CN219968961U

CN219968961U - Clear useless separating centrifuge after cross cutting

Info

Publication number: CN219968961U
Application number: CN202220358733.2U
Authority: CN
Inventors: 甘青; 庞然
Original assignee: Chengxinchang Jiangsu Machinery Co ltd
Current assignee: Chengxinchang Jiangsu Machinery Co ltd
Priority date: 2022-02-22
Filing date: 2022-02-22
Publication date: 2023-11-07
Anticipated expiration: 2032-02-22

Abstract

The utility model provides a waste removing separator after die cutting, which comprises an upper separating head, a lower die assembly, a transfer truss and a frame, and is characterized in that: the transfer truss is arranged on the frame and is parallel to the horizontal plane, a separation station and a finished product stacking station are arranged below the transfer truss, the upper separation head is arranged on the transfer truss through a transfer slideway, the tooth gaps of the toothed plate of the toothed template are matched with the teeth of the multi-tooth fork plate of the upper separation head, and the upper separation head moves to the upper part of the finished product stacking station along the transfer truss after the separated finished product is placed on the multi-tooth fork plate. The waste removing separator after die cutting has the grabbing mechanism and the pin locking mechanism which can conveniently fork out the finished product, the finished product is not damaged when the finished product is taken out, the group pin die can be rapidly formed, and the waste removing separator has the advantages of simple process, low cost and high efficiency.

Description

Clear useless separating centrifuge after cross cutting

Technical Field

The utility model belongs to the technical field of color printing and packaging auxiliary equipment, and particularly relates to a die-cut waste removing separator capable of rapidly and efficiently separating finished products and waste materials.

Background

Along with the improvement of the living standard of Chinese people, the requirements of people on the packaging quality of products are higher and higher, and the color printing technology is basically adopted in the packaging industry at present. In the procedures of printing and die cutting the packaging box, the multi-layer integral packaging box after die cutting is generally subjected to waste removal and separation by adopting manpower, and scraps such as leftover materials and the like are removed and decomposed into useful parts of a single finished box so as to conveniently manufacture the finished box. The manual method has high labor intensity and low working efficiency. In addition, the current packaging technology is more and more complex, and the technological requirements on die-cut paper products are higher and higher, so that not only peripheral waste materials of the die-cut paper products are difficult to remove, but also special-shaped waste materials can be generated in the middle of the semi-finished paper products, and the possibility of damaging and scrapping the die-cut paper products is easily caused by adopting manual waste cleaning, so that the product quality is affected.

In the prior art, mechanical equipment capable of clearing waste is available, the heavy work which is needed to be completed manually before one to two machines and one to two people can be completed, and the yield, the efficiency and the quality can be greatly improved. For example, japanese patent pin-and-cardboard separators (JPA 1994238776) which separate the material cardboard after die cutting using a liftable group pin; senben also filed a series of patents related to waste removal (JPA 1991019795, JPA1991045336, JPA1995148698, JPA 174487). However, these prior art techniques have drawbacks such as complex tooling for removing the finished product after separating the scrap from the useful portion of the finished product, and even damaging the finished product, such that manual assistance is required to remove the finished product, which is complicated and costly.

Disclosure of Invention

The utility model aims to provide a waste removing separator after die cutting, which is provided with a grabbing mechanism for conveniently forking and inserting finished products, and the finished products are not damaged when taken out, so that the process is simple, the cost is low and the efficiency is high.

The specific technical scheme of the utility model is a waste removal separator after die cutting, which comprises an upper separating head, a lower die assembly, a transfer truss and a frame, and is characterized in that:

the transfer truss is arranged on the frame and is parallel to the horizontal plane, a separation station and a finished product stacking station are arranged below the transfer truss, the transfer truss is provided with a horizontal transfer slideway,

the upper separating head is arranged on the transferring truss through a transferring slideway and can move along the transferring truss, the upper separating head comprises a multi-tooth fork plate which is a tooth-shaped plate and is provided with a plurality of parallel teeth extending towards the conveying direction of the die-cut materials to be separated,

