阅读说明：本技术 模切收料堆码机 (Cross cutting receipts material stacking machine ) 是由 叶茶元 于 2019-09-23 设计创作，主要内容包括：本发明公开了一种模切收料堆码机,其技术方案要点是包括左拍板和右拍板,左拍板和右拍板相对于分隔板对称设置,并铰接在收料挡板的两侧,左气缸安装在收料挡板上,并设置在左拍板的左侧,左气缸的伸缩端连接在左拍板上,右气缸安装在收料挡板上,并设置在右拍板的右侧,右气缸的伸缩端连接在右拍板上。本发明具有以下有益效果：分隔板将并排的模切品左右分离,左气缸驱动左拍板拍在左侧模切品的侧边,使左侧模切品齐整,右气缸驱动右拍板拍在右侧模切品的侧边,使右侧模切品齐整,将双模切的成品左右两侧并排整齐堆放,便于后续加工或包装。(The invention discloses a die-cutting material-receiving stacking machine which comprises a left clapper and a right clapper, wherein the left clapper and the right clapper are symmetrically arranged relative to a partition plate and hinged to two sides of a material-receiving baffle, a left air cylinder is arranged on the material-receiving baffle and arranged on the left side of the left clapper, the telescopic end of the left air cylinder is connected to the left clapper, a right air cylinder is arranged on the material-receiving baffle and arranged on the right side of the right clapper, and the telescopic end of the right air cylinder is connected to the right clapper. The invention has the following beneficial effects: the left cylinder drives the left clapper to clap on the side edge of the left die-cut product to ensure that the left die-cut product is neat, the right cylinder drives the right clapper to clap on the side edge of the right die-cut product to ensure that the right die-cut product is neat, and the left side and the right side of a finished product of double die-cutting are stacked side by side in order to facilitate subsequent processing or packaging.)

1. Cross cutting receipts material stacking machine, characterized by: the die-cutting machine comprises a front baffle (11) used for limiting die-cutting products, a material receiving bottom plate (12) used for placing the die-cutting products and a material receiving baffle (13) used for blocking the die-cutting products, wherein the front baffle (11) is vertically arranged at the front end of the material receiving bottom plate (12), the material receiving baffle (13) is vertically arranged at the rear end of the material receiving bottom plate (12), a partition plate (14) used for separating the side-by-side die-cutting products from left and right is vertically arranged on the material receiving bottom plate (12), a left air cylinder (131), a right air cylinder (132), a left clapper (133) and a right clapper (134) are arranged on the material receiving baffle (13), the left clapper (133) and the right clapper (134) are symmetrically arranged relative to the partition plate (14) and hinged to two sides of the material receiving baffle (13), the left air cylinder (131) is arranged on the material receiving baffle (13) and arranged on the left side of the left clapper (133), and the telescopic end of the, the right air cylinder (132) is installed on the material receiving baffle (13) and arranged on the right side of the right clapper (134), and the telescopic end of the right air cylinder (132) is connected to the right clapper (134).

2. The die-cut material receiving and stacking machine of claim 1, wherein: the receiving bottom plate (12) is connected with a connecting rod lifting mechanism (2) and a driving device (3) used for controlling the connecting rod lifting mechanism (2) to lift, a lifting table plate (21) used for placing die-cut products is arranged on the connecting rod lifting mechanism (2), and the lifting table plate (21) is provided with a through hole (211) for a partition plate (14) to pass through.

3. The die-cut material receiving and stacking machine of claim 2, wherein: the connecting rod lifting mechanism (2) is divided into a left side four-connecting rod (22) and a right side four-connecting rod (23), the lower ends of the left side four-connecting rod (22) and the right side four-connecting rod (23) are connected to the material receiving bottom plate (12), the upper ends of the left side four-connecting rod (22) and the right side four-connecting rod (23) are connected to the back face of the lifting bedplate (21), the driving device (3) comprises a first air cylinder (31) and a second air cylinder (32), the telescopic end of the first air cylinder (31) is connected with the left side four-connecting rod (22), and the telescopic end of the second air cylinder (32) is connected with the right side four-connecting rod (23).

4. The die-cut material receiving and stacking machine of claim 2, wherein: and a pulley (212) used for reducing friction with the partition plate (14) is rotatably connected to the inner wall of the through hole (211).

