CN219006227U

CN219006227U - Clear useless equipment of efficient printed matter

Info

Publication number: CN219006227U
Application number: CN202122158019.7U
Authority: CN
Inventors: 蓝国欣
Original assignee: Shantou Shunxinlong Printing Machinery Co ltd
Current assignee: Shantou Shunxinlong Printing Machinery Co ltd
Priority date: 2021-09-07
Filing date: 2021-09-07
Publication date: 2023-05-12
Anticipated expiration: 2031-09-07

Abstract

The utility model discloses high-efficiency printed matter waste removing equipment which comprises a frame, a first lifting mechanism, a paper taking mechanism, a waste removing platform and a conveying mechanism, wherein the first lifting mechanism is arranged at the head end of the frame and is used for stacking paperboards and lifting the paperboards upwards, the paper taking mechanism is arranged above the first lifting mechanism and is used for sucking the paperboards on the first lifting mechanism, the waste removing platform is arranged in the middle of the frame, the paper taking mechanism is used for placing the paperboards on the waste removing platform, a plurality of vacuum suction holes are formed in the waste removing platform and are used for sucking the paperboards, the waste removing mechanism is arranged above the waste removing platform and is used for separating the paperboards on the waste removing platform from rim charge, the waste removing platform is used for sending the rim charge, and the paper taking mechanism and the waste removing mechanism are driven by the conveying mechanism to synchronously move horizontally. The utility model realizes the work of automatically taking paper, separating the rim charge, stacking and removing the rim charge of the printed matter, effectively improves the work efficiency and the product transportation efficiency, shortens the discard period and reduces the labor cost.

Description

Clear useless equipment of efficient printed matter

Technical Field

The utility model relates to the technical field of printed matter processing, in particular to high-efficiency printed matter waste cleaning equipment.

Background

In the production process of printed products (particularly die-cut paper printed products), a die-cutting machine cuts out printed product units on a paperboard according to the designed shape of the printed products, and in order to accelerate the die-cutting speed of the printed products, the current die-cutting machine adopts an incomplete cutting mode, namely, after die-cutting, the printed product units and the rim charge are adhered together through fine toothed blocks. Therefore, after the die cutting machine dies cutting, the whole stack of die-cut paper boards is placed on a processing position of the rim charge removing mechanism to remove the rim charge, namely, the printed product units and the rim charge are separated by tearing the printed product units and the rim charge through fine toothed blocks.

The Chinese patent No. 105058493A discloses a die-cut paper product rim charge removing device, which can randomly adjust the position of a paper product supporting seat according to the position of a paper product unit, improve the box removing speed, simultaneously eject the paper product unit out of the paper board through the combined action cooperation of an upper pressing mechanism, a lower pressing mechanism and two pressing sheets, avoid the paper product unit from being torn and producing waste products caused by manual box removing, and improve the box removing efficiency.

However, some manufacturers can die-cut at least two printed product units with different shapes on the paperboard, and when the paperboard containing at least two printed product units with different shapes is subjected to box removing operation, the first printed product unit with the first shape needs to be removed, and then the shape of the blank pressing edge of the blank pressing frame is readjusted, so that the blank pressing frame is matched with the printed product unit with the second shape, and the box removing operation of the printed product unit with the second shape can be performed.

In addition, most manufacturers at present adopt various box-removing equipment to remove unified rim charge from the die-cut paperboards, and the mode of manual feeding is adopted, namely, a plurality of paperboards stacked into a stack are moved to the rim charge removing equipment in a manual conveying mode, because paper product units and rim charge are adhered only through fine toothed blocks, in the manual conveying process, manpower is used for conveying through four corners of a stable paper board, and due to the action of gravity, paper product units in the middle position are easily torn and separated from the paperboards, so that a large amount of waste products are generated. Although the manual control can cope with various emergency conditions, the manual operation speed is low, the labor cost is high, and the product transportation efficiency is low, so that the production efficiency is reduced.

