case is arranged between the power transmission mechanism and the paper mold conveying mechanism, so that the conveying and feeding synchronism of the paper mold is better, the conveying of the paper mold has the self-locking effect, the feeding of the paper mold is indirectly self-locked, and the feeding and conveying of the paper mold are more reliable.

Further, the power drive is a motor.

With the above arrangement, the power output is made linear and smooth by using the motor as the power drive.

Furthermore, the first transmission mechanism comprises a first chain wheel, a first transmission shaft, a second chain wheel, a third chain wheel, a second transmission shaft, a fourth chain wheel, a first chain and a second chain; the first chain wheel is installed on power drive, and first transmission shaft is installed on paper mould loading attachment, and second sprocket and third sprocket are installed on first transmission shaft, and the second transmission shaft is installed on paper mould loading attachment, and the fourth sprocket is installed on the second transmission shaft, and first chain cover is between first sprocket and second sprocket, and the second chain cover is between third sprocket and fourth sprocket, and second transmission shaft drive paper mould loading attachment.

Above setting for power drive passes through first sprocket, first transmission shaft, second sprocket, third sprocket, second transmission shaft, fourth sprocket, first chain and the kinetic energy transmission of second chain to paper matrix loading attachment.

Further, the power transmission mechanism comprises a fifth chain wheel, a third transmission shaft, a sixth chain wheel and a third chain; the fifth chain wheel is arranged on the power drive, the third transmission shaft is arranged on the rack, the sixth chain wheel is arranged on the third transmission shaft, the third chain is sleeved between the fifth chain wheel and the sixth chain wheel, and the third transmission shaft is connected with the worm gear transmission box.

Through the arrangement, kinetic energy of the power transmission mechanism is transmitted to the worm and gear transmission box through the fifth chain wheel, the third transmission shaft, the sixth chain wheel and the third chain.

Furthermore, straining device include tensioning axle and tensioning sprocket, the tensioning axle is installed on paper matrix loading attachment, tensioning sprocket installs on the tensioning axle, first chain is used in on tensioning sprocket.

Above setting is installed on paper former loading attachment's bearing through the tensioning axle, and the tensioning sprocket is installed on the tensioning axle, and first chain is used in on the tensioning sprocket for first drive mechanism takes turns to the activity of paper former loading attachment through the tensioning sprocket.

Furthermore, a waist-shaped groove extending up and down is arranged on the paper mold feeding device, a tensioning shaft penetrates through the waist-shaped groove, and a locking device acting with the paper mold feeding device is arranged on the tensioning shaft.

Above setting passes the kidney slot through the tensioning axle, is equipped with the locking device of paper former loading attachment effect on the tensioning axle for locking device is simple reliable and cost-effective.

Furthermore, the locking device is a locking nut.

Above setting, through lock nut as locking device, simple structure cost saving.

Further, the paper mold conveying mechanism comprises a rotary table, the rotary table is rotatably arranged on the working platform, a placing seat used for placing the paper mold is arranged on the rotary table, and the worm and gear transmission box drives the rotary table to rotate, so that the placing seat is sequentially aligned with the input station, the labeling station and the output station.

Above setting, including setting up the carousel on work platform through its paper mould conveying mechanism, be provided with on the carousel and place the seat, when worm gear transmission case drove the carousel function, place the seat and counterpoint different processing station in proper order to accomplish the subsides mark of paper mould and handle in work platform's finite space, compare current labeller, the whole volume of its equipment is less relatively, reduces occuping to the production place space, thereby improves the space utilization in workshop.

Further, the paper mold feeding device comprises a feeding rack and a transfer mechanism, a discharging channel is arranged on the upper side of the feeding rack, and a feeding hole and a discharging hole are formed in two ends of the discharging channel respectively; the transfer mechanism is positioned on one side of a discharge port of the blanking channel and comprises a sucker unit for adsorbing pulp molding and a slider-crank mechanism, the slider-crank mechanism comprises a crank, a slider component and a connecting rod structure, and the sucker unit is arranged on the slider component and positioned at one end, connected with the connecting rod structure, of the slider component; the sliding block assembly comprises a sliding block, a sliding groove and a connecting part, the sliding groove is arranged on the sliding block, the connecting part is arranged on the feeding rack, the sliding block is connected with the connecting part in a sliding mode through the sliding groove, the sliding block is hinged with one end of the connecting rod structure, and the sucker unit is arranged on the sliding block and is positioned at one end, hinged with the connecting rod structure, of the sliding block; the connecting rod structure comprises a first connecting rod hinged to the crank, a second connecting rod connected with the sliding block assembly, and a first rotating supporting point connected with the feeding frame, wherein the first rotating supporting point is arranged between the first connecting rod and the second connecting rod, and the first rotating supporting point, the first connecting rod and the second connecting rod are distributed in a triangular mode.