the lower die assembly is arranged on the separating station and positioned below the upper separating head, the lower die assembly comprises a toothed die plate, pins, a toothed die plate matching plate and a hydraulic lifting mechanism, the toothed die plate is also provided with a plurality of parallel teeth which are opposite to the teeth of the multi-toothed fork plate of the upper separating head, the pins are vertically arranged on the lower surface of the toothed die plate, the outline shape of the toothed die plate is the same as that of a separated finished product, the toothed die plate and the toothed die plate matching plate are matched to form a complete plane for placing a die-cut material to be separated, after the toothed die plate is lifted up by group pins formed by the pins, the separated finished product can be separated from the separated die-cut material, the hydraulic lifting mechanism is used for pushing the group pins to lift,

the tooth gaps of the plurality of teeth of the toothed template are matched with the teeth of the multi-tooth fork plate of the upper separating head, separated finished products can be placed on the multi-tooth fork plate, the upper separating head moves to the upper part of the finished product stacking station along the transferring truss, and the multi-tooth fork plate is retracted to place the separated finished products on the finished product stacking station.

Still further, last separating head still include vertical side shield, holding down plate and last separating head mounting bracket, last separating head mounting bracket install on transporting the truss through transporting the slide, it can be along transporting the truss and remove, side shield and multidentate fork plate install respectively through parallel horizontal slide rail on last separating head mounting bracket, horizontal slide rail and the direction of stretching out of multidentate fork plate's tooth parallel, the holding down plate install on last separating head mounting bracket through perpendicular slide rail, work as the crowd round pin with the finished product after separating when ejecting, the holding down plate pushes down the upper surface of the finished product after separating through gravity, the side shield is located on the upper surface of multidentate fork plate and the finished product after separating, after last separating head mounting bracket moved the finished product stacking station, multidentate fork plate is taken out, the finished product after separating both placed in the finished product stacking station.

Still further still include finished product conveying mechanism, it includes direct-drive motor, lead screw, off-load cover, shift fork, load-bearing frame and conveyer frame, direct-drive motor and lead screw install on the conveyer frame, lead screw and screw constitute lead screw slider pair, direct-drive motor drive lead screw rotation, off-load cover overlap on the screw, have annular recess on the outer cylinder of off-load cover, two fork bars card of shift fork go into the annular recess of off-load cover, shift fork and off-load cover form loose fit, shift fork fixed mounting is in the bottom of load-bearing frame, load-bearing frame can slide on the conveyer frame through the load-bearing slider rail pair of installing on the conveyer frame, load-bearing slider rail pair's track and lead screw parallel.

Further, the direct drive motor, the lead screw, the nut, the unloading sleeve and the shifting fork are arranged on the symmetrical central line of the bearing frame and the conveyor base, and the lead screw is arranged on the conveyor base through a bearing.

Still further still include separation transport mechanism, separation transport mechanism be used for with the separation behind the cross cutting material of waiting to separate to go up the separation station under the separation head, separation transport mechanism includes transfer rail, transfer frame, swager pole mounting bracket, swager pole (24) and servo, transfer frame be used for the location to place the cross cutting behind the material of waiting to separate, it installs on transfer rail, can convey the cross cutting behind the material of waiting to separate to the position of crowd round pin jack-up mould through servo, swager pole mounting bracket have two, fixed mounting is in the both sides of separation station, swager pole (24) have two, install respectively on swager pole mounting bracket, be located the cross cutting behind the material of waiting to separate, when crowd round pin jack-up, push down the waste material portion that belongs to after the separation.

Still further, still include cross cutting back material storage rack, collapsible waste material board and waste material case, cross cutting back material storage rack be used for depositing the cross cutting back material that waits to separate, collapsible waste material board can roll down with the waste material after the separation pour into the waste material case.

The utility model has the beneficial effects that 1) the waste removing separator after die cutting is provided with the toothed template at the head part of the pin, so that a die formed by the pin matched with a finished product can not damage the finished product, and a multi-tooth fork plate matched with the toothed template can easily take out the separated finished product; 2) The finished product conveying mechanism can ensure that the deformation force of the bearing frame is not transmitted to the transmission mechanism through the loose fit of the shifting fork and the unloading sleeve, so that equipment damage is not easy to cause; 3) The separating and conveying mechanism can conveniently and accurately convey the die-cut materials to be separated to the separating station. The waste clearing separator after die cutting has the advantages of simple process, low cost and high efficiency, and changes the state of unstable separation quality of the waste clearing separator after die cutting in the prior art.