Disclosure of Invention

The technical problem to be solved by the embodiment of the utility model is to provide the efficient printed matter waste removing equipment, so that the work of automatically taking paper, separating the rim charge, stacking and removing the rim charge of the printed matter is realized, the work efficiency and the product transportation efficiency are effectively improved, the waste removing period is shortened, and the labor cost is reduced.

In order to achieve the above purpose, the utility model discloses a high-efficiency printed matter waste removal device, which comprises:

the waste removing platform is provided with a plurality of vacuum suction holes;

the first lifting mechanism is used for stacking the paperboards and lifting the paperboards upwards;

the paper taking mechanism is arranged above the first lifting mechanism and is used for sucking the paper board on the first lifting mechanism and placing the paper board on the waste clearing platform;

the waste removing mechanism is arranged above the waste removing platform and is used for separating the paperboard on the waste removing platform from the rim charge and sending out the rim charge from the waste removing platform;

and the conveying mechanism drives the paper taking mechanism and the waste cleaning mechanism to synchronously and horizontally move.

Preferably, the waste removing device further comprises a frame, the waste removing platform is arranged on the middle of the frame, a receiving frame is arranged outside the waste removing platform and used for receiving waste edges sent out by the waste removing platform, and the first lifting mechanism is arranged at the head end of the frame.

Preferably, the first lifting mechanism comprises a lifting plate, a pair of sliding rails and a lifting driving device, the sliding rails are respectively vertically arranged on two sides of the frame, sliding blocks which are in sliding fit with the sliding rails are arranged on two sides of the lifting plate, and the lifting plate is driven to slide along the sliding rails through the lifting driving device.

Preferably, a first slot and a second slot are formed in two sides of the back of the lifting plate, and a pair of guide posts matched with the first slot and the second slot for guide are vertically arranged on the frame.

Preferably, the conveying mechanism comprises a pair of guide rails, a horizontal driving device, a first fixing seat and a second fixing seat, the paper taking mechanism is arranged on the first fixing seat, the waste removing mechanism is arranged on the second fixing seat, the guide rails are fixedly arranged on two sides of the upper portion of the frame, guide blocks which are in sliding fit with the guide rails are arranged at two ends of the top of the first fixing seat and two ends of the second fixing seat, and connecting plates are fixedly arranged between two ends of the first fixing seat and the two ends of the second fixing seat, so that the horizontal driving device drives the paper taking mechanism and the waste removing mechanism to move horizontally synchronously.

Preferably, the paper taking mechanism comprises a paper taking plate and a first lifting device, a plurality of first suction heads are uniformly distributed at the bottom of the paper taking plate, the first lifting device drives the paper taking plate to lift, so that the first suction heads suck the paper board on the lifting plate, and the paper board is driven by the conveying mechanism to move to the waste removing platform.

Preferably, the waste removing mechanism comprises a plurality of groups of waste removing seats and second lifting devices which are arranged in parallel, second suction heads and pressure rods are uniformly distributed at the bottoms of the waste removing seats, the height of each pressure rod is larger than that of each second suction head, compression springs are connected between the upper parts of the pressure rods and the waste removing seats, the waste removing seats are driven by the second lifting devices to lift, the second suction heads absorb paperboards on the waste removing platforms, and the paperboards are separated by the cooperation of rim charge of the pressing rods compressing the paperboards and the rim charge of the second suction heads, and the paperboards are moved to the second lifting mechanisms under the driving of the conveying mechanisms.

Preferably, the first lifting device comprises a lifting driving device and a pair of movable frames, the top of the paper taking plate is fixedly provided with movable seats, the movable frames are respectively fixedly provided with two ends of the movable seats, the inner side surfaces of the movable frames are provided with sliding blocks, the two side surfaces of the first fixed seat are fixedly provided with sliding seats which are in sliding fit with the sliding blocks, the double output shafts of the lifting driving device are fixedly provided with eccentric wheels, and the upper part of the movable frames is provided with sliding grooves which are in sliding fit with the eccentric wheels, so that the lifting driving device drives the movable frames to link the paper taking plate to lift, and the second lifting device has the same structure as the first lifting device.