According to the arrangement, the crank-slider mechanism is arranged, the movement range of the sucker unit is limited by the slider component, and the crank drives the connecting rod structure to periodically swing, so that the positioning precision of the sucker unit relative to the blanking channel is improved, the difficulty in adjusting the movement amplitude of the driving connecting rod structure is reduced, and the paper mold feeding device can realize quick and accurate blanking; the slider component is simple in structure and convenient to produce and maintain, in addition, after the connecting part is inserted into the sliding groove, the swing range of the sucker unit can be adjusted by limiting the movement range of the slider, the response speed is high, and the reliability is high; the connecting rod structure adopts the arrangement mode, so that when the first connecting rod hinged with the crank swings upwards, the first rotating supporting point can be used as a fulcrum to drive the second connecting rod to swing downwards, and when the first connecting rod hinged with the crank swings downwards, the first rotating supporting point can be used as a fulcrum to drive the second connecting rod to swing upwards.

Furthermore, the slider-crank mechanism still includes the rim plate, the second transmission shaft with the rim plate hub connection, crank one end is connected the head rod, the crank other end is connected on the eccentric position of carousel, the rim plate rotates and drives slider-crank mechanism action.

The device is characterized in that the device is arranged above, the device is connected with the wheel disc through a second transmission shaft, one end of the crank is connected with the first connecting rod, the other end of the crank is connected with the eccentric position of the rotary disc, the wheel disc rotates to drive the slider-crank mechanism to act, the second transmission shaft drives the wheel disc to rotate, and therefore the slider-crank mechanism is driven to act, and the transmission structure is simple.

Drawings

Fig. 1 is a schematic diagram of the present invention.

Fig. 2 is a schematic view of a paper die feed mechanism.

Fig. 3 is a schematic view of a first arrangement of the hold-down mechanism.

Fig. 4 is a schematic view of a second arrangement of the hold-down mechanism.

Fig. 5 is a schematic view of a support.

Fig. 6 is an assembly diagram of the label suction mechanism and the paper mold discharging mechanism.

Fig. 7 is a schematic view of the placing base.

Fig. 8 is a schematic view of the transfer mechanism.

Fig. 9 is a schematic structural diagram of the present invention.

Fig. 10 is a schematic view of the power driving structure of the present invention.

In the figure: 1, a frame; 11, a working platform; 12, inputting a station; 13, labeling station; 14, an output station; 15, a cross bar; 2, a labeling mechanism; 21, a label supply assembly; 22, a glue brushing component; 23, a label sucking component; 24, a first slide rail; 25, a first suction cup; 26, a second cylinder; 27, a paper mold feeding mechanism; 28. a paper mold conveying mechanism; 3, a paper mold output mechanism; 31, a second slide rail; 32, a second suction cup; 33, a third cylinder; 4, a sliding driving device; 41, a driving motor; 42, a screw rod; 6, rotating the disc; 61, placing a seat; 62, a seat body; 63, connecting pins; 7, a pressing mechanism; 71, a bracket; 72, a first cylinder; 73, a pressure plate; 74, a stop; 75, a cushion pad; 76, a spring; 77, a guide rod; 8, a support member; 81, a support; 82, a mounting block; 83, rolling elements; 84, a sliding groove; 85, bolts; 86, a nut; 87, mounting bosses; 9, connecting the shaft; 101, a blanking channel; 102, a feeding rack; 103, a feed inlet; 104, a discharge hole; 30, a slider-crank mechanism; 301, a crank; 302, a slider assembly; 3021. a slider; 3022. a chute; 3023. a connecting portion; 303, a wheel disc; 304, a linkage structure; 3041. a first connecting rod; 3042. a second connecting rod; 3043. a first rotational support point; 305, a suction cup unit; 50. power driving; 51. a first transmission mechanism; 510 a tensioning mechanism; 5101. tensioning the shaft; 5102. a tension sprocket; 511. a first sprocket; 512. a first drive shaft; 513. a second sprocket; 514. a third sprocket; 515. a second drive shaft; 516. a fourth sprocket; 517. a first chain; 518. a second chain; 52. a second transmission mechanism; 520. a worm gear box; 521. a power transmission mechanism; 5211. a fifth sprocket; 5212. a third drive shaft; 5213. a sixth sprocket; 5214. a third chain; 53. a waist-shaped groove; 54. and locking the nut.

