CN217124091U - Novel material transfer device of carton forming production line - Google Patents

Abstract

The utility model relates to a novel material transfer device of carton shaping production line, the rear side that keeps off the rule before it still is furnished with folds material mechanism, folds material mechanism and is located between left baffle and the right baffle, folds material mechanism including the lifting face with hold in the palm the charge level, holds in the palm the material part and links up with the lifting face, the lifting face links up with holding in the palm the charge level mutually, the rear that keeps off the rule before still is furnished with the back and keeps off the rule, keep off the rule before and keep off for folding the material space after and between the rule, keep off the rule after and be located the top of holding in the palm material part or lifting face. The novel material transfer device of the carton forming production line is provided with the stacking mechanism, materials (paperboards) can be stacked in the stacking space, new materials are inserted into the stacked material bottom from the lower part, the forming machine can be taken away from the upper part, the stacked materials can be continuously and effectively supplied to the forming machine for production and use, the productivity of the covering machine and the forming machine can be matched, the problem that the running speed of the feeding mechanism is difficult to match is avoided, the efficiency is higher, and the novel material transfer device is more practical.

Description

Novel material transfer device of carton forming production line

Technical Field

The utility model relates to a carton production facility, in particular to flute world lid carton.

Background

The top and bottom cover paper box is used for packaging, and comprises a fine top and bottom cover paper box and a corrugated top and bottom cover paper box, wherein the fine top and bottom cover paper box is provided with a blank box paperboard (such as a white board or a gray board) and surface paper, and the corrugated top and bottom cover paper box is formed by corrugated boards. At present, equipment of a forming machine part of a corrugated top and bottom cover paper box and a covering machine are mature, but lack of a connecting structure and cannot form an efficient production line; in flute world lid carton production forming process, need to bordure the back with the both sides of material (generally for the corrugated container board through cross cutting and indentation), the material is bordured and is generally accomplished in the taping machine, later will accomplish during the material collection of borduring through the manual work, the arrangement is transferred on to the make-up machine again, on transferring on the feed elevating platform of make-up machine, so that let the reclaimer manipulator acquire, carry out follow-up shaping, need link up through the manual work, waste time and energy, additionally increase manufacturing cost, and production efficiency is lower.

Can set up material transfer device, link up taping machine and (world lid) make-up machine, the taping machine accomplishes the material and bordures the back and gets into from afterbody (entry end department) of material transfer device, takes away the area by the manipulator of the reclaimer of make-up machine again in the front portion of material transfer device, has optimized the structure, realizes mechanized linking, forms the production line of high-efficient production, need not additionally to carry out the manual work with the material and shifts the linking, and is more practical, efficiency is higher. The transfer efficiency and the material transfer stability of the material transfer device are very important.

SUMMERY OF THE UTILITY MODEL

In view of the technical problem who exists among the background art, the utility model aims at providing a material transfer device that efficiency is higher. The material stacking machine can stack materials in the front material stacking space, so that the materials can be effectively fed, the capacity of a follow-up forming machine (host) is matched, the efficiency is higher, and the problem that the running speed of a feeding mechanism is difficult to meet the requirement of high-speed production is solved.

In order to solve the technical problem, the utility model discloses a following technical scheme: novel material transfer device of carton shaping production line, including left baffle and right baffle, have between left baffle and the right baffle and hold in the palm the material part, be furnished with feeding mechanism between left baffle and the right baffle, this material transfer device's front portion keeps off the rule before still being furnished with, and preceding fender rule is located between left baffle and the right baffle, and this material transfer device's afterbody is entry end, its characterized in that: the rear side of preceding fender rule still is furnished with and folds material mechanism, folds material mechanism and is located between left baffle and the right baffle, folds material mechanism including the lifting face and hold in the palm the charge level, holds in the palm the material part and links up with the lifting face, the lifting face links up with holding in the palm the charge level mutually, and the rear of preceding fender rule still is furnished with the back and keeps off the rule, and preceding fender rule keeps off the space for folding between the rule after and, and the back keeps off the rule and is located the top of holding in the palm material part or lifting face.