Drawings

FIG. 1 is a schematic perspective view of a waste removal separator after die cutting;

FIG. 2 is a front view of the post die-cut waste separator of the present utility model;

FIG. 3 is a left side view of the post die-cut waste separator of the present utility model;

FIG. 4 is a top view of the post die-cut scrap separator of the present utility model (to illustrate more structures, components, with some overlapping lines not blanked);

FIG. 5 is a schematic perspective view of the waste separator after die cutting (separator hood removed) according to the present utility model;

FIG. 6 is a schematic perspective view (initial state) of a finished product grabbing mechanism formed by a lower die assembly and an upper separating head of the waste removing separator after die cutting;

FIG. 7 is a schematic perspective view of a finished product grabbing mechanism (putting in die-cut materials to be separated) formed by a lower die assembly and an upper separating head of the die-cut waste removing separator;

FIG. 8 is a schematic perspective view of a finished product grabbing mechanism (a group pin lifts and separates finished products and waste materials) formed by a lower die assembly and an upper separating head of the waste clearing separator after die cutting;

FIG. 9 is a schematic perspective view of a finished product grabbing mechanism formed by a lower die assembly and an upper separating head of the waste removing separator after die cutting (a multi-tooth fork plate is inserted into the bottom of a finished product);

FIG. 10 is a schematic perspective view of a finished product grabbing mechanism formed by a lower die assembly and an upper separating head of the waste removing separator after die cutting (a multi-tooth fork plate is positioned in a gap between teeth of a toothed template, and the toothed template is lowered to place a finished product on the multi-tooth fork plate);

FIG. 11 is a schematic perspective view of a finished product grabbing mechanism formed by a lower die assembly and an upper separating head of the die-cut waste removal separator of the present utility model (a multi-tooth fork plate conveys a finished product away);

FIG. 12 is a front view (partially cut away) of the finished product conveyor of the post-die cut waste separator of the present utility model;

FIG. 13 is a view in the A-A direction of FIG. 12;

FIG. 14 is a schematic perspective view showing the cooperation of the fork and the unloading sleeve of the finished product conveying mechanism of the waste removing separator after die cutting;

FIG. 15 is a schematic perspective view of the finished product conveyor of the post-die-cut waste separator of the present utility model (parts not blanked for clarity);

in the drawing the view of the figure,

the die-cut material 01 to be separated, the waste 02 after separation, the finished product 03 after separation,

the material storage rack 1 after die cutting,

a separation conveying mechanism 2, a conveying rail 21, a conveying frame 22, a material pressing rod mounting frame 23, a material pressing rod 24,

an upper separating head 3, a side baffle 31, a multi-tooth fork plate 32, a lower pressure plate 33,

a lower die assembly 4, a toothed die plate 41, a pin 42, a toothed die plate mating plate 43,

a transfer truss 5 is provided which,

the finished product conveying mechanism 6, a direct drive motor 61, a lead screw 62, a nut 63, an unloading sleeve 64, a shifting fork 65, a bearing frame 66, a conveying base 67,

a frame 7, a foldable waste plate 8 and a waste storage box 9.

Detailed Description

The following structural description and the accompanying drawings further describe the specific technical scheme of the present utility model.

As shown in figures 1-5, the waste removing separator after die cutting comprises a material storage rack 1 after die cutting, a separation conveying mechanism 2, an upper separation head 3, a lower die assembly 4, a transfer truss 5, a finished product conveying mechanism 6, a frame 7, a foldable waste plate 8 and a waste storage box 9.

The separating and conveying mechanism 2 is used for conveying the die-cut materials 01 to be separated to a separating station below the upper separating head 3, the separating and conveying mechanism 2 comprises a conveying rail 21, a conveying frame 22, a pressing rod mounting frame 23, a pressing rod 24, a conveying bottom plate and a servo mechanism, the conveying frame 22 is used for positioning and placing the die-cut materials 01 to be separated, the separating and conveying mechanism is arranged on the conveying rail 21, the die-cut materials 01 to be separated can be conveyed to the position of the group pin jacking die through the servo mechanism, and the conveying bottom plate is located below the conveying frame 22 and is located on the same plane with the toothed template matching plate 43 of the lower die assembly 4. The two pressing rod mounting frames 23 are fixedly arranged on two sides of the separation station, the two pressing rods 24 are respectively arranged on the pressing rod mounting frames 23 and are positioned on the materials 01 after die cutting to be separated, and when the group pins are lifted, the parts belonging to the separated waste 02 are pressed. The mounting frame 23 of the pressing rod is provided with a plurality of oblong holes, so that the position of the pressing rod 24 can be conveniently adjusted according to different die-cut materials 01 to be separated.