Detailed Description

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

As shown in fig. 1-8, the labeling machine of this embodiment includes a frame 1, a paper mold feeding mechanism 27, a labeling mechanism 2, a paper mold output mechanism 3, and a paper mold conveying mechanism 28, where the frame 1 is provided with a working platform 11, the working platform 11 is provided with an input station 12, a labeling station 13, and an output station 14, the paper mold feeding device 27 is disposed at the input station 12, the labeling mechanism 2 is disposed at the labeling station 13, the labeling mechanism 2 is configured to label a paper mold placed on the labeling station 13, and the paper mold output mechanism 3 is disposed at the output station 14; a power drive 50 is arranged on the frame, a first transmission mechanism 51 is arranged between the power drive 50 and the paper mould feeding device, and a second transmission mechanism 52 is arranged between the power drive 50 and the paper mould conveying mechanism 28; a tensioning mechanism 510 is arranged on the first transmission mechanism 51; the second transmission mechanism 52 includes a worm gear box 520 and a power transmission mechanism 521, the power transmission mechanism 521 is disposed between the power drive 50 and the worm gear box 520, and the worm gear box 520 is disposed between the power transmission mechanism 521 and the paper mold conveying mechanism 28.

In the arrangement, the power drive 50 is arranged on the frame, the first transmission mechanism 51 is arranged between the power drive 50 and the paper mould feeding device, the second transmission mechanism 52 is arranged between the power drive 50 and the paper mould conveying mechanism 28, and the tensioning mechanism 510 is arranged on the first transmission mechanism 51; the second transmission mechanism 52 comprises a worm and gear transmission case 520 and a power transmission mechanism 521, the power transmission mechanism 521 is arranged between the power drive 50 and the worm and gear transmission case 520, and the worm and gear transmission case 520 is arranged between the power transmission mechanism 521 and the paper mold conveying mechanism 28, so that the conveying and feeding synchronism of the paper mold is better, the conveying of the paper mold has a self-locking effect, the feeding of the paper mold is indirectly self-locked, and the feeding and conveying of the paper mold are more reliable.

Further, the power drive 50 is a motor.

With the above arrangement, by using the motor as the power drive 50, the power output is made linear and smooth.

Further, the first transmission mechanism 51 includes a first sprocket 511, a first transmission shaft 512, a second sprocket 513, a third sprocket 514, a second transmission shaft 515, a fourth sprocket 516, a first chain 517 and a second chain 518; the first chain wheel 511 is installed on the power drive 50, the first transmission shaft 512 is installed on the paper mold feeding device 27, the second chain wheel 513 and the third chain wheel 514 are installed on the first transmission shaft 512, the second transmission shaft 515 is installed on the paper mold feeding device 27, the fourth chain wheel 516 is installed on the second transmission shaft 515, the first chain 517 is sleeved between the first chain wheel 511 and the second chain wheel 513, the second chain 518 is sleeved between the third chain wheel 514 and the fourth chain wheel 516, and the second transmission shaft 515 drives the paper mold feeding device 27.

The above arrangement enables the power drive 50 to be transferred to the mold feeding device 27 through the first sprocket 511, the first transmission shaft 512, the second sprocket 513, the third sprocket 514, the second transmission shaft 515, the fourth sprocket 516, the first chain 517 and the second chain 518.

Further, the power transmission mechanism 521 includes a fifth sprocket 5211, a third transmission shaft 5212, a sixth sprocket 5213 and a third chain 5214; the fifth chain wheel 5211 is mounted on the power drive 50, the third transmission shaft 5212 is mounted on the frame, the sixth chain wheel 5213 is mounted on the third transmission shaft 5212, the third chain 5214 is sleeved between the fifth chain wheel 5211 and the sixth chain wheel 5213, and the third transmission shaft 5212 is connected with the worm gear box 520.

The above arrangement allows the power transmission mechanism 521 to be transferred to the worm gear box 520 through the fifth sprocket 5211, the third transmission shaft 5212, the sixth sprocket 5213 and the third chain 5214.

Further, the tensioning mechanism 510 includes a tensioning shaft 5101 and a tensioning sprocket 5102, the tensioning shaft 5101 is mounted on the paper mold feeding device, the tensioning sprocket 5102 is mounted on the tensioning shaft 5101, and the first chain 517 acts on the tensioning sprocket 5102.

With the above arrangement, the tension shaft 5101 is mounted on a bearing of the paper mold feeding device 27, the tension sprocket 5102 is mounted on the tension shaft 5101, and the first chain 517 acts on the tension sprocket 5102, so that the first transmission mechanism 51 is driven by the tension sprocket 5102 to move with the paper mold feeding device.

Further, a waist-shaped groove 53 extending up and down is formed in the paper mold feeding device, the tensioning shaft 5101 penetrates through the waist-shaped groove 53, and a locking device acting with the paper mold feeding device is arranged on the tensioning shaft 5101.

Above setting, pass the kidney slot through tensioning axle 5101, be equipped with the locking device of paper former loading attachment effect on tensioning axle 5101 for locking device is simple reliable and cost saving.