The left baffle is located the left side in folding the material space, and the right baffle is located the right side in folding the material space, and the back keeps off the rule and is located the rear side that holds in the palm the material face, holds in the palm the material face and is located the below in folding the material space.

The lifting surface adopts an inclined surface or an arc surface, and the lower end part of the rear stop gauge is provided with a guide-in surface.

The lifting surface and the material supporting surface are arranged on the lifting supporting block, the lifting surface is positioned at the rear part of the lifting supporting block, and the material supporting surface is positioned at the top part of the lifting supporting block. The lifting support block adopts an integrated structure; or the lifting support block adopts a split structure, the lifting support block comprises a front block and a rear block, the lifting surface is positioned on the rear block, the material supporting surfaces are respectively positioned on the front block and the rear block, and the front block is connected with the rear block.

The material stacking space is also provided with a sensor for detecting the stacking height of the materials, and the sensor is connected with the feeding mechanism.

The left baffle comprises a left front baffle and a left rear baffle, the left front baffle is arranged in the left side of the material stacking space in a left-right position adjusting mode, and the left rear baffle is in transmission connection with the first left-right movement driving device. And/or the right baffle comprises a right front baffle and a right rear baffle, the left and right positions of the right front baffle are adjusted, the right front baffle is positioned on the right side of the stacking space, the left and right positions of the right rear baffle are adjusted, and the right rear baffle is in transmission connection with the second left and right movement driving device.

The rear part of the material stacking mechanism is also provided with a leading-in spring pressing sheet which is pressed on the material supporting part.

A material arranging spring pressing sheet is arranged between the leading-in spring pressing sheet and the inlet end and is pressed on the material supporting part.

The front and back positions of the spring pressing sheet are led in for adjustment; the left and right positions of the spring pressing sheet are led in for adjustment; the front and rear positions of the material arranging spring pressing sheet are adjusted; the left and right positions of the material arranging spring pressing sheets are adjusted; the leading-in spring pressing plate is arranged in a bent mode from top to bottom and backwards, and the material arranging spring pressing plate is arranged in a bent mode from top to bottom and backwards.

The material supporting part adopts a material supporting rod, a material supporting plate, a material supporting belt or a material supporting wheel and is arranged from back to front; the feeding mechanism comprises a pushing head, and the pushing head is in transmission connection with the front-back movement driving device.

The beneficial effects of the utility model are that, this carton shaping production line's novel material transfer device has and folds material mechanism, can let material (cardboard) stack up in folding the material space, new material inserts the material bottom that has piled up from the below, the top then can be taken away and supply with make-up machine (host computer), range upon range of material can last effective supply and give make-up machine plant use, can match the productivity (relatively very fast) of taping machine and make-up machine, avoid the problem that feeding mechanism functioning speed is difficult to the matching, efficiency is higher, and is more practical. Therefore, compared with the prior art, the utility model has substantive characteristics and progress.

Drawings

The following describes details and operational principles of embodiments and examples of the present invention with reference to the drawings.

Fig. 1 is a schematic structural view of the material transfer device of the present invention.

Fig. 2 is a schematic structural view of fig. 1 from another angle.

Fig. 3 is a schematic structural view of fig. 2 from another angle.

In the figure: 1. a left baffle; 2. a right baffle; 3. a material supporting part; 4. a feeding mechanism; 5. a front stop gauge; 7. a material stacking mechanism; 8. lifting the surface; 9. supporting the material surface; 10. a rear stop gauge; 12. a lead-in surface; 13. lifting the supporting block; 14. a front block; 15. a rear block; 16. mounting holes; 17. a right front baffle; 18. a right tailgate; 19. a second left-right pneumatic driving device; 20. leading in a spring pressing sheet; 21. arranging a spring pressing sheet; 22. pushing the head; 23. and a forward and backward movement driving device.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention; obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Referring to the drawings, the novel material transfer device of the carton forming production line in the embodiment of the present disclosure is used for connecting a taping machine and a forming machine (such as a top and bottom cover carton forming machine), and the taping machine can be used for taping two sides of a corrugated board.