5. The die-cut material receiving and stacking machine of claim 2, wherein: the lifting table plate is characterized in that a left placing plate (23) and a right placing plate (24) are arranged on the lifting table plate (21), the left placing plate (23) and the right placing plate (24) are respectively placed on two sides of the separation plate (14), the left side and the right side of the lifting table plate (21) are respectively hinged with a left baffle plate (213) and a right baffle plate (214), the lower ends of the left baffle plate (213) and the right baffle plate (214) are respectively provided with a shaft hole (215) and a pin shaft (25), the pin shaft (25) and the shaft hole (215) are arranged in a sliding mode, the side faces of the left side and the right side of the lifting table plate (21) are respectively provided with a pin hole (216) for inserting the pin shaft (25), and the upper ends of the left baffle plate (213) and the right baffle plate (214).

6. The die-cut material receiving and stacking machine of claim 1, wherein: the receiving baffle (13) is provided with an inserting plate (15) for replacing the left placing plate (213) and/or the right placing plate (214) without stopping and an inserting hole (135) for the inserting plate (15) to pass through, and the inserting plate (15) is provided with a limiting plate (151) and a push-pull handle (152).

7. The die-cut material receiving and stacking machine of claim 1, wherein: a left connecting rod (1331) and a left telescopic plate (1332) are arranged on the left clapper (133), a first telescopic cavity (1333) is arranged on the left telescopic plate (1332), a first limiting bulge (1334) is arranged at the opening of the first telescopic cavity (1333), one end of the left connecting rod (1331) is fixed on the left clapper (133), and the other end of the left connecting rod (1331) extends into the first telescopic cavity (1333) and is provided with a first limiting block (1335); the racket plate comprises a right racket plate (134), and is characterized in that a right connecting rod (1341) and a right telescopic plate (1342) are arranged on the right racket plate (134), a second telescopic cavity (1343) is arranged on the right telescopic plate (1342), a second limiting protrusion (1344) is arranged at the opening of the second telescopic cavity (1343), one end of the right connecting rod (1341) is fixed on the right racket plate (134), and the other end of the right connecting rod (1341) is arranged in the second telescopic cavity (1343) in a sliding mode and provided with a second limiting block (1345).

8. The die-cut material receiving and stacking machine of claim 1, wherein: the upper end and the lower end of the left clapper (133) and the right clapper (134) are respectively provided with an outward-inclined bend (136).

9. The die-cut material receiving and stacking machine of claim 1, wherein: be provided with screw hole (111), adjusting screw (112) and push pedal (113) on preceding baffle (11), adjusting screw (112) and screw hole (111) threaded connection, the front end of adjusting screw (112) is provided with adjustment handle (114), the rear end of adjusting screw (112) stretches out screw hole (111) and is connected with push pedal (113), the upper end of push pedal (113) is provided with oblique slide board (115) that are used for the cross cutting article to slide in.

Technical Field

The invention relates to a packaging printing machine, in particular to a die-cutting, material-receiving and stacking machine.

Background

The die cutting machine is an important device for packaging and processing molding after printing, and is mainly used for die cutting, indentation and gold stamping operation, fitting and automatic waste discharge of corresponding nonmetal materials, non-setting adhesive, EVA, double faced adhesive tape, electronic, mobile phone rubber mats and the like.

And after the printed product or the paperboard is rolled and cut, the material receiving mechanism collects a finished product. The existing double-die-cutting material receiving stacking machine is difficult to receive materials, finished products cannot be stacked in order, and subsequent processing or packaging is difficult to carry out.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a die-cutting, material-receiving and stacking machine which stacks finished products subjected to double die cutting side by side in order and is convenient for subsequent processing or packaging.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a cross cutting is received material stacking machine, including the preceding baffle that is used for spacing cross cutting article, a receipts material baffle that is used for placing the receipts bottom plate of cross cutting article and is used for blocking the cross cutting article, the vertical setting of preceding baffle is at the front end of receiving the material bottom plate, receive the vertical setting of material baffle at the rear end of receiving the material bottom plate, receive the vertical division board that will separate about the cross cutting article side by side that is provided with on the material bottom plate, receive and be provided with left cylinder on the material baffle, right cylinder, left side clapper and right clapper set up for the division board symmetry, and articulate the both sides of receiving the material baffle, left cylinder is installed on receiving the material baffle, and set up the left side at left clapper, the flexible end of left cylinder is connected on left clapper, right cylinder is installed on receiving the material baffle, and set up the.

The invention is further configured to: the material receiving bottom plate is connected with a connecting rod lifting mechanism and a driving device for controlling the connecting rod lifting mechanism to lift, a lifting table plate for placing die-cut products is arranged on the connecting rod lifting mechanism, and the lifting table plate is provided with a through hole for the partition plate to pass through.