Further, the locking device is a lock nut 54.

With the arrangement, the locking nut 54 serves as a locking device, so that the structure is simple, and cost is saved.

As shown in fig. 1, the paper mold conveying mechanism 28 includes a rotary table 6, the rotary table 6 is rotatably disposed on the working platform 11, a placing seat 61 for placing a paper mold is disposed on the rotary table 6, and the worm gear box 520 drives the rotary table 6 to rotate, so that the placing seat 61 aligns the input station 12, the labeling station 13, and the output station 14 in turn.

Above setting, including setting up carousel 6 on work platform 11 through its paper mould conveying mechanism 28, be provided with on carousel 6 and place seat 61, when worm gear transmission case 520 drives carousel 11 and operates, place seat 61 and counterpoint different processing stations in proper order to accomplish the subsides mark of paper mould and handle in work platform's finite space, compare current labeller, the whole volume of its equipment is less relatively, reduces the occupation to production place space, thereby improves the space utilization in workshop.

As shown in fig. 2, the paper mold feeding device includes a feeding frame 102 and a transferring mechanism, a discharging channel 101 is disposed on the upper side of the feeding frame 102, the discharging channel 101 is used for storing pulp molding, and a feeding port 103 and a discharging port 104 are respectively disposed at two ends of the discharging channel 101; the transfer mechanism is positioned at one side of the discharge port 104 of the blanking channel 101, as shown in fig. 8, the transfer mechanism comprises a suction cup unit 305 for adsorbing pulp molding and a crank-slider mechanism 30, the crank-slider mechanism 30 comprises a crank 301, a slider assembly 302 and a connecting rod structure 304, the suction cup unit 305 is arranged on the slider assembly 302 and positioned at one end where the slider assembly 302 is connected with the connecting rod structure 304; the slide block assembly 302 comprises a slide block 3021, a slide groove 3022 and a connecting portion 3023, the slide groove 3022 is arranged on the slide block 3021, the connecting portion 3023 is arranged on the loading rack 102, the slide block 3021 is slidably connected with the connecting portion 3023 through the slide groove 3022, the slide block 3021 is hinged with one end of the link structure 304, and the suction cup unit 305 is arranged on the slide block 3021 and is positioned at one end of the slide block 3021 hinged with the link structure 304; the connecting rod structure 304 includes a first connecting rod 3041 hinged to the crank 301, a second connecting rod 3042 connected to the sliding block assembly 302, and a first rotation supporting point 3043 connected to the feeding frame 103, where the first rotation supporting point 3043 is disposed between the first connecting rod 3041 and the second connecting rod 3042, and a shaft of the first rotation supporting point 3043 is fixed to the first connecting rod 3041 and the second connecting rod 3042, respectively.

In the arrangement, by arranging the crank-slider mechanism 30, the movement range of the suction disc unit 305 is limited by the slider assembly 302, and the crank 301 is used for driving the connecting rod structure 304 to periodically swing, so that the positioning precision of the suction disc unit 305 relative to the blanking channel 101 is improved, the difficulty in adjusting the movement amplitude of the driving connecting rod structure 304 is reduced, and the paper mold feeding device 27 realizes quick and accurate blanking; the slider assembly 302 is simple in structure and convenient to produce and maintain, in addition, after the connecting part 3023 is inserted into the sliding groove 3022, the swing range of the sucker unit 305 can be adjusted by limiting the movement range of the slider 3022, the response speed is high, and the reliability is high; the link structure 304 is arranged as described above, so that when the first link 3041 hinged to the crank 301 swings upward, the first rotation supporting point 3043 serves as a fulcrum to drive the second link 3042 to swing downward, and when the first link 3041 hinged to the crank 301 swings downward, the first rotation supporting point 3041 serves as a fulcrum to drive the second link 3042 to swing upward.

As shown in fig. 2, the crank-slider mechanism further includes a wheel disc 303, the second transmission shaft 515 is connected to the wheel disc 303 through a shaft, one end of the crank 301 is connected to the first connecting rod 3041, and the other end of the crank 301 is connected to an eccentric position of the wheel disc 303.

In the above arrangement, the slider-crank mechanism further includes a wheel disc 303, the second transmission shaft 515 is connected to the shaft of the wheel disc 303, one end of the crank 301 is connected to the first connecting rod 3041, and the other end of the crank 301 is connected to the eccentric position of the wheel disc 303, so that the second transmission shaft 515 drives the wheel disc 303 to rotate, and the slider-crank mechanism is driven to move, and the transmission structure is simple.