This novel material transfer device has material supporting part 3 including left baffle 1 and right baffle 2 between left baffle 1 and the right baffle 2, and material supporting part 3 is used for holding the material (cardboard promptly) to the cardboard is by the propelling movement.

A feeding mechanism 4 is arranged between the left baffle 1 and the right baffle 2, and the feeding mechanism 4 is used for matching with a paper board to be pushed forward, so that the paper board on the material supporting part 3 is pushed forward from back to front.

The front part of the material transfer device is also provided with a front stop gauge 5, the front stop gauge 5 is positioned between the left baffle plate 1 and the right baffle plate 2, the tail part of the material transfer device is an inlet end, the paperboard enters the space between the left baffle plate 1 and the right baffle plate 2 from the inlet end and is supported by the material supporting component 3, then the paperboard is pushed forwards by the feeding mechanism 4, and the paperboard is pushed to be blocked by the front stop gauge 5.

Wherein, the rear side of preceding fender rule 5 still is furnished with and folds material mechanism 7, folds material mechanism 7 and is located between left baffle 1 and the right baffle 2 to the cardboard is pushed forward to folding in the material mechanism 7, is kept off spacing and is range upon range of, piles up by preceding fender rule 5.

The stacking mechanism 7 comprises a lifting surface 8 and a material supporting surface 9, the material supporting part 3 is connected with the lifting surface 8, the lifting surface 8 is connected with the material supporting surface 9, materials are lifted upwards by the lifting surface 8 in a matching mode in the process of being pushed forwards on the material supporting part 3, the materials enter the material supporting surface 9 and are supported, the material supporting surface 9 generally forms a plane or a plane through a supporting point, at least one material (multiple materials) in each batch is pushed forwards, so that new materials are stacked below the materials in the previous batch to form stacked and stacked materials, and the materials above the stacked and stacked materials can be taken away and supplied to a forming machine (host machine) for use.

Wherein, the rear of preceding fender rule 5 still is furnished with back fender rule 10, and for folding the material space between preceding fender rule 5 and the back fender rule 10, fold the material space and match with the material, the material will cooperate and upwards range upon range of, pile up in folding the material space, block the location by back fender rule 10 rear side, let fold the material more smoothly, and let the position of material obtain the location, avoid the material to shift. The rear stop gauge 10 is positioned above the material supporting part 3 or the lifting surface 8, so that materials can smoothly enter the material supporting surface 9 from the lower part through lifting and are positioned below the stacked materials.

The working principle is that when the covering machine covers left and right edges of a material (such as a paperboard) and then inputs the material into the material transfer device, the material enters between the left baffle 1 and the right baffle 2 and is supported by the material supporting part 3, the material is conveyed forwards to wait, and when the material in the material stacking space is reduced, the material can be pushed by the feeding mechanism 4 to move forwards, the material moves forwards and is lifted by the lifting surface 8 and then enters the material supporting surface 9 to be supported, a new material is stacked on the bottom layer of the material stacking space, and the new material is located below the original stacked material. The materials are stacked in the stacking space and are positioned front, back, left and right, and the materials on the uppermost layer are taken away by a manipulator of the forming machine for feeding. When the feeding mechanism 4 conveys materials to move forward, a plurality of new materials can be conveyed forwards at a time to be matched and stacked after the materials are input into the material transfer device, the influence of the back-and-forth operation of the feeding mechanism 4 on the efficiency is reduced, the covering machine can be matched with the capacity of the forming machine, and the efficiency is improved.

