CN108082613B

CN108082613B - Automatic conveyor of specification of cartoning machine

Info

Publication number: CN108082613B
Application number: CN201810101134.0A
Authority: CN
Inventors: 郑效东
Original assignee: Tofflon Science and Technology Group Co Ltd
Current assignee: Tofflon Science and Technology Group Co Ltd
Priority date: 2018-02-01
Filing date: 2018-02-01
Publication date: 2024-02-09
Anticipated expiration: 2038-02-01
Also published as: CN108082613A

Abstract

The invention discloses a conveying device for a specification of an automatic boxing machine, which comprises a frame, a paper folding machine, a conveying driving mechanism, a transition receiving and delivering mechanism, a reversing conveying mechanism and an output mechanism, wherein the paper folding machine is arranged on the frame. The conveying driving mechanism is connected with the paper folding machine and the first power transmission mechanism, the first power transmission mechanism is respectively connected with the transition delivery mechanism, the reversing conveying mechanism and the second power transmission mechanism, and the second power transmission mechanism is connected with the output mechanism; the paper folding machine is used for outputting the folded specifications in a transverse state by the output end of the paper folding machine, the folded specifications are received by the transition receiving and conveying mechanism and then are conveyed to the reversing conveying mechanism for clamping and conveying, and the reversing conveying mechanism gradually transits the specifications from the transverse state to the vertical state in the conveying process and conveys the specifications to the output mechanism and then conveys the specifications to the boxing position of the automatic boxing machine by the output mechanism. The conveying device for the instruction book improves the transmission efficiency of mechanical power and enhances the conveying stability of the instruction book.

Description

Automatic conveyor of specification of cartoning machine

Technical Field

The invention relates to a conveying device for a specification of an automatic boxing machine.

Background

The full-automatic boxing machine automatically loads medicine bottles, medicine plates, ointment and the like and instructions into the folding paper boxes without human intervention, and completes box covering actions.

In the process of packing medicine products, the full-automatic boxing machine needs to stably convey the instruction book to a boxing station.

The existing specification conveying device of the full-automatic boxing machine has the following defects:

1) The instruction manual conveying flat belt and the synchronous belt are easy to wear, the service life is short, and the instruction manual conveying is unstable;

2) The transmission mechanism is complex, and the power transmission efficiency is low.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a description conveying device of an automatic boxing machine, which improves the transmission efficiency of mechanical power and enhances the stability of description conveying.

The purpose of the invention is realized in the following way: the utility model provides a conveyor of automatic cartoning machine's description, includes frame, installs paper folding machine, transport actuating mechanism, transition mechanism, switching-over conveying mechanism and output mechanism on the frame; wherein,

the conveying driving mechanism is connected with the paper folding machine and a first power transmission mechanism, the first power transmission mechanism is respectively connected with the transition delivery mechanism, the reversing conveying mechanism and a second power transmission mechanism, and the second power transmission mechanism is connected with the output mechanism; the paper folding machine is used for outputting the folded specifications in a transverse state by the output end of the paper folding machine, the folded specifications are received by the transition receiving and conveying mechanism and then conveyed to the reversing conveying mechanism for clamping and conveying, and the reversing conveying mechanism gradually transits the specifications from the transverse state to the vertical state and conveys the specifications to the output mechanism in the conveying process and then conveys the specifications to a boxing position of the automatic boxing machine by the output mechanism.