Preferably, the structure of the second lifting mechanism is the same as the structure of the first lifting mechanism.

Preferably, a vacuum device is arranged in the waste cleaning platform, so that vacuum suction holes on the waste cleaning platform generate negative pressure under the action of the vacuum device.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the printed matter is piled on the lifting device, so that paper feeding is automatically completed, the paper taking plate and the waste removing plate are driven by the conveying mechanism to synchronously and horizontally transport, the printed matter is automatically sucked by the paper taking plate, and then the paper board and the rim charge of the printed matter are separated by the waste removing plate, so that the paper taking and the rim charge separation of the paper board are realized, the separated rim charge is conveyed into the material receiving frame by the conveying belt, the automatic removal of the rim charge is realized, the clean surrounding of equipment is ensured, and the paper board after the rim charge separation is simultaneously transported to the other lifting device by the waste removing mechanism to be piled, so that the automatic piling of the paper board is realized. A plurality of vacuum suction holes are formed in the waste clearing platform, so that printed matters of the rim charge to be separated are sucked tightly, and the stacking and keeping uniformity among the paperboards are ensured.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of the structure of the paper taking mechanism and the waste cleaning mechanism;

fig. 3 is a schematic view showing a portion a structure in fig. 2;

fig. 4 is a schematic structural view of the limiting mechanism.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be described in further detail with reference to the accompanying drawings of fig. 1 to 4.

Referring to fig. 1, a high-efficiency printed matter waste cleaning device comprises a frame 1, a first lifting mechanism 2, a second lifting mechanism 3, a paper taking mechanism 4, a waste cleaning mechanism 5, a waste cleaning platform 6 and a conveying mechanism 7.

The first lifting mechanism 2 and the second lifting mechanism 3 are respectively arranged at the head end and the tail end of the frame 1 and are used for stacking paperboards, the paper taking mechanism 4 is arranged above the first lifting mechanism 2, the waste clearing mechanism 5 is arranged above the waste clearing platform 6, the paper taking mechanism 4 and the waste clearing mechanism 5 are driven to move horizontally synchronously through the conveying mechanism 7, the waste clearing platform 6 is arranged in the middle of the frame 1, the paper taking mechanism 4 is used for placing paperboards on the waste clearing platform 6, the paperboards on the waste clearing platform 6 are separated from rim charge through the waste clearing mechanism 5, and then the rim charge is sent out by the waste clearing platform 6.

Referring to fig. 1, the first lifting mechanism 1 includes a lifting plate 21, a pair of slide rails 22, and a lifting driving device, the slide rails 22 are respectively vertically disposed at two sides of the frame 1, two sides of the lifting plate 21 are provided with sliding blocks 211 slidably matched with the slide rails 22, the paper boards to be separated are stacked on the lifting plate 21, the lifting driving device includes a rotary cylinder, a transmission shaft, a plurality of driven gears and a pair of chains, two ends of the transmission shaft are rotatably disposed in the frame and are driven to rotate by the rotary cylinder, the driven gears are respectively rotatably disposed on the inner side surface of the frame, two ends of the transmission shaft are respectively fixedly provided with driving gears, so that the chains are respectively tensioned between the driving gears and the driven gears, and the chains are respectively fixedly connected with one side of the sliding blocks 211, so that the rotary cylinder drives the chains to drive the lifting plate 21 to slide along the slide rails 22.

The two sides of the back of the lifting plate 11 are provided with a first slot 213 and a second slot 214, and the back of the lifting plate 21 is vertically provided with a pair of guide posts 11 which are matched with the first slot 213 and the second slot 214 for guide, so that the lifting plate is kept vertical in the lifting process, and the paper feeding stability is improved.