The novel material transfer device of the carton forming production line is provided with the stacking mechanism 7, materials (paperboards) can be stacked in a stacking space, the bottom of the stacked materials is inserted into the novel materials from the lower side, the forming machine (host) can be taken away from the upper side, the stacked materials can be continuously and effectively supplied to the forming machine for production and use, the capacity of the covering machine and the forming machine can be matched (relatively fast), the problem that the running speed of the feeding mechanism 4 is difficult to match is avoided, the efficiency is higher, and the novel material transfer device is more practical.

The following optimization or further explanation can be made on the basis of the above embodiments, respectively.

For example, the left baffle 1 is located on the left side of the stacking space, and the right baffle 2 is located on the right side of the stacking space, so that materials can be stacked and stacked in a matched mode, and the materials are limited and located in the stacking space. The rear baffle gauge 10 is positioned at the rear side of the material supporting surface 9, and the material supporting surface 9 is positioned below the material stacking space.

Can optimize again, lifting face 8 is used for cooperating at the material in-process of being transferred forward, lifts the material to holding in the palm on the material face 9, and lifting face 8 adopts inclined plane or cambered surface, and lifting and material remove more smoothly. The lower end of the rear stop gauge 10 is provided with a guide-in surface 12 (such as an inclined surface or an arc surface) which can smoothly guide the front side of the rear stop gauge 10 in the processes of upward stacking and stacking of materials, and the rear stop gauge 10 is used for limiting the material stacking at the rear, so that the stacked materials are tidier, and the material position is positioned.

For example, the lifting surface 8 and the carrier surface 9 are arranged on a lifting carrier 13, the lifting surface 8 is located at the rear of the lifting carrier 13, and the carrier surface 9 is located at the top of the lifting carrier 13. The lifting support block 13 is of an integrated structure, and the specification and/or the position can be changed and/or adjusted according to requirements; or, the lifting supporting block 13 adopts a split structure, the lifting supporting block 13 comprises a front block 14 and a rear block 15, the lifting surface 8 is positioned on the rear block 15, the material supporting surface 9 is respectively positioned on the front block 14 and the rear block 15, the front block 14 is connected with the rear block 15, the front position and the rear position of the rear block 15 can be adjusted to match materials of different specifications for lifting, and additional replacement is not needed.

In addition, the material stacking space is also provided with a sensor (such as a photoelectric eye and the like) for detecting the material stacking height, and the sensor is connected with the feeding mechanism 4. The sensor may be arranged on the front or rear side or left or right side of the stacking space, for example, the sensor may be arranged on the left baffle 1 or right baffle 2 or front baffle 5 or rear baffle 10, or alternatively a rack mounting arrangement, in which the sensor is arranged at the mounting hole 16 of the right baffle 2. For example, when the stacking height of the materials is lower than the set height, a feedback signal can be sent to the feeding mechanism 4 (for example, a motor or a cylinder therein) through a computer or a PLC, and the feeding mechanism 4 can move the materials forward to the stacking space, which is a precondition for automatic operation.

Wherein, the position adjustment setting about the position of left baffle 1, right baffle 2 to satisfy different material specification demands. The left baffle 1 comprises a left front baffle and a left rear baffle, the left and right positions of the left front baffle are adjusted, the left front baffle is positioned on the left side of the material stacking space, the left and right positions of the left rear baffle are adjusted, the left rear baffle is in transmission connection with a first left-right moving driving device (such as an air cylinder or a motor) which drives the left rear baffle to move left and right, and the left rear baffle is separated so that materials can smoothly enter the material supporting part 3, which is not shown in the figure; and/or, as shown in the figure, the right baffle 2 comprises a right front baffle 17 and a right rear baffle 18, the left and right positions of the right front baffle 17 are adjusted, the right front baffle 17 is positioned at the right side of the stacking space, the left and right positions of the right rear baffle 18 are adjusted, the right rear baffle 18 is in transmission connection with a second left-right moving driving device (such as an air cylinder or a motor) and the second left-right moving driving device drives the right rear baffle 18 to move left and right, so that the materials can smoothly enter the material supporting part 3. The left and right position adjusting device can be arranged on a corresponding track, can be directly moved or adjusted by a screw rod and nut mechanism, and has multiple modes.