The conveying device of the medicine instruction book of the automatic boxing machine comprises a rack, a box body and a box cover, wherein the rack comprises a bottom plate, a left side plate and a right side plate which are fixed on the bottom plate;

the paper folding machine is arranged at the upper part between the left side plate and the right side plate, and a driving wheel of the paper folding machine is arranged at the left side of the frame;

the conveying driving mechanism comprises a driving motor arranged at the lower part of the left side of the bottom plate, a driving wheel arranged on a rotating shaft of the driving motor, and a main synchronous belt with double-sided teeth sleeved between the driving wheel and a driving wheel of the paper folding machine in an opening transmission mode;

the first power transmission mechanism comprises a main rotating shaft and a driven rotating shaft which are horizontally and transversely connected between the rear part of the left side plate and the rear part of the right side plate in a one-to-one manner, a first main synchronous pulley which is arranged at the left end part of the main rotating shaft and is meshed with the rear outer surface of the main synchronous belt, a main gear which is arranged at the right end part of the main rotating shaft, and a driven gear which is arranged at the right end part of the driven rotating shaft and is meshed with the main gear;

the transition delivery mechanism comprises a pair of upper flat belt pulleys arranged in the middle of the main rotating shaft at intervals, a pair of outer flat belts with the tail ends respectively sleeved on the pair of upper flat belt pulleys, a pair of lower flat belt pulleys arranged in the middle of the driven rotating shaft at intervals and a pair of inner flat belts with the tail ends respectively sleeved on the pair of lower flat belt pulleys, so that the head ends of the outer flat belts and the inner flat belts are in butt joint with the output end of the paper folding machine, and the inner side parts of the outer flat belts are attached to the outer side parts of the inner flat belts;

the reversing conveying mechanism comprises an upper left synchronous pulley and an upper right synchronous pulley which are arranged in the middle of the main rotating shaft and are staggered with a pair of upper flat pulleys, a lower left synchronous pulley and a lower right synchronous pulley which are arranged in the middle of the driven rotating shaft and are staggered with a pair of lower flat pulleys, a left rotating shaft and a right rotating shaft which are vertically inserted in the middle front part of the bottom plate, an upper left driven pulley and a lower left driven pulley which are arranged in the upper part of the left rotating shaft, an upper right driven pulley and a middle right driven pulley which are arranged in the upper part of the right rotating shaft, a left synchronous belt which is sleeved on the upper left driven pulley, the lower left synchronous pulley, the lower right synchronous pulley and the lower left driven pulley in a semi-crossed transmission mode, and a right synchronous belt which is sleeved on the upper right driven pulley, the upper left synchronous pulley, the upper right synchronous pulley and the middle right driven pulley in a semi-crossed transmission mode; the left upper synchronous pulley and the right lower synchronous pulley are oppositely arranged, so that the upper right side of the left synchronous belt is parallel to and contacts with the lower left side of the right synchronous belt;

the second power transmission mechanism comprises a second main synchronous pulley arranged at the bottom of the right rotating shaft, an outer rotating shaft which is vertically inserted on the bottom plate and positioned at the left rear of the left rotating shaft, a second driven synchronous pulley arranged at the bottom of the outer rotating shaft and a second synchronous belt sleeved between the second main synchronous pulley and the second driven synchronous pulley;

the output mechanism comprises an outer synchronous pulley arranged at the upper part of the outer rotating shaft, a left outer conveying pulley arranged at the left front part of the bottom plate, a right outer conveying pulley arranged outside the right side of the frame, an outer output synchronous belt sleeved between the outer synchronous pulley, the right outer conveying pulley and the left outer conveying pulley in an opening transmission mode, a left inner conveying pulley arranged on the right rotating shaft and positioned below the right middle driven pulley, a right inner conveying pulley arranged outside the right side of the frame and positioned at the rear side of the right outer conveying pulley, and an inner output synchronous belt sleeved between the left inner conveying pulley and the right inner conveying pulley, wherein the outer output synchronous belt is parallel to the inner output synchronous belt, and the front side part of the inner output synchronous belt is attached to the rear side part of the outer output synchronous belt.

The conveying device of the specification of the automatic boxing machine further comprises a main synchronous belt tensioning wheel which is arranged on the outer side face of the left side plate, meshed with the inner surface of the rear side of the main synchronous belt and located below the front of the first main synchronous belt wheel.

The conveying device of the specification of the automatic boxing machine, wherein the second power transmission mechanism further comprises a second synchronous belt tensioning wheel arranged at the lower part of the bottom plate.