Referring to fig. 2, the conveying mechanism 7 includes a pair of

guide rails

71, 72, a pair of horizontal driving devices, a first fixing seat 73 and a second fixing seat 74, the paper taking mechanism 4 is arranged on the first fixing seat 73, the waste removing mechanism 5 is arranged on the second fixing seat 74, the

guide rails

71, 72 are fixedly arranged on two sides of the upper portion of the frame 1,

guide blocks

711, 712 in sliding fit with the

guide rails

71, 72 are respectively arranged at two ends of the tops of the first fixing seat 73 and the second fixing seat 74, a connecting plate 75 is fixedly arranged between two ends of the first fixing seat 73 and the second fixing seat 74, the horizontal driving devices are respectively fixedly arranged at the tail ends of the

guide rails

71, 72, the horizontal driving devices preferably adopt servo motors, drag chains are respectively arranged on the

guide rails

71, 72 and are hinged with the first fixing seat 73, the first fixing seat 73 and the second fixing seat 73 are dragged by the horizontal driving devices in a linkage mode, and the paper taking mechanism 4 and the waste removing mechanism 5 reciprocate horizontally along the

guide rails

71, 72.

Referring to fig. 2 and 3, the paper taking mechanism 4 includes a paper taking plate 41 and a first lifting device 42, a plurality of first suction heads 411 are uniformly distributed at the bottom of the paper taking plate 41, a plurality of first suction heads 411 are connected with air sources, the first lifting device 42 includes a lifting driving device 421 and a pair of movable frames 422, the top of the paper taking plate 41 is fixedly provided with a movable seat 43, the movable frames 422 are respectively and fixedly arranged at two ends of the movable seat 43, a sliding seat 731 in sliding fit with the sliding seat 423 is fixedly arranged at the inner side surface of the movable frame 422, the lifting driving device is fixedly arranged at the middle part of the first fixing seat 73, the lifting driving device 421 preferably adopts a worm gear reducer, the lifting driving device 421 is fixedly provided with a rotating shaft 424, two ends of the first fixing seat 73 are fixedly provided with bearing seats 732 in rotating connection with the rotating shaft 424, two ends of the rotating shaft 424 are fixedly provided with eccentric wheels 425, the upper part of the movable frame 422 is provided with a sliding groove 426 in sliding fit with an eccentric shaft 425, the lifting driving device 421 drives the movable frame 422 to lift the paper taking plate 41, so that the paper taking plate 41 is lifted, and the paper taking plate is horizontally driven by the lifting driving device to be placed on the paper taking plate 6 through the waste paper taking plate 41.

The two ends of the movable seat 43 of the paper taking plate 41 are fixedly provided with first guide rods, and the two ends of the first fixed seat 73 are provided with first guide holes for the first guide rods to be matched and guided, so that the paper taking plate is kept stable in the lifting process.

In this embodiment, the waste removing platform 6 is preferably a conveyor belt, a plurality of vacuum suction holes are formed in the upper surface of the waste removing platform 6, a vacuum device is arranged in the waste removing platform 6, the vacuum suction holes on the waste removing platform 6 generate negative pressure under the action of the vacuum device, the paper board is sucked on the waste removing platform 6, automatic positioning of the paper board is achieved, the paper board is guaranteed to be tidy, and offset is avoided.

Referring to fig. 2-4, the waste removing mechanism 5 includes a plurality of groups of waste removing seats 51 and second lifting devices 52 which are arranged in parallel, a movable seat 53 is fixedly arranged between the tops of the waste removing seats 51, second suction heads 511 are uniformly distributed at the bottoms of the waste removing seats 51, a plurality of second suction heads 511 are connected with air sources, the bottoms of the waste removing seats 51 are provided with compression bars corresponding to the rim charge of the paper board, compression springs are connected between the upper parts of the compression bars and the waste removing seats 51, the height of the compression bars is greater than that of the second suction heads 511, the structure of the second lifting devices 52 is identical to that of the first lifting devices, the second lifting devices are fixedly arranged on a second fixing seat, the waste removing seats 41 are driven to lift by the second lifting devices, the paper board on the waste removing platform 6 is sucked by the second suction heads 511, the paper board is separated from the rim charge by the cooperation of the compression bars 512 and the second suction heads 511, and the paper board is placed on the lifting plate of the second lifting mechanism 3 by driving the waste removing seats 51 by a horizontal driving device.