As shown in fig. 3 and 4, the paper mold pressing device further comprises a pressing mechanism 7, wherein the pressing mechanism 7 is arranged on the working platform 11, and the pressing mechanism 7 is used for pressing the paper mold placed on the placing seat 61 on the upper surface of the placing seat 61; the pressing mechanism 7 comprises a bracket 71 and a first air cylinder 72, the bracket 71 is of a gamma type, the bracket 71 is arranged on the working platform 11, and the transverse part of the bracket 71 extends to the upper part of the turntable 6; the first air cylinder 72 is arranged at the transverse part of the bracket 71, the telescopic end of the first air cylinder 72 can extend towards the direction of the rotating disc 6, a pressing plate 73 is arranged at the telescopic end of the first air cylinder 72, and the lower end face of the pressing plate 73 is a pressing plane.

The utility model discloses set up hold-down mechanism 7 and have following beneficial effect:

(1) set up hold-down mechanism 7 between input station 12 and subsides mark station 13, hold-down mechanism 7 can compress tightly to placing the paper mould on the seat 61 to the input of outside paper mould input device, make the paper mould press close to on the surface of placing seat 61, avoid on the one hand because the paper mould is placed seat 61 relatively and is put partially, lead to the paper mould can't counterpoint labeling mechanism 2 with the preset state, lead to pasting the label on the paper mould skew to appear, the subsides mark effect is pasted in the influence, on the other hand, can ensure that the paper mould laminating is on placing seat 61, when avoiding carousel 6 to rotate, the paper mould is deviate from and is placed seat 61, the influence the utility model discloses a normal work.

(2) The pressing mechanism 7 is arranged between the labeling station 13 and the output station 14, the pressing mechanism 7 can tightly press the outer surface of the paper mold after labeling is completed, so that the label is tightly attached to the outer surface of the paper mold, the label is prevented from falling off from the outer surface of the paper mold, the finished product rate of the paper mold is prevented from being influenced, in addition, when the pressing mechanism 7 is abutted against the outer surface of the paper mold, bubbles between the label and the paper mold can be extruded, and the attractiveness of the paper mold is improved.

The side of the pressing plate 73 is provided with a stop block 74, and the lower end surface of the stop block 74 is matched with the outer side surface of the placing seat 61.

The above arrangement mode has the following technical effects:

(1) in the pressing mechanism 7 arranged between the input station 12 and the labeling station 13, a stop 74 is arranged on the side portion of the pressing plate 73, and when the pressing plate 73 presses the paper mold on the placing seat 61, the stop 74 can press the side portion of the paper mold on the outer side surface of the placing seat 61, so that the attaching degree of the paper mold and the placing seat 61 is improved.

(2) In the pressing mechanism 7 arranged between the labeling station 13 and the output station 14, the side part of the pressing plate 73 is provided with a stop block 74, and for the labels with the area larger than the upper end surface of the paper mold, as the covering range of the labels comprises the upper end surface and the side surface of the paper mold, when the pressing plate 73 is pressed against the paper mold on the placing seat 61, the stop block 74 can press the part of the labels larger than the upper end surface of the paper mold on the side part of the paper mold, so that the whole labels are attached to the outer surface of the paper mold.

As shown in fig. 4, as a modification of the pressing mechanism 7, a cushion pad 75 is provided on a pressing plane of the pressing plate 73, the cushion pad 75 is made of a soft material, and the cushion pad 75 is used for elastically contacting with an outer surface of the paper mold; the pressing mechanism 7 further comprises an elastic buffer assembly, the elastic buffer assembly is arranged between the support 71 and the buffer cushion 75, the elastic buffer assembly comprises a spring 76 and a guide rod 77, the lower end of the guide rod 77 is inserted into the pressing plate 73 to be connected with the buffer cushion 75, the upper end of the guide rod 77 is movably connected with the support 71, the spring 76 is sleeved outside the guide rod 77, the lower end of the spring 76 is fixedly connected with the lower end of the guide rod 77, and the upper end of the spring abuts against the support 71; according to the arrangement mode, when the first air cylinder 72 drives the pressing plate 73 to abut against the paper mold, the paper mold is damaged due to the fact that the first air cylinder 72 is too large in telescopic stroke and the pressing plane of the pressing plate 73 is too hard, and the pressing mechanism 7 is in contact with the paper mold in a flexible mode by arranging the buffering cushion 75 and the elastic buffering component to form buffering between the pressing plate 73 and the paper mold, so that the paper mold is prevented from being deformed and damaged, and the yield of the paper mold is prevented from being influenced. As shown in fig. 1 and 5, the working platform 11 is provided with the supporting member 8, the supporting member 8 is located below the rotary table 6, the supporting member 8 is used for supporting the rotary table 6, and this setting mode can avoid the situation that the rotary table 6 is inclined or even damaged due to too large pressure when the paper mold feeding device 27, the labeling mechanism 2 and the paper mold output mechanism 3 apply force to the placing seat 61, resulting in abnormal use of the present invention.