The conveying device of the specification of the automatic boxing machine, wherein the output mechanism further comprises a pair of outer conveying belt tensioning wheels which are arranged on the upper portion of the bottom plate and are respectively positioned at the left front side and the right front side of the outer synchronous belt wheel.

The conveying device of the specification of the automatic boxing machine, wherein the output mechanism further comprises an inner conveying belt tensioning wheel which is arranged on the upper portion of the bottom plate and is positioned at the right rear of the left inner conveying belt wheel.

The conveying device for the specifications of the automatic boxing machine has the following characteristics: the power is respectively provided for the paper folding machine and the first power transmission mechanism through one conveying driving mechanism, the first power transmission mechanism is provided for the transition receiving and conveying mechanism, the reversing conveying mechanism and the second power transmission mechanism, the second power transmission mechanism is provided for the output mechanism, and the transition receiving and conveying mechanism receives the instruction outputted by the paper folding machine and stably conveys the instruction to a boxing station of the automatic boxing machine through the reversing conveying mechanism and the output mechanism in sequence. The reversing conveying mechanism changes the specification from a transverse state to a vertical state in the conveying process and then conveys the specification to the output mechanism. The power is separated and conveyed through the first power transmission mechanism and the second power transmission mechanism, so that the stability of conveying the instruction book is greatly improved. The conveying device reduces the failure rate of the full-automatic boxing machine, improves the mechanical efficiency of the full-automatic boxing machine, expands the adaptability of the full-automatic boxing machine and meets the market demand.

Drawings

FIG. 1 is an isometric view of a conveyor of the present disclosure of an automatic cartoning machine;

FIG. 2 is an isometric view of a delivery device (with a protective cover removed) according to the present disclosure;

FIG. 3 is an isometric view of a conveyor of the present disclosure (with side plates);

fig. 4 is an isometric view (without side plates) of the conveyor of the present disclosure;

FIG. 5 is an isometric view of a second drive mechanism of the conveyor of the present disclosure;

FIG. 6 is a top view of the conveyor of the present disclosure;

fig. 7 is an isometric view of a left timing belt in the conveyor of the present invention;

fig. 8 is an isometric view of a right timing belt in the conveyor of the present invention;

Detailed Description

The invention will be further described with reference to the accompanying drawings.

Referring to fig. 1, the conveying device for the specification of the automatic boxing machine comprises a frame, a paper folding machine 1, a conveying driving mechanism, a transition receiving and delivering mechanism, a reversing conveying mechanism and an output mechanism, wherein the paper folding machine 1 is arranged on the frame; the conveying driving mechanism is connected with the paper folding machine 1 and the first power transmission mechanism, power is respectively provided for the paper folding machine and the first power transmission mechanism, the first power transmission mechanism is respectively connected with the transition receiving and conveying mechanism, the reversing conveying mechanism and the second power transmission mechanism, the power is respectively provided for the transition receiving and conveying mechanism, the reversing conveying mechanism and the second power transmission mechanism through the first power transmission mechanism, the second power transmission mechanism is connected with the output mechanism, and the power is provided for the output mechanism through the second power transmission mechanism. The paper folding machine 1 folds the instruction book 17 to be in a transverse state and is output by an output end of the paper folding machine, the instruction book is received by the transition receiving and conveying mechanism and then is transmitted to the reversing conveying mechanism for clamping and conveying, and the reversing conveying mechanism gradually transits the instruction book 17 from the transverse state to the vertical state and is transmitted to the output mechanism in the conveying process, and then the instruction book is conveyed to a boxing position of the automatic boxing machine by the output mechanism.

The frame comprises a bottom plate 7 and left and right side plates 39, 40 fixed to the bottom plate 7.

The folder 1 is installed at an upper portion between the left side plate 39 and the right side plate 40, and has the folder driving wheel 25 provided at the left side of the frame.