Preferably, the rear part of the stacking mechanism 7 is also provided with a guiding spring pressing sheet 20 (for example, a spring sheet is adopted), and the guiding spring pressing sheet 20 is pressed on the material supporting part 3. In the process of forward transferring the material by the feeding mechanism 4, the material can be pressed by the lead-in spring pressing sheet 20, the material is prevented from tilting, the material is leveled, and the material is smoothly transferred to the lifting surface 8 to be lifted.

Further preferably, a material arranging spring pressing piece 21 (a spring piece is adopted if the spring piece is adopted) is arranged between the leading-in spring pressing piece 20 and the inlet end, namely the material arranging spring pressing piece 21 is arranged between the inlet end and the lifting surface 8, and the material arranging spring pressing piece 21 is pressed on the material supporting part 3. When the covering machine inputs materials onto the material supporting part 3, the material arranging spring pressing sheets 21 can be arranged, the materials are overlapped one by one, and the left covering edge and the right covering edge of the front materials are prevented from being damaged by the rear materials.

Wherein, the front and back positions of the spring pressing sheet 20 are adjusted; the left and right positions of the spring pressing sheet 20 are adjusted; the front and back positions of the material arranging spring pressing sheet 21 are adjusted; the left and right positions of the material arranging spring pressing sheet 21 are adjusted; so that the adjusting position can meet different specification requirements and debugging requirements. Wherein, leading-in spring preforming 20 is from top to bottom backward bending setting, and reason material spring preforming 21 is from top to bottom backward bending setting.

In addition, the material supporting component 3 adopts a material supporting rod or a material supporting plate or a material supporting belt or a material supporting wheel, the material supporting component 3 is arranged from back to front, namely, the material supporting component is arranged along the moving direction of the material, a plurality of material supporting plates are adopted in the figure, wherein the material supporting plate at the left end is connected with the left baffle 1, and the material supporting plate at the right end is connected with the right baffle 2. The feeding mechanism 4 comprises a push head 22, and the push head 22 is in transmission connection with a front-back movement driving device 23 (such as an air cylinder or a motor); in the figure, the forward and backward movement driving device 23 adopts a linear module with a motor, a space for forward and backward movement of the push head 22 is reserved between the material supporting parts 3, and the top of the push head 22 is provided with a supporting plate 24, so that when the push head 22 adjusts the initial position and materials are sent (fly out) from the covering machine onto the material supporting parts 3, the supporting plate 24 can smoothly pass the materials, and the materials are prevented from falling.

In addition, can connect whole material transfer device on support 25, support 25 articulates on the taping machine, and the support is connected with power cylinder transmission, can strut the support and draw in, and is more practical, struts and can normal use, can rotate when not using and draw in, saves space.

The foregoing is a preferred embodiment of the present invention, and it should be noted that the scope of the present invention is not limited thereto. For those skilled in the art, without departing from the scope of the present invention, it should be understood that various modifications, enhancements and equivalents may be made without departing from the scope of the present invention.

Claims (10)

1. Novel material transfer device of carton shaping production line, including left baffle (1) and right baffle (2), it holds in the palm material part (3) to have between left baffle (1) and right baffle (2), be furnished with feeding mechanism (4) between left baffle (1) and right baffle (2), keep off rule (5) before this material transfer device's front portion still is furnished with, keep off rule (5) before being located between left baffle (1) and right baffle (2), this material transfer device's afterbody is the entry end, its characterized in that:

the rear side of the front baffle gauge (5) is also provided with a material stacking mechanism (7), the material stacking mechanism (7) is positioned between the left baffle plate (1) and the right baffle plate (2),

the stacking mechanism (7) comprises a lifting surface (8) and a material supporting surface (9), the material supporting component (3) is connected with the lifting surface (8), the lifting surface (8) is connected with the material supporting surface (9),

a rear stop gauge (10) is arranged behind the front stop gauge (5), a material stacking space is arranged between the front stop gauge (5) and the rear stop gauge (10),

the rear stop gauge (10) is positioned above the material supporting part (3) or the lifting surface (8).