The invention is further configured to: connecting rod elevating system divide into left side four connecting rods and right side four connecting rods, and the lower extreme of left side four connecting rods and right side four connecting rods all is connected on receiving the material bottom plate, and the back at the lift platen is all connected to the upper end of left side four connecting rods and right side four connecting rods, and drive arrangement includes first cylinder and second cylinder, and the left side four connecting rods are connected to the flexible end of first cylinder, and the right side four connecting rods are connected to the flexible end of second cylinder.

The invention is further configured to: the inner wall of the through hole is rotatably connected with a pulley used for reducing friction with the partition plate.

The invention is further configured to: it places the board and places the board on the right side to be provided with a left side on the lift platen, places the board on a left side and places the board on the right side and place respectively on the both sides of division board, and the left and right sides of lift platen articulates respectively has left baffle and right baffle, and the lower extreme of left baffle and right baffle all is provided with shaft hole and round pin axle, and round pin axle and shaft hole slide the setting, all is provided with on the side of the lift platen left and right sides and supplies round pin axle male pinhole, and the upper end of left baffle and right baffle all is provided with the hang plate that leans.

The invention is further configured to: the receiving baffle is provided with an inserting plate for replacing the left placing plate and/or the right placing plate without stopping the machine and an inserting hole for the inserting plate to penetrate through, and the inserting plate is provided with a limiting plate and a push-pull handle.

The invention is further configured to: the left clapper is provided with a left connecting rod and a left expansion plate, the left expansion plate is provided with a first expansion cavity, a cavity opening of the first expansion cavity is provided with a first limiting bulge, one end of the left connecting rod is fixed on the left clapper, and the other end of the left connecting rod extends into the first expansion cavity and is provided with a first limiting block; the right clapper is provided with a right connecting rod and a right expansion plate, the right expansion plate is provided with a second expansion cavity, a cavity opening of the second expansion cavity is provided with a second limiting bulge, one end of the right connecting rod is fixed on the right clapper, and the other end of the right connecting rod is arranged in the second expansion cavity in a sliding manner and is provided with a second limiting block;

the invention is further configured to: the upper end and the lower end of the left clapper and the right clapper are both provided with outward-inclined bends.

The invention is further configured to: be provided with screw hole, adjusting screw and push pedal on the preceding baffle, adjusting screw and screw hole threaded connection, adjusting screw's front end is provided with adjustment handle, and adjusting screw's rear end stretches out the screw hole and is connected with the push pedal, and the upper end of push pedal is provided with the oblique slide board that is used for guiding the cross cutting article and slides in.

In conclusion, the invention has the following beneficial effects: after the material transporting device die-cut product is sent into the material receiving device, the material receiving baffle blocks the die-cut product, the front baffle is matched with the material receiving baffle, the die-cut product is guided to be stacked at the same position on the material receiving bottom plate, the die-cut product is separated from the left side and the right side by the separating plate, the left side of the left side die-cut product is patted by the left side patting plate driven by the left air cylinder, the left side die-cut product is neat, the right side die-cut product is patted by the right side patting plate driven by the right air cylinder, the right side die-cut product is neat, the.

Drawings

FIG. 1 is a right side schematic view of a die-cutting, material-receiving and stacking machine;

FIG. 2 is a left side schematic view of the die-cutting, material-receiving and stacking machine;

FIG. 3 is a schematic top view of the die-cutting, material-receiving and stacking machine;

FIG. 4 is a schematic view of the connection structure of the right baffle of the die-cutting material-receiving stacking machine.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1-4, a die-cutting receiving stacking machine comprises a front baffle 11 for limiting die-cutting products, a receiving bottom plate 12 for placing the die-cutting products and a receiving baffle 13 for blocking the die-cutting products, wherein the front baffle 11 is vertically arranged at the front end of the receiving bottom plate 12, the receiving baffle 13 is vertically arranged at the rear end of the receiving bottom plate 12, a separating plate 14 for separating the die-cutting products side by side from left to right is vertically arranged on the receiving bottom plate 12, a left air cylinder 131, a right air cylinder 132, a left clapper 133 and a right clapper 134 are arranged on the receiving baffle 13, the left clapper 133 and the right clapper 134 are symmetrically arranged relative to the separating plate 14 and hinged at two sides of the receiving baffle 13, the left air cylinder 131 is arranged on the receiving baffle 13 and arranged at the left side of the left clapper 133, the telescopic end of the left air cylinder 131 is connected to the left clapper 133, the right air cylinder 132 is arranged on the receiving baffle 13, the telescopic end of the right cylinder 132 is connected to the right paddle 134.