The die-cut material storage rack 1 is used for storing die-cut materials 01 to be separated, and the foldable waste plates 8 can be folded down to pour separated waste 02 into the waste storage box 9. The foldable waste plate 8 is located at the outer side of the separation station, the foldable waste plate 8, the conveying bottom plate and the toothed template matching plate 43 are located on the same plane, and the separation conveying mechanism 2 can convey separated waste 02 onto the foldable waste plate 8.

The transfer truss 5 is arranged on the frame 7 and is parallel to the horizontal plane, and a separation station and a finished product stacking station are arranged below the transfer truss 5.

As shown in fig. 5 to 11, the upper separating head 3 is mounted on the transfer truss 5 through a transfer slideway, and can move along the transfer truss 5, and the upper separating head 3 comprises a vertical side baffle 31, a multi-tooth fork plate 32, a lower pressing plate 33 and an upper separating head mounting frame, wherein the multi-tooth fork plate 32 is provided with a plurality of parallel teeth extending towards the conveying direction of the materials 01 after die cutting to be separated. The conveying direction of the die-cut materials 01 to be separated, which are conveyed by the separation conveying mechanism 2, is vertical to the transferring truss 5.

The lower die assembly 4 is arranged on the separating station and is positioned below the upper separating head 3, the lower die assembly 4 comprises a toothed die plate 41, pins 42, a toothed die plate matching plate 43 and a hydraulic lifting mechanism, the toothed die plate 41 is also provided with a plurality of parallel teeth opposite to the tooth direction of the multi-toothed fork plate 32 of the upper separating head 3, the pins 42 are vertically arranged on the lower surface of the toothed die plate 41, the outline shape of the toothed die plate 41 is the same as that of a separated finished product 03, the toothed die plate 41 and the toothed die plate matching plate 43 are matched to form a completed plane for placing the die-cut material 01 to be separated, which is conveyed by the conveying frame 22 of the separating conveying mechanism 2, and the toothed die plate 41 can separate the separated finished product 03 from the die-cut material 01 after the group pins formed by the pins 42 are lifted. The hydraulic lifting mechanism is used for pushing the group pins to lift. The locking method of the group pin can be a locking method in the prior art.

The tooth gaps of the plurality of teeth of the toothed template 41 are matched with the teeth of the multi-tooth fork plate 32 of the upper separating head 3, so that the separated finished product 03 can be placed on the multi-tooth fork plate 32, the upper separating head 3 moves to the upper part of the finished product stacking station along the transferring truss 5, and the multi-tooth fork plate 32 is retracted to place the separated finished product 03 on the finished product stacking station.

The upper separating head mounting frame is mounted on the transferring truss 5 through a transferring slideway, the upper separating head mounting frame can move along the transferring truss 5, the side baffle plate 31 and the multi-tooth fork plate 32 are mounted on the upper separating head mounting frame through parallel horizontal sliding rails, the horizontal sliding rails are parallel to the extending directions of teeth of the multi-tooth fork plate 32, the lower pressing plate 33 is mounted on the upper separating head mounting frame through vertical sliding rails, when the group pins eject separated finished products 03, the lower pressing plate 33 presses down on the upper surface of the separated finished products 03 through gravity, the side baffle plate 31 is positioned on the upper surface of the multi-tooth fork plate 32 and blocks the separated finished products 03, and the separated finished products 03 cannot be scattered due to the blocking of the side baffle plate 31, after the upper separating head mounting frame moves to a finished product stacking station, the multi-tooth fork plate 32 is pulled out, and the separated finished products 03 can be placed on the finished product stacking station. The specific working process is as follows.

As shown in fig. 6-7, the toothed die plate 41 and the toothed die plate mating plate 43 cooperate to form a complete plane for placement of the die cut material 01 to be separated.

As shown in fig. 8-9, after the toothed template 41 is lifted up on the group pins formed by the pins 42, the separated finished product 03 can be separated from the separated die-cut material 01, and the gaps between the teeth of the toothed template 41 are matched with the teeth of the multi-tooth fork plate 32, so that the separated finished product 03 can be placed on the multi-tooth fork plate 32.