In particular, said supports 8 are positioned in correspondence with the input station 12, the labelling station 13, the output station 14, and the pressing mechanism 7, so as to ensure support in the stressed position of the carrousel 6.

As shown in fig. 5, the supporting member 8 includes a support 81, a mounting block 82, and a rolling member 83, the mounting block 82 is disposed on the working platform 11 through the support 81, and the rolling member 83 is rotatably and vertically disposed at an upper end of the mounting block 82.

The supporting piece 8 is simple in structure, easy to obtain parts and low in cost; the support member 8 is abutted against the lower end of the rotary table 6 through a rolling member 83 positioned at the top end, and when the rotary table 6 rotates, the rolling member 83 is in sliding contact with the rotary table 6 to be connected, so that the bottom of the rotary table 6 can be supported without obstructing the normal rotation of the rotary table 6.

As shown in fig. 5, a distance adjusting mechanism is arranged between the mounting block 82 and the support 81, and the distance adjusting mechanism comprises a sliding groove 84 and a bolt 85; the sliding groove 84 is vertically arranged on the support 81, the mounting block 82 is slidably connected with the support 81 through the sliding groove 84, the bolt 85 is arranged on the support 81, and the bolt 85 is used for pushing the lower end of the mounting block 82; or, the sliding groove 84 is vertically arranged on the mounting block 82, the mounting block 82 is slidably connected with the support 81 through the sliding groove 84, the bolt 85 is arranged on the support 81, and the bolt 85 is used for pushing the lower end of the mounting block 82.

Specifically, the distance adjusting mechanism further comprises a nut 86, and the nut 86 is used for being inserted into the mounting block 82 and the sliding groove 84 to lock the mounting block 82, so that the mounting block 82 is fixedly connected with the support 81.

Specifically, the middle of the support 81 is provided with a mounting protrusion 87, and the bolt 85 is vertically arranged on the mounting protrusion 87 and is in threaded connection with the mounting protrusion 87.

Through installation piece 82 with set up apart from adjustment mechanism between support 81, the producer of being convenient for adjusts according to actual production needs the rolling piece 83 with interval between the carousel 6 to avoid the rolling piece 83 with the distance between the carousel 6 is too big, leads to support piece 8 not to play the supporting role, and avoids the rolling piece 83 with the distance undersize between the carousel 6 leads to support piece 8 excessively to push away carousel 6, leads to carousel 6 slope and unable steady rotation, just the rolling piece 83 with the friction increase of carousel 6 leads to both to be impaired.

As shown in fig. 1, 2n placing seats 61 are provided (n belongs to Z), and 2n placing seats 61 are circumferentially and equidistantly arranged on the rotating disc 6; place seat 61 and be provided with even number (Z stands for integer set, n > 0), and a plurality of places seat 61 equidistance and sets up, through with input station 12, paste mark station 13 and output station 14 distance each other set to adjacent two and place the multiple of the contained angle between the seat 61, when 6 every rotations of carousel and adjacent two place the angle of the same number of degrees of contained angle between the seat 61, three on the carousel 6 place the seat 61 respectively with input station 12, paste mark station 13 and output station 14 counterpoint, thereby reduce the utility model discloses an the adjustment degree of difficulty is simplified the utility model discloses an operating procedure improves production efficiency.

As shown in fig. 6, the labeling mechanism 2 includes a label paper supply assembly 21, a glue brushing assembly 22 and a label suction assembly 23, the label paper supply assembly 21 and the glue brushing assembly 22 are sequentially arranged from the outer side to the inner side of the labeling station 13, the label paper supply assembly 21 is used for storing label paper, and glue is attached to the glue brushing assembly 22; the frame 1 is located work platform 11 top and is equipped with horizontal pole 15, inhale the setting of mark subassembly 23 slidable on horizontal pole 15, inhale mark subassembly 23 and absorb the mark paper on the mark paper supply unit 21 to make the mark paper through brushing gluey subassembly 22 brush glue the back with mark paper paste to place in paste the paper mould on the mark station 13.

The utility model discloses in, inhale that mark subassembly 23 can move and set up in mark paper supply subassembly 21 and brush and glue subassembly 22 top, inhale mark subassembly 23 and follow mark paper supply subassembly 21 and absorb the label after, remove to brush and glue subassembly 22 top, brush and glue subassembly 22 and carry out the rubberizing to terminal surface under the label, inhale mark subassembly 23 and continue to remove to paste mark station 13 on, laminate the label on being located the paper mould that places on mark station 13 on the seat 61, inhale mark subassembly 23 and accomplish to reset to mark paper supply subassembly 21 top after pasting the mark, among the above-mentioned mode of setting up inhale mark subassembly 23 sharp mark supply subassembly 21, brush and glue subassembly 22 and mark station 13 through mark paper in proper order, the translation rate is fast to can shorten the time of pasting the mark operation, thereby improve and paste mark efficiency.