Through the scheme, after the material conveying device sends die-cut products into the material receiving device 1, the die-cut products are blocked by the material receiving baffle 13, the front baffle 11 is matched with the material receiving baffle 13 to guide the die-cut products to be stacked at the same position on the material receiving bottom plate 12, the side-by-side die-cut products are separated by the separating plate 14 left and right, the left air cylinder 131 drives the left clapper 133 to clap at the side edge of the left die-cut products, so that the left die-cut products are neat, the right air cylinder 132 drives the right clapper 134 to clap at the side edge of the right die-cut products, so that the right die-cut products are neat, the left and right sides.

As a modified specific embodiment, the material receiving bottom plate 12 is connected with a connecting rod lifting mechanism 2 and a driving device 3 for controlling the lifting of the connecting rod lifting mechanism 2, a lifting table plate 21 for placing die-cutting products is arranged on the connecting rod lifting mechanism 2, and the lifting table plate 21 is provided with a through hole 211 for the partition plate 14 to pass through.

Through the scheme, the driving device 3 controls the connecting rod lifting mechanism 2 to lift, so that the lifting table plate 21 for placing the die-cut products is lifted, and when the lifting table plate 21 is used, the lifting table plate 21 slowly descends along with the stacking of the die-cut products, the falling distance is reduced, and the die-cut products can be stacked in order.

As a modified specific embodiment, the link lifting mechanism 2 is divided into a left four-bar linkage 22 and a right four-bar linkage 23, the lower ends of the left four-bar linkage 22 and the right four-bar linkage 23 are both connected to the receiving bottom plate 12, the upper ends of the left four-bar linkage 22 and the right four-bar linkage 23 are both connected to the back of the lifting platen 21, the driving device 3 includes a first cylinder 31 and a second cylinder 32, the telescopic end of the first cylinder 31 is connected to the left four-bar linkage 22, and the telescopic end of the second cylinder 32 is connected to the right four-bar linkage 23.

Through the scheme, the first air cylinder 31 and the second air cylinder 32 are driven synchronously, so that the left four-bar linkage 22 and the right four-bar linkage 23 stretch synchronously, and the lifting bedplate 21 is lifted stably. The two sets of four-bar linkages enhance the stability of the lift platform 21 and increase the weight that the lift platform 21 can bear.

As a modified embodiment, a pulley 212 for reducing friction with the partition plate 14 is rotatably attached to the inner wall of the through hole 211.

Through the scheme, the friction between the pulley 212 and the partition plate 14 is reduced, so that the lifting bedplate 21 is lifted smoothly and stably.

As a modified specific embodiment, the lifting platform plate 21 is provided with a left placing plate 23 and a right placing plate 24, the left placing plate 23 and the right placing plate 24 are respectively placed on two sides of the partition plate 14, the left and right sides of the lifting platform plate 21 are respectively hinged with a left baffle 213 and a right baffle 214, the lower ends of the left baffle 213 and the right baffle 214 are respectively provided with a shaft hole 215 and a pin shaft 25, the pin shaft 25 and the shaft hole 215 are arranged in a sliding manner, the side surfaces of the left and right sides of the lifting platform plate 21 are respectively provided with a pin hole 216 for inserting the pin shaft 25, and the upper ends of the left baffle 213 and the right baffle 214 are respectively provided with an inclined plate 217 inclined outwards.

Through the scheme, when the left placing plate 23 and the right placing plate 24 are replaced and die-cut products are fully stacked, the pin shaft 25 is pulled out of the pin hole 216 and the shaft hole 215, the left baffle plate 213 and/or the right baffle plate 214 are turned, the left placing plate 23, the right placing plate 24 and the die-cut products stacked on the left placing plate 23 and the right placing plate 24 are taken out, the left placing plate 23 and the right placing plate 24 are replaced, the left placing plate 23 and the right placing plate 24 are detachably mounted on the lifting bedplate 21 through the structure, the replacement is quick and convenient, and the die-cut products are not prone to scattering in the carrying process. Left baffle 213 and right baffle 214 are vertical to be fixed in the left side and place the both sides of board 23 and right side board 24, make left side place board 23 and right side and place board 24 and be difficult for removing, steadily place the cross cutting article. The inclined plate 217 facilitates the die-cut products to be guided to the inner sides of the left and right blocking plates 213 and 214, and prevents the die-cut products from falling outside.