After the drop of the group of pins formed by the plurality of pins 42 as illustrated in fig. 10-11, the separated finished product 03 is placed on the multi-tooth fork plate 32. The multi-tooth fork plate 32 then transfers the separated finished product 03 to a stacking station.

As shown in fig. 12-15, the finished product conveying mechanism comprises a direct drive motor 61, a screw 62, a screw 63, an unloading sleeve 64, a shifting fork 65, a bearing frame 66 and a conveying base 67, wherein the direct drive motor 61 and the screw 62 are arranged on the conveying base 67, the screw 62 and the screw 63 form a screw slider pair, the direct drive motor 61 drives the screw 62 to rotate, the unloading sleeve 64 is sleeved on the screw 63, an annular groove is formed in the outer cylindrical surface of the unloading sleeve 64, two fork rods of the shifting fork 65 are clamped into the annular groove of the unloading sleeve 64, the shifting fork 65 is in loose fit with the unloading sleeve 64, the bottom of the bearing frame 66 is fixedly arranged on the shifting fork 65, the bearing frame 66 can slide on the conveying base 67 through a bearing slider track pair arranged on the conveying base 67, and the track of the bearing slider track pair is parallel to the screw 62. The direct drive motor 61, the lead screw 62, the nut 63, the unloading sleeve 64 and the shifting fork 65 are arranged on the symmetrical central line of the bearing frame 66 and the conveyor base 67, and the lead screw 62 is arranged on the conveyor base 67 through a bearing.

The working principle of the waste removing separator after die cutting is that the unnecessary pins 42 are taken out according to the requirement of a jacking mould of the waste removing separator after die cutting, and the rest pins 42 are fixed. The lifting die is arranged on a waste removing separator after die cutting, a die-cut material 01 to be separated is taken out from a die-cut material storage rack 1 and is placed in a conveying frame 22 of a separation conveying mechanism 2, the separated finished product 03 of the die-cut material 01 to be separated is accurately positioned below the lifting die through a servo mechanism, a pressing rod 24 is arranged, a lower pressing plate 33 is pressed on the separated waste 02 through gravity, the lifting die is lifted by a hydraulic lifting mechanism to separate the separated finished product 03 from the separated waste 02, a multi-tooth fork plate 32 is inserted between teeth of a toothed template 41 and a side baffle plate 31 is used for blocking the side face of the separated finished product 03, the separated finished product 03 is placed on teeth of the multi-tooth fork plate 32 after the lifting die is lowered, the separated finished product 03 is rotated to a finished product station through a transfer truss 5, and then the multi-tooth fork plate 32 is pulled out, and the side baffle plate 31 and the lower pressing plate 33 are lifted.

While the utility model has been disclosed in terms of preferred embodiments, the embodiments are not intended to limit the utility model. Any equivalent changes or modifications can be made without departing from the spirit and scope of the present utility model, and are intended to be within the scope of the present utility model. The scope of the utility model should therefore be determined by the following claims.

Claims

1. The utility model provides a clear useless separating centrifuge after cross cutting, includes separation head (3), lower mould subassembly (4), transports truss (5) and frame (7), its characterized in that:

the transfer truss (5) is arranged on the frame (7) and is parallel to the horizontal plane, a separation station and a finished product stacking station are arranged below the transfer truss (5), the transfer truss (5) is provided with a horizontal transfer slideway,

the upper separating head (3) is arranged on the transferring truss (5) through a transferring slideway, and can move along the transferring truss (5), the upper separating head (3) comprises a multi-tooth fork plate (32), the multi-tooth fork plate (32) is a toothed plate and is provided with a plurality of parallel teeth extending towards the conveying direction of the die-cut materials (01) to be separated,

the lower die assembly (4) is arranged on the separating station and positioned below the upper separating head (3), the lower die assembly (4) comprises a toothed die plate (41), pins (42), a toothed die plate matching plate (43) and a hydraulic lifting mechanism, the toothed die plate (41) is also provided with a plurality of parallel teeth opposite to the tooth direction of the multi-tooth fork plate (32) of the upper separating head (3), the pins (42) are vertically arranged on the lower surface of the toothed die plate (41), the outline shape of the toothed die plate (41) is the same as that of a separated finished product (03), the toothed die plate (41) and the toothed die plate matching plate (43) are matched to form a complete plane for placing a die-cut material (01) to be separated, after the group pins formed by the toothed die plate (41) are lifted, the separated finished product (03) can be separated from the separated die-cut material (01), the hydraulic lifting mechanism is used for pushing the group pins to lift,