The two ends of the movable seat 53 of the waste removing seat 51 are fixedly provided with second guide rods 531, and the two ends of the second fixed seat 74 are provided with second guide holes for guiding the second guide rods 531 in a matching way, so that the waste removing seat 51 is kept stable in the lifting process.

A plurality of first suction heads 411 are fixedly connected with the paper taking plate through a first mounting block, a key groove is formed in the first mounting block, so that the positions of the suction heads can be adjusted according to the size of the paper box by the first suction heads, a plurality of second suction heads and compression bars are fixedly connected with a waste cleaning seat through the second mounting block, and key grooves are formed in the second mounting block, so that the positions of the suction heads can be adjusted according to the size of the paper box by the second suction heads and the compression bars, and the paper box type paper box is wider in applicability and high in universality.

The waste removing platform 6 preferably adopts a conveyor belt, and after the paperboard is separated from the rim charge, the rim charge is sent out through the operation of the waste removing platform 6, and the material receiving frame is arranged outside the frame 1, so that the rim charge sent out by the waste removing platform is received.

Referring to fig. 1-4, the specific operation is as follows:

the horizontal driving device drives the paper taking plate 41 and the waste removing seat 51 to horizontally move rightwards, the paper taking plate 41 is driven to descend through the lifting driving device 421 of the first lifting device 42, the first suction head 411 is tightly attached to the paper plate on the lifting plate 21, then an air source is started to enable the paper plate on the lifting plate 21 to be adsorbed on the first suction head 411, the lifting driving device 42 of the first lifting device 42 is reset, then the horizontal driving device drives the paper taking plate 41 and the waste removing seat 51 to horizontally move leftwards, the paper taking plate 1 is driven to descend through the lifting driving device 421 of the first lifting device 42, the paper plate is placed on the waste removing platform 6, then the air source is closed, the paper plate is separated from the adsorption of the first suction head 411, the vacuum device is started, the vacuum suction hole sucks the paper plate on the waste removing platform 6 under the action of the vacuum device, the paper taking plate 41 is reset, and the horizontal driving device drives the paper taking plate 41 and the waste removing seat 51 to continuously horizontally move rightwards, the paper taking plate 41 continues to absorb the paper plate on the lifting plate 21, meanwhile, the lifting device 521 of the second lifting device 52 drives the waste cleaning seat 51 to descend, the pressing rods 512 of the waste cleaning seat 51 respectively press the rim charge of the paper plate, when the second suction heads 511 are tightly attached to the paper plate, the pressing rods 512 compress under the action of the elasticity of the compression springs and keep the same level as the second suction heads 511, then an air source is started, the paper plate on the waste cleaning platform 6 is adsorbed on the second suction heads 411, the lifting driving device 521 of the second lifting device 52 resets, when the second suction heads 511 are separated from the surface of the waste cleaning platform 6, the pressing rods 512 still tightly attach to the rim charge of the paper plate under the action of the elasticity of the compression springs until the pressing rods are separated from the surface of the paper plate, the paper plate is separated from the waste plate under the cooperation of the second suction heads 511 and the pressing rods 512, and then the horizontal driving device drives the paper taking plate 41, the waste removing seat 51 moves horizontally leftwards, the vacuum device is closed, the waste removing platform 6 is started to send the rim charge separated from the surface into the material receiving frame, the lifting driving devices of the first lifting device 42 and the second lifting device 52 respectively drive the paper taking plate 41 and the waste removing seat 51 to descend, the paper taking plate 41 continuously places the paper board to be separated on the waste removing platform 6, the waste removing seat 51 places the separated paper board on the lifting plate of the second lifting mechanism 3, the air source is closed, and the paper board is separated from the adsorption of the second suction head 511, so that automatic paper taking, rim charge separating, paper feeding and rim charge removing are realized.

The above embodiments are only for illustrating the technical concept and features of the present utility model, and therefore, it is intended that the present utility model can be understood by those skilled in the art and implemented according to the technical concept, and the present utility model is not limited to the above embodiments, but modifications made according to the spirit and scope of the main technical solution of the present utility model should be included in the scope of the present utility model.