The label sucking assembly 23 comprises a first slide rail 24, a first suction cup 25 and a second air cylinder 26, the first slide rail 24 is arranged on the cross bar 15, the second air cylinder 26 is arranged on the first slide rail 24 and can move along the length direction of the first slide rail 24, and the first suction cup 25 is arranged on the telescopic end of the second air cylinder 26; the cross bar 15 is provided with a sliding driving device 4, and the sliding driving device 4 is used for driving the second air cylinder 26 to move along the first sliding rail 24; the label suction assembly 23 is simple in structure and convenient to assemble and maintain.

Specifically, the sliding driving device 4 includes a driving motor 41, a lead screw 42 and a lead screw nut (not shown in the figure), the driving motor 41 is disposed at an end of the first slide rail 24, the lead screw 42 is disposed at a middle of the first slide rail 24, the lead screw 42 is connected to an output end of the driving motor 41, the lead screw nut is disposed on the lead screw 42, and the second air cylinder 26 is connected to the lead screw nut.

This embodiment provides two kinds of paper matrix output mechanism's mode of setting:

first arrangement of the paper mold discharging mechanism (not shown): the paper mold output mechanism 3 and the labeling mechanism 2 are independently arranged, the paper mold output mechanism 3 comprises a second slide rail 31, a second suction cup 32 and a third air cylinder 33, the second slide rail 31 is arranged on the rack and extends from the upper part of the rotary table 6 to the upper part of the output station 14, the third air cylinder 33 can be arranged on the second slide rail 31 along the length direction of the second slide rail 31, and the second suction cup 32 is arranged at the telescopic end of the third air cylinder 33; a sliding driving device 4 is arranged on the second slide rail 31, and the sliding driving device 4 is used for driving the third cylinder 33 to move along the second slide rail 31; the paper mold output mechanism 3 comprises a second sliding rail 31, a second sucking disc 32 and a third air cylinder 33, and is simple in structure, low in cost, convenient for production personnel to install the paper mold output mechanism 3 to the frame quickly, and convenient for maintaining the paper mold output mechanism 3.

As shown in fig. 6, a second arrangement of the paper output mechanism 3: the paper mold output mechanism 3 and the labeling mechanism 2 are located on two opposite sides of the working platform 11, the cross rod 15 extends from the labeling station 13 to the output station 12, the paper mold output mechanism 3 is slidably arranged on the cross rod 15, and the label suction assembly 23 is connected with the paper mold output mechanism 3 through a connecting shaft 9.

Specifically, the paper mold output mechanism 3 comprises a second slide rail 31, a second suction cup 32 and a third air cylinder 33, the second slide rail 31 is arranged on the cross bar 15, the third air cylinder 33 is arranged on the second slide rail 31 in a manner of moving along the length direction of the second slide rail 31, and the second suction cup 32 is arranged on the telescopic end of the third air cylinder 33; the first slide rail 24 and the second slide rail 31 are integrally arranged or located on the same straight line, one end of the connecting shaft 9 is connected with the second cylinder 26, and the other end is connected with the third cylinder 33.

Inhale mark subassembly 23 and paper mould output mechanism 3 and connect through the linkage of connecting axle 9, when labeller constructs 2 and carry out the label to a certain paper mould, paper mould output mechanism 3 will shift out work platform 11 with another paper mould relative with this paper mould simultaneously to realize the synchronism of labeller constructs 2 and 3 motions of paper mould output mechanism, improve the utility model discloses a production efficiency, in addition, can use same power supply with 2 paper mould output mechanism of labeller constructs 3, thereby save and set up a plurality of power supplies, reduce the utility model discloses a manufacturing cost simplifies the utility model discloses an inner structure.

The paper mold output mechanism 3 in this embodiment adopts the second setting mode, and although the drawing of the first setting mode of the paper mold output mechanism 3 is not shown in this embodiment, the first setting mode of the paper mold output mechanism 3 still belongs to the protection scope of the present invention.

Referring to fig. 7, the placing seat 61 includes a seat body 62 and connecting legs 63, the seat body 62 is disposed on the rotary table 6 through the connecting legs 63, and the outer surface of the seat body 62 is a paper mold placing surface; place seat 61 and adopt above-mentioned mode of setting up to ensure to be used for supplying the pedestal 62 that the paper mould was placed to leave one section distance between the 6 up end of carousel, thereby can be convenient for paper mould output mechanism 3 will be arranged in the paper mould on the pedestal 62 and shift out, in addition, through the pedestal 62 of changing different specifications, convenient to use the utility model discloses can paste the mark to the paper mould of different specifications and handle.