The conveying driving mechanism comprises a driving motor 4 arranged at the lower part of the left side of the bottom plate 7, a driving wheel 3 arranged on the rotating shaft of the driving motor 4, and a main synchronous belt 2 with double-sided teeth sleeved between the driving wheel 3 and a driving wheel 25 of the paper folding machine in an opening transmission mode; the left end of the driving wheel 3 is provided with a protective cover 38 for protecting the first power transmission mechanism.

The first power transmission mechanism includes a main rotating shaft 30 and a driven rotating shaft 31 which are horizontally and vertically bridged between the rear portion of the left side plate 39 and the rear portion of the right side plate 40, a first main timing pulley 22 mounted at the left end portion of the main rotating shaft 30 and engaged with the rear outer surface of the main timing belt 2, a main gear 29 mounted at the right end portion of the main rotating shaft 30, a driven gear 32 mounted at the right end portion of the driven rotating shaft 31 and engaged with the main gear 29, and a main timing belt tensioner 21 mounted on the outer side surface of the left side plate 39 and engaged with the rear inner surface of the main timing belt 2 and located forward and downward of the first main timing pulley 22; the power output by the driving motor 4 sequentially passes through the main synchronous belt 2 and the first main synchronous pulley 22 to drive the main rotating shaft 30 and the driven rotating shaft 31; the first primary synchronous pulley 22 increases the engagement wrap angle with the primary synchronous belt 2 by the primary synchronous belt tensioner 21, and improves the power transmission efficiency.

The transition feeding mechanism includes a pair of upper flat pulleys 26 installed at intervals in the middle of the main shaft 30, a pair of outer flat belts 28 each having ends fitted over the pair of upper flat pulleys 26, a pair of lower flat pulleys 24 installed at intervals in the middle of the driven shaft 31, and a pair of inner flat belts 27 each having ends fitted over the pair of lower flat pulleys 24, with the leading ends of the outer flat belts 28 and the inner flat belts 27 abutting against the output end of the paper folding machine 1, and with the inner side portions of the outer flat belts 28 abutting against the outer side portions of the inner flat belts 27, so as to clamp the instructions 17 outputted from the output end of the paper folding machine 1.

The reversing conveyance mechanism includes an upper left and lower timing pulleys 37 and 37 'mounted in the middle of the main rotation shaft 30 and interlaced with the pair of upper flat pulleys 26, a lower left and lower timing pulleys 23 and 23' mounted in the middle of the driven rotation shaft 31 and interlaced with the pair of lower flat pulleys 24, a left and lower rotation shafts 11 and 14 vertically inserted in the middle front portion of the bottom plate 7, an upper left and lower driven pulleys 10 and 10 'mounted in the upper portion of the left rotation shaft 11, an upper right and lower driven pulleys 13 and 13' mounted in the upper portion of the right rotation shaft 14, a left and lower timing pulley 9 'mounted in the upper left, lower right and lower timing pulleys 23 and 10' in a semi-crossed transmission manner, and a right timing belt 12 mounted in the upper right, upper left, upper right and lower timing pulleys 37 and 37 'and 13' in a semi-crossed transmission manner; the upper left timing pulley 37 is mounted opposite to the lower right timing pulley 23' so that the upper right portion of the left timing belt 9 is parallel to and in contact with the lower left portion of the right timing belt 12.

The second power transmission mechanism includes a second primary timing pulley 34 mounted at the bottom of the right rotary shaft 14, an outer rotary shaft 19 vertically inserted on the bottom plate 7 and positioned at the left rear of the left rotary shaft 11, a second driven timing pulley 36 mounted at the bottom of the outer rotary shaft 19, a second timing belt 33 openly fitted between the second primary timing pulley 34 and the second driven timing pulley 36, and a second timing belt tensioner 35 mounted at the lower portion of the bottom plate 7.