Claims

1. High-efficiency printed matter waste removal equipment, which is characterized by comprising:

2. The efficient printed matter waste removal device of claim 1, further comprising a frame, wherein the waste removal platform is disposed on a middle portion of the frame, a receiving frame is disposed on an outer portion of the waste removal platform and is used for receiving waste edges sent out by the waste removal platform, and the first lifting mechanism is disposed at a head end of the frame.

3. The efficient printed matter waste cleaning device according to claim 2, wherein the first lifting mechanism comprises a lifting plate, a pair of sliding rails and a lifting driving device, the sliding rails are respectively vertically arranged on two sides of the frame, sliding blocks which are in sliding fit with the sliding rails are arranged on two sides of the lifting plate, and the lifting plate is driven to slide along the sliding rails through the lifting driving device.

4. The efficient printed matter waste cleaning device according to claim 3, wherein a first slot and a second slot are formed in two sides of the back of the lifting plate, and a pair of guide posts matched with the first slot and the second slot for guide are vertically arranged on the frame.

5. The efficient printed matter waste removal device according to claim 2, wherein the conveying mechanism comprises a pair of guide rails, a horizontal driving device, a first fixing seat and a second fixing seat, the paper taking mechanism is arranged on the first fixing seat, the waste removal mechanism is arranged on the second fixing seat, the guide rails are fixedly arranged on two sides of the upper portion of the frame, guide blocks which are in sliding fit with the guide rails are arranged at two ends of the top of the first fixing seat and the two ends of the second fixing seat, and connecting plates are fixedly arranged between the two ends of the first fixing seat and the two ends of the second fixing seat, so that the horizontal driving device drives the paper taking mechanism and the waste removal mechanism to synchronously move horizontally.

6. The efficient printed matter waste cleaning device according to claim 3, wherein the paper taking mechanism comprises a paper taking plate and a first lifting device, a plurality of first suction heads are uniformly distributed at the bottom of the paper taking plate, the paper taking plate is driven by the first lifting device to lift, the first suction heads suck the paper board on the lifting plate, and the paper board is driven by the conveying mechanism to move to the waste cleaning platform.

7. The efficient printed matter waste cleaning device according to claim 6, wherein the waste cleaning mechanism comprises a plurality of groups of waste cleaning seats and a second lifting device, the bottoms of the waste cleaning seats are uniformly distributed with second suction heads and pressure rods, the heights of the pressure rods are larger than those of the second suction heads, compression springs are connected between the upper parts of the pressure rods and the waste cleaning seats, the waste cleaning seats are driven by the second lifting device to lift, the second suction heads absorb paperboards on the waste cleaning platform, and the paperboards are separated by the cooperation of rim charge of the pressing rods pressing the paperboards and the second suction heads, and are driven by the conveying mechanism to move the paperboards to the second lifting mechanism.

8. The efficient printed matter waste cleaning device according to claim 7, wherein the first lifting device comprises a lifting driving device and a pair of movable frames, movable seats are fixedly arranged at the top of the paper taking plate, the movable frames are respectively fixedly arranged at two ends of the movable seats, sliding blocks are arranged on inner side surfaces of the movable frames, sliding seats which are in sliding fit with the sliding blocks are fixedly arranged on two side surfaces of the first fixed seat, eccentric wheels are fixedly arranged on double output shafts of the lifting driving device, sliding grooves which are in sliding fit with the eccentric wheels are formed in the upper portions of the movable frames, the lifting driving device drives the movable frames to link the paper taking plate to lift, and the second lifting device has the same structure as the first lifting device.

9. The high efficiency print waste removal apparatus of claim 7, wherein the second lifting mechanism is configured identically to the first lifting mechanism.

10. The efficient printed matter waste removal device of claim 1, wherein a vacuum device is arranged in the waste removal platform, so that vacuum suction holes on the waste removal platform generate negative pressure under the action of the vacuum device.