Claims (10)

1. A labeler comprises a rack, a paper mold feeding device, a labeling mechanism, a paper mold output mechanism and a paper mold conveying mechanism, wherein a working platform is arranged on the rack, an input station, a labeling station and an output station are arranged on the working platform, the paper mold feeding device is arranged at the input station, the labeling mechanism is arranged at the labeling station, and the paper mold output mechanism is arranged at the output station; the method is characterized in that: a power drive is arranged on the frame, a first transmission mechanism is arranged between the power drive and the paper mold feeding device, and a second transmission mechanism is arranged between the power drive and the paper mold conveying mechanism; a tensioning mechanism is arranged on the first transmission mechanism; the second transmission mechanism comprises a worm and gear transmission box and a power transmission mechanism, the power transmission mechanism is arranged between the power drive and the worm and gear transmission box, and the worm and gear transmission box is arranged between the power transmission mechanism and the paper mold conveying mechanism.

2. A labelling machine according to claim 1, characterised in that: the power drive is a motor.

3. A labelling machine according to claim 1, characterised in that: the first transmission mechanism comprises a first chain wheel, a first transmission shaft, a second chain wheel, a third chain wheel, a second transmission shaft, a fourth chain wheel, a first chain and a second chain; the first chain wheel is installed on power drive, and first transmission shaft is installed on paper mould loading attachment, and second sprocket and third sprocket are installed on first transmission shaft, and the second transmission shaft is installed on paper mould loading attachment, and the fourth sprocket is installed on the second transmission shaft, and first chain cover is between first sprocket and second sprocket, and the second chain cover is between third sprocket and fourth sprocket, and second transmission shaft drive paper mould loading attachment.

4. A labelling machine according to claim 1, characterised in that: the power transmission mechanism comprises a fifth chain wheel, a third transmission shaft, a sixth chain wheel and a third chain; the fifth chain wheel is arranged on the power drive, the third transmission shaft is arranged on the rack, the sixth chain wheel is arranged on the third transmission shaft, the third chain is sleeved between the fifth chain wheel and the sixth chain wheel, and the third transmission shaft is connected with the worm gear transmission box.

5. A labelling machine according to claim 3, characterised in that: the tensioning mechanism comprises a tensioning shaft and a tensioning chain wheel, the tensioning shaft is installed on the paper mold feeding device, the tensioning chain wheel is installed on the tensioning shaft, and the first chain acts on the tensioning chain wheel.

6. A labelling machine according to claim 5, characterised in that: the paper mold feeding device is provided with a waist-shaped groove extending up and down, the tensioning shaft penetrates through the waist-shaped groove, and the tensioning shaft is provided with a locking device acting with the paper mold feeding device.

7. A labelling machine according to claim 6, characterised in that: the locking device is a locking nut.

8. A labelling machine according to claim 1, characterised in that: the paper mold conveying mechanism comprises a rotary table, the rotary table is rotatably arranged on the working platform, a placing seat used for placing the paper mold is arranged on the rotary table, and the other end of the worm gear transmission box is connected with the rotary table.

9. The labeling machine according to claim 3, wherein the paper mold feeding device comprises a feeding frame and a transfer mechanism, a feeding channel is arranged on the upper side of the feeding frame, and the two ends of the feeding channel are respectively a feeding port and a discharging port; the transfer mechanism is positioned on one side of a discharge port of the blanking channel and comprises a sucker unit for adsorbing pulp molding and a slider-crank mechanism, the slider-crank mechanism comprises a crank, a slider component and a connecting rod structure, and the sucker unit is arranged on the slider component and positioned at one end, connected with the connecting rod structure, of the slider component; the sliding block assembly comprises a sliding block, a sliding groove and a connecting part, the sliding groove is arranged on the sliding block, the connecting part is arranged on the feeding rack, the sliding block is connected with the connecting part in a sliding mode through the sliding groove, the sliding block is hinged with one end of the connecting rod structure, and the sucker unit is arranged on the sliding block and is positioned at one end, hinged with the connecting rod structure, of the sliding block; the connecting rod structure comprises a first connecting rod, a second connecting rod and a first rotating supporting point, wherein the first connecting rod is hinged to the crank, the second connecting rod is connected with the sliding block assembly, the first rotating supporting point is connected with the feeding frame, and the first rotating supporting point is arranged between the first connecting rod and the second connecting rod.

10. The labeling machine of claim 9, wherein said slider-crank mechanism further comprises a wheel, a second drive shaft is connected to said wheel, one end of said crank is connected to said first connecting rod, and the other end of said crank is connected to an eccentric position of said wheel.

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