As a specific embodiment of improvement, the receiving baffle 13 is provided with an inserting plate 15 for replacing the left placing plate 213 and/or the right placing plate 214 without stopping the machine and an inserting hole 135 for the inserting plate 15 to pass through, and the inserting plate 15 is provided with a limiting plate 151 and a push-pull handle 152.

Through above-mentioned scheme, along with constantly stacking of cross cutting article, after stacking fully, can't continue to hold the cross cutting article, need shut down, take out the cross cutting article, restart machine again, waste time lacks work efficiency. In this embodiment, the insertion plate 15 is used for replacing the left placing plate 23 and/or the right placing plate 24 without shutdown, the insertion plate 15 penetrates through the insertion hole 135, at this time, the insertion plate 15 is located above the left placing plate 23 and/or the right placing plate 24 and is used for temporarily stacking die-cut products, the left placing plate 23 and/or the right placing plate 24 and stacked die-cut products are drawn out, after the replacement is completed, the insertion plate 15 is drawn out, the die-cut products on the insertion plate 15 are blocked by the receiving baffle 13 and slide down along the receiving baffle 13 and are re-stacked on the new left placing plate 23 and/or the new right placing plate 24, the shutdown replacement is not needed in the replacement process, the time waste is reduced, and the working efficiency is improved. The limiting plate 151 limits the length of the inserting plate 15 inserted into the device, the limiting plate 151 abuts against the material receiving baffle 13, the bearing of the inserting plate 15 is enhanced, and the inserting plate 15 is not easy to move in the using process. The push-pull handle 152 enables the board 15 to be inserted or withdrawn by hand, which is convenient for use.

As a modified specific embodiment, a left connecting rod 1331 and a left expansion plate 1332 are arranged on the left clapper 133, a first expansion cavity 1333 is arranged on the left expansion plate 1332, a first limiting protrusion 1334 is arranged at the opening of the first expansion cavity 1333, one end of the left connecting rod 1331 is fixed on the left clapper 133, and the other end of the left connecting rod 1331 extends into the first expansion cavity 1333 and is provided with a first limiting block 1335; a right connecting rod 1341 and a right expansion plate 1342 are arranged on the right clapper 134, a second expansion cavity 1343 is arranged on the right expansion plate 1342, a second limit bulge 1344 is arranged at the opening of the second expansion cavity 1343, one end of the right connecting rod 1341 is fixed on the right clapper 134, and the other end of the right connecting rod 1341 is slidably arranged in the second expansion cavity 1343 and is provided with a second limit block 1345;

through the above scheme, the left expansion plate 1332 extends and retracts along the left connecting rod 1331, and the first limiting protrusion 1334 of the cavity opening of the first expansion cavity 1333 keeps the first limiting block 1335 in the first expansion cavity 1333, so that the left expansion plate 1332 is not easy to disengage. The right expansion plate 1342 stretches along the right connecting rod 1341, and a second limiting block 1345 is blocked in the second expansion chamber 1343 by a second limiting bulge 1344 of the chamber opening of the second expansion chamber 1343, so that the right expansion plate 1342 is not easy to separate. The flapping range of the left expansion plate 1332 and the right expansion plate 1342 is adjusted to be suitable for die-cut products with different sizes and lengths, so that the die-cut products are stacked more neatly.

As a modified embodiment, the left flap 133 and the right flap 134 are provided at upper and lower ends thereof with outwardly inclined bends 136.

Through the scheme, when the left clapper 133 and the right clapper 134 clap the side faces of the die-cut products, the upper end of the bend 136 guides the die-cut products to slide into the stacking position, so that the die-cut products can be conveniently placed. Lower end bend 136 avoids influence of lower die cutting product on beating effect

As a modified specific embodiment, a threaded hole 111, an adjusting screw 112 and a push plate 113 are arranged on the front baffle 11, the adjusting screw 112 is in threaded connection with the threaded hole 111, an adjusting handle 114 is arranged at the front end of the adjusting screw 112, the rear end of the adjusting screw 112 extends out of the threaded hole 111 to be connected with the push plate 113, and an inclined sliding plate 115 for guiding the die-cut products to slide in is arranged at the upper end of the push plate 113.

Through the scheme, the adjusting handle 114 rotates, so that the connecting position of the adjusting screw rod 112 and the threaded hole 111 moves, the push plate 113 is pushed to move, the size of the stacking position is changed, the stacking position is suitable for the size of a product, the product is stacked more neatly, the oblique sliding plate 115 is convenient for a die-cut product to slide in, and the push plate 113 is convenient for limiting the die-cut product, so that the die-cut product is stacked neatly.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.