The output mechanism comprises an outer synchronous pulley 20 mounted on the upper part of an outer rotating shaft 19, a left outer conveying pulley 5 mounted on the left front part of a bottom plate 7, a right outer conveying pulley 160 mounted on the right side of the bottom plate 7, an outer output synchronous pulley 16 sleeved between the outer synchronous pulley 20, the right outer conveying pulley 160 and the left outer conveying pulley 5, a left inner conveying pulley 13 mounted on the right rotating shaft 14 and positioned below a right middle driven pulley 13', a right inner conveying pulley 180 mounted on the right side of the bottom plate and positioned on the rear side of the right outer conveying pulley 160, an inner output synchronous pulley 18 sleeved between the left inner driven pulley 13' and the right inner conveying pulley 180, a pair of outer conveying belt tensioning pulleys 8 mounted on the upper part of the bottom plate 7 and positioned on the left front side and the right front side of the outer synchronous pulley 20 respectively, and an inner conveying belt tensioning pulley 15 mounted on the upper part of the bottom plate 7 and positioned on the right rear side of the left inner conveying pulley 13', the outer output synchronous pulley 18 is made parallel to the inner output synchronous pulley 18, and the front side of the inner output synchronous pulley 18 and the outer conveying belt 16 are made to be attached to the rear side of the outer conveying belt 16 by reversing the output mechanism.

The working process of the conveying device of the specification of the automatic boxing machine is as follows:

the driving motor 4 drives the driving wheel 3 to rotate, and the driving wheel 3 drives the main synchronous belt 2 to operate; the main synchronous belt 2 transmits power to the paper folder driving wheel 25 and the first main synchronous belt wheel 22 respectively; the paper folding machine 1 is driven by the paper folding machine driving wheel 25 to start folding the instruction sheet 17.

The first main synchronous pulley 22 drives the main rotating shaft 30 of the first power transmission mechanism to rotate, so that the main rotating shaft 30 transmits power to the driven rotating shaft 31 through the main gear 29 and the driven gear 32 at the same time, and the main rotating shaft 30 and the driven rotating shaft 31 synchronously rotate in opposite directions; the main shaft 30 drives a pair of upper flat pulleys 26 and an outer flat belt 28 of the transition take-off mechanism to operate; the driven shaft 31 drives the pair of lower flat pulleys 24 and the inner flat belt 27 of the transition take-up mechanism. The main rotating shaft 30 drives the right synchronous belt 12 to operate through the left upper synchronous pulley 37 and the right upper synchronous pulley 37'; the driven rotating shaft 31 drives the left timing belt 9 to operate via the left lower timing pulley 23 and the right lower timing pulley 23'. The upper ends of the inner flat belt 27 and the outer flat belt 28 support the instructions 17 fed from the output end of the paper folding machine 1, and the inner flat belt 27 and the outer flat belt 28 clamp the instructions 17 to be fed from the top down during operation, and feed the instructions from the lower ends of the inner flat belt 27 and the outer flat belt 28 to the upper left timing pulley 37, the upper right timing pulley 37', the lower left timing pulley 23, and the lower right timing pulley 23'. Because when the left synchronous belt 9 is sleeved, one end of the left synchronous belt 9 is sleeved on the left upper driven belt pulley 10, the other end of the left synchronous belt 9 is sleeved on the left lower driven belt pulley 10', and the middle parts of the two sides of the left synchronous belt 9 are respectively sleeved on the left lower synchronous belt pulley 23 and the right lower synchronous belt pulley 23', when the right synchronous belt 12 is sleeved, one end of the right synchronous belt 12 is sleeved on the right upper driven belt pulley 13, the other end of the right synchronous belt 12 is sleeved on the right middle driven belt pulley 13', the middle parts of the two sides of the right synchronous belt 12 are respectively sleeved on the left upper synchronous belt pulley 37 and the right upper synchronous belt pulley 37', and the driven rotating shafts 31 for installing the left lower synchronous belt pulley 23 and the right lower synchronous belt pulley 23 'are vertically staggered with the left rotating shafts 11 for installing the left upper driven belt pulley 10 and the left lower driven belt pulley 10', the left timing belt 9 is stably transited from the horizontal operation to the vertical operation, and the driving shaft 30 on which the left upper timing belt pulley 37 and the right upper timing belt pulley 37 'are mounted is vertically staggered with the right shaft 14 on which the right upper driven belt pulley 13 and the right middle driven belt pulley 13' are mounted, so that the right timing belt 12 is stably transited from the horizontal operation to the vertical operation, and finally, the instruction sheet 17 is gradually transited from the horizontal state to the vertical state when being conveyed from the inside to the outside to the starting end of the output mechanism under the clamping of the right upper portion of the left timing belt 9 and the left lower portion of the right timing belt 12 from the lower end of the inner flat belt 27 and the lower end of the outer flat belt 28.