the tooth gaps of the plurality of teeth of the toothed template (41) are matched with the teeth of the multi-tooth fork plate (32) of the upper separating head (3), the separated finished product (03) can be placed on the multi-tooth fork plate (32), the upper separating head (3) moves to the upper part of the finished product stacking station along the transferring truss (5), and the multi-tooth fork plate (32) is retracted to place the separated finished product (03) on the finished product stacking station.

2. The post-die-cutting waste removal separator as claimed in claim 1, wherein the upper separating head (3) further comprises a vertical side baffle plate (31), a lower pressing plate (33) and an upper separating head mounting frame, the upper separating head mounting frame is mounted on the transfer truss (5) through a transfer slideway and can move along the transfer truss (5), the side baffle plate (31) and the multi-tooth fork plate (32) are mounted on the upper separating head mounting frame through parallel horizontal sliding rails respectively, the horizontal sliding rails are parallel to the extending directions of teeth of the multi-tooth fork plate (32), the lower pressing plate (33) is mounted on the upper separating head mounting frame through vertical sliding rails, when the group pins eject separated finished products (03), the lower pressing plate (33) is pressed down on the upper surface of the separated finished products (03) through gravity, the side baffle plate (31) is positioned on the upper surface of the multi-tooth fork plate (32) to block the separated finished products (03), the upper separating head is moved to the finished products stacking station, the multi-tooth fork plate (32) is pulled out, and the separated products are placed at the stacking station.

3. The post-die-cutting waste removal separator as claimed in claim 2, further comprising a finished product conveying mechanism (6) comprising a direct drive motor (61), a screw (62), a screw (63), an unloading sleeve (64), a shifting fork (65), a bearing frame (66) and a conveying base (67), wherein the direct drive motor (61) and the screw (62) are mounted on the conveying base (67), the screw (62) and the screw (63) form a screw slider pair, the direct drive motor (61) drives the screw (62) to rotate, the unloading sleeve (64) is sleeved on the screw (63), an annular groove is formed in the outer cylindrical surface of the unloading sleeve (64), two fork rods of the shifting fork (65) are clamped into the annular groove of the unloading sleeve (64), the shifting fork (65) and the unloading sleeve (64) form loose fit, the shifting fork (65) is fixedly mounted at the bottom of the bearing frame (66), the bearing frame (66) can slide on the conveying base (67) through a bearing slider rail pair mounted on the conveying base (67), and the bearing frame (67) is parallel to the bearing slider pair.

4. A post-die-cutting waste removal separator as claimed in claim 3, wherein the direct drive motor (61), the screw (62), the nut (63), the unloading sleeve (64), the fork (65) are arranged on the symmetry center line of the carrying frame (66) and the conveyor base (67), and the screw (62) is mounted on the conveyor base (67) through bearings.

5. The post-die-cutting waste removal separator as claimed in claim 2, further comprising a separation conveying mechanism (2), wherein the separation conveying mechanism (2) is used for conveying the post-die-cutting material (01) to be separated to a separation station below the upper separation head (3), the separation conveying mechanism (2) comprises a conveying track (21), a conveying frame (22), a pressing rod mounting frame (23), a pressing rod (24) and a servo mechanism, the conveying frame (22) is used for positioning and placing the post-die-cutting material (01) to be separated, the post-die-cutting material (01) is mounted on the conveying track (21) and can be conveyed to a group pin jacking die through the servo mechanism, two pressing rod mounting frames (23) are fixedly mounted on two sides of the separation station, and the two pressing rods (24) are respectively mounted on the pressing rod mounting frames (23) and located above the post-die-cutting material (01) to be separated and press the part of the post-die-cutting material (02) after being separated when the group pin is jacked.

6. The post-die-cutting waste removal separator as claimed in claim 1, further comprising a post-die-cutting material storage rack (1), a foldable waste plate (8) and a waste storage box (9), wherein the post-die-cutting material storage rack (1) is used for storing a post-die-cutting material (01) to be separated, and the foldable waste plate (8) can be folded down to pour separated waste (02) into the waste storage box (9).