2. The novel material transfer device of the carton forming production line as claimed in claim 1, wherein:

the left baffle (1) is positioned at the left side of the material stacking space, the right baffle (2) is positioned at the right side of the material stacking space,

the rear baffle gauge (10) is positioned at the rear side of the material supporting surface (9), and the material supporting surface (9) is positioned below the material stacking space.

3. The novel material transfer device of the carton forming production line as claimed in claim 1, wherein:

the lifting surface (8) adopts an inclined surface or an arc surface, and the lower end part of the rear stop gauge (10) is provided with a guide-in surface (12).

4. The novel material transfer device of the carton forming production line as claimed in claim 1, wherein:

the lifting surface (8) and the material supporting surface (9) are arranged on the lifting support block (13), the lifting surface (8) is positioned at the rear part of the lifting support block (13), and the material supporting surface (9) is positioned at the top part of the lifting support block (13);

the lifting support block (13) adopts an integrated structure; or,

the lifting support block (13) adopts a split structure, the lifting support block (13) comprises a front block (14) and a rear block (15), a lifting surface (8) is positioned on the rear block (15), a material supporting surface (9) is respectively positioned on the front block (14) and the rear block (15), and the front block (14) is connected with the rear block (15).

5. The novel material transfer device of the carton forming production line as claimed in claim 1, wherein:

the material stacking space is also provided with a sensor for detecting the stacking height of the materials, and the sensor is connected with the feeding mechanism (4).

6. The novel material transfer device of the carton forming production line as claimed in claim 1, wherein:

the left baffle (1) comprises a left front baffle and a left rear baffle, the left and right positions of the left front baffle are adjusted, the left front baffle is positioned on the left side of the material stacking space, the left and right positions of the left rear baffle are adjusted, and the left rear baffle is in transmission connection with a first left-right moving driving device;

and/or the presence of a gas in the gas,

the right baffle (2) comprises a right front baffle (17) and a right rear baffle (18), the left and right positions of the right front baffle (17) are adjusted, the right front baffle (17) is located on the right side of the stacking space, the left and right positions of the right rear baffle (18) are adjusted, and the right rear baffle (18) is in transmission connection with a second left and right movement driving device.

7. The novel material transfer device of the carton forming production line as claimed in claim 1, wherein: the rear part of the stacking mechanism (7) is also provided with a guiding spring pressing sheet (20), and the guiding spring pressing sheet (20) is pressed on the material supporting part (3).

8. The novel material transfer device of the carton forming production line as claimed in claim 7, wherein: a material arranging spring pressing sheet (21) is also arranged between the leading-in spring pressing sheet (20) and the inlet end, and the material arranging spring pressing sheet (21) is pressed on the material supporting part (3).

9. The novel material transfer device of the carton forming production line as claimed in claim 8, wherein:

the front and back positions of the leading-in spring pressing sheet (20) are adjusted; the left and right positions of the spring pressing sheet (20) are guided in for adjustment;

the front and back positions of the material arranging spring pressing sheet (21) are adjusted; the left and right positions of the material arranging spring pressing sheet (21) are adjusted;

the leading-in spring pressing plate (20) is arranged in a bending way from top to bottom and backwards, and the material arranging spring pressing plate (21) is arranged in a bending way from top to bottom and backwards.

10. The novel material transfer device of the carton forming production line as claimed in claim 1, wherein: the material supporting part (3) adopts a material supporting rod or a material supporting plate or a material supporting belt or a material supporting wheel, and the material supporting part (3) is arranged from back to front;

the feeding mechanism (4) comprises a push head (22), and the push head (22) is in transmission connection with a front-back movement driving device (23).

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