Simultaneously, the right synchronous belt 12 drives the right rotating shaft 14 of the second power transmission mechanism to operate through the right upper driven pulley 13 and the right middle driven pulley 13', the right rotating shaft 14 drives the left inner conveying pulley 13' and the second main synchronous pulley 34 to operate respectively, the inner output synchronous belt 18 of the output mechanism is driven by the left inner conveying pulley 13' to operate, the second synchronous belt 33 is driven by the second main synchronous pulley 34 to operate, the second driven synchronous pulley 36 and the outer rotating shaft 19 are driven by the second synchronous belt 33 to operate, power is transmitted to the outer synchronous pulley 20, and the outer output synchronous belt 16 is driven by the outer synchronous pulley 20 to operate. The inner output synchronous belt 18 and the outer output synchronous belt 16 of the output mechanism hold and convey the instruction manual 17 conveyed by the reversing conveying mechanism to a boxing position of the automatic boxing machine, and the conveying work of the instruction manual 17 is completed.

The above embodiments are provided for illustrating the present invention and not for limiting the present invention, and various changes and modifications may be made by one skilled in the relevant art without departing from the spirit and scope of the present invention, and thus all equivalent technical solutions should be defined by the claims.

Claims

1. The utility model provides a conveyor of automatic cartoning machine's description, includes frame, installs paper folding machine, transport actuating mechanism, transition mechanism, switching-over conveying mechanism and output mechanism on the frame; it is characterized in that the method comprises the steps of,

the conveying driving mechanism is connected with the paper folding machine and a first power transmission mechanism, the first power transmission mechanism is respectively connected with the transition delivery mechanism, the reversing conveying mechanism and a second power transmission mechanism, and the second power transmission mechanism is connected with the output mechanism; the paper folding machine is used for outputting the folded specifications in a transverse state by an output end of the paper folding machine, and the folded specifications are received by the transition receiving and conveying mechanism and then conveyed to the reversing conveying mechanism for clamping and conveying, and the reversing conveying mechanism gradually transits the specifications from the transverse state to the vertical state and conveys the specifications to the output mechanism in the conveying process and then conveys the specifications to a boxing position of the automatic boxing machine by the output mechanism;

the rack comprises a bottom plate, a left side plate and a right side plate which are fixed on the bottom plate;

2. A conveyor apparatus for instructions for an automatic cartoning machine as recited in claim 1 wherein the conveyor drive mechanism further comprises a primary timing belt tensioner mounted on the outer side of the left side plate and engaged with the rear inner surface of the primary timing belt and positioned forwardly and downwardly of the first primary timing belt pulley.

3. A conveyor for instructions for an automatic cartoning machine as recited in claim 1 wherein the second power transmission mechanism further comprises a second timing belt tensioner mounted to a lower portion of the base plate.

4. A conveyor apparatus for instructions for an automatic cartoning machine as recited in claim 1, wherein the output mechanism further includes a pair of outer belt tensioner wheels mounted on an upper portion of the base plate and respectively positioned in front of the outer timing pulleys to the left and right.

5. A conveyor apparatus for instructions for an automatic cartoning machine as recited in claim 1, wherein the output mechanism further includes an inner conveyor tensioner mounted on the upper portion of the base plate and positioned right rearward of the left inner conveyor pulley.