CN217225811U - Printing paper ration cutting device - Google Patents

Abstract

The application relates to a printing paper ration cutting device, which comprises a bod, be provided with on the organism and cut the platform, set up on the organism and cut the incision, cut and be provided with in the incision towards being close to or keeping away from the sword that cuts that the platform direction slided, it is provided with weighing mechanism to cut platform width direction one end. This application has the effect that promotes production efficiency.

Description

Printing paper ration cutting device

Technical Field

The application relates to the field of paper cutting, in particular to a quantitative cutting device for printing paper.

Background

The paper cutter is a conventional product, and is a cutting machine for processing the paper cutting requirement at the later stage of printing.

When an existing paper cutter cuts, a large amount of paper is placed on a feeding table, and then cutting is carried out through a cutter.

The inventor thinks that the existing paper cutter needs to count the number of the printed paper and then pack the paper after cutting the printed paper, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to promote production efficiency, this application provides a printing paper ration cutting device.

The application provides a printing paper ration cutting device adopts following technical scheme:

the utility model provides a printing paper ration cutting device, includes the organism, be provided with on the organism and cut the platform, set up on the organism and cut the incision, cut and be provided with in the incision towards being close to or keeping away from the sword that cuts the platform direction and slide, it is provided with weighing mechanism to cut platform width direction one end.

Through adopting above-mentioned technical scheme, weighing mechanism's setting can be weighed the paper that piles up, carries out the prediction of weight according to the quantity of packing earlier before cutting, later carries out the ration to the paper that cuts according to predicting weight, need not to check paper quantity one by one, promotes production efficiency.

Optionally, cut and be provided with high detection mechanism on the platform, high detection mechanism includes the mounting bracket, slides platform, transmitter and receiver, the mounting bracket has two to set up respectively cutting platform length direction both ends, the platform that slides sets up on the mounting bracket, slides the platform and slides along organism direction of height, the transmitter is installed at one of them bench that slides, the receiver is installed at another bench that slides, transmitter and receiver set up in opposite directions.

Through adopting above-mentioned technical scheme, the platform that slides sets up and can adjust the height of transmitter and receiver, carries out the prediction of height according to the quantity of packing earlier before cutting, later with transmitter and receiver location prediction position again, detects the precision that can further promote the ration according to the highly detection cooperation weight.

Optionally, be provided with synchronous subassembly between two platforms that slide, synchronous subassembly is including adjusting pole, synchronizing bar and driving piece, it has two to adjust the pole, and two are adjusted the pole and set firmly respectively in two platform bottoms that slide, adjust the pole and run through to cut the platform and stretch out and cut the platform bottom, the synchronizing bar both ends set firmly respectively and deviate from the platform one end that slides at two regulation poles, the driving piece sets up at the synchronizing bar and cuts between the platform, and driving piece drive synchronizing bar orientation is close to or keeps away from and cuts the platform orientation and slide.

Through adopting above-mentioned technical scheme, the setting up of synchronization module makes two platforms that slide highly synchronous, reduces the probability that receiver and transmitter can't align and produce measuring error.

Optionally, the driving piece includes drive threaded rod and drive handle, drive threaded rod rotates and sets up and cutting the platform bottom, and drive threaded rod runs through synchronizing bar and synchronizing bar threaded connection, drive handle sets firmly and keeps away from cutting platform one end at drive threaded rod.

Through adopting above-mentioned technical scheme, rotate the drive handle and make the drive threaded rod rotate to the realization is to the regulation of sliding the platform height.

Optionally, one end, away from the setting weighing mechanism, of the cutting platform in the width direction is provided with a positioning assembly, the positioning assembly comprises a positioning table, a baffle and a power part, the positioning table is embedded in the cutting platform, the positioning table slides to be set on the cutting platform, the positioning table slides in the width direction of the cutting platform, the baffle is rotatably arranged on the positioning table, the baffle is stored in the positioning table or extends out of the positioning table through rotation, the power part is arranged between the positioning table and the cutting platform, and the positioning table is driven by the power part to slide.

Through adopting above-mentioned technical scheme, locating component can adjust cutting of paper, makes things convenient for the location of paper, makes cutting of paper more accurate.

Optionally, a rotating part is arranged on the positioning table, the rotating part is connected with the baffle plate, and the rotating part drives the baffle plate to rotate.

Through adopting above-mentioned technical scheme, the setting that rotates can be cutting and accomplish the back drive baffle and rotate, the paper unloading after conveniently cutting.

Optionally, a cutting groove is formed in the cutting platform under the cutting knife, a travel switch is embedded in the side wall of the cutting groove, and the travel switch is electrically connected with the rotating part.

Through adopting above-mentioned technical scheme, travel switch's setting makes the baffle and cuts the sword and links, cuts the sword and cuts the completion back, makes the baffle rotate from can the unloading.

Optionally, locating component width direction both ends are provided with the conveyer belt, the conveyer belt inlays to be established on cutting the platform, and the organism direction transmission is kept away from to the orientation on cutting the platform.

Through adopting above-mentioned technical scheme, the setting of conveyer belt can conveniently cut the paper after and carry out the unloading, need not manual transport, reduces the probability that the workman contacted and cuts the sword to reduce the probability that the incident takes place.

In summary, the present application includes at least one of the following beneficial technical effects:

the weighing mechanism can weigh stacked paper, weight is predicted according to the number of the packages before cutting, then the cut paper is quantified according to the predicted weight, the number of the paper does not need to be counted one by one, and production efficiency is improved;

before cutting, the height is predicted according to the number of the packages, then the emitter and the receiver are positioned and the position is predicted, and the quantitative accuracy can be further improved according to the height detection and the weight detection;

the positioning assembly can adjust the cutting of the paper, so that the paper is conveniently positioned, and the cutting of the paper is more accurate;

the arrangement of the travel switch enables the baffle and the cutting knife to be linked, and after the cutting knife finishes cutting, the baffle rotates to cut off materials;

the paper after can conveniently cutting of setting up of conveyer belt carries out the unloading, need not manual transport, reduces the probability that the workman contacted and cuts the sword to reduce the probability that the incident takes place.

Drawings

Fig. 1 is a schematic view of the overall structure of the present embodiment.

Fig. 2 is a sectional view of the entire structure of the present embodiment.

Fig. 3 is a schematic view of another view angle of the whole structure of the embodiment.

Description of reference numerals: 1. a body; 2. a cutting platform; 3. cutting the incision; 4. cutting knife; 5. a weighing mechanism; 6. a height detection mechanism; 61. a mounting frame; 62. a sliding table; 63. a transmitter; 64. a receiver; 7. a synchronization component; 71. adjusting a rod; 72. a synchronization lever; 73. a drive member; 731. driving the threaded rod; 732. a drive handle; 8. a positioning assembly; 81. a positioning table; 82. a baffle plate; 83. a power member; 831. a power screw; 832. a power handle; 9. A rotating member; 10. a travel switch; 11. a conveyor belt; 12. a sliding groove; 13. and (6) grooving.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a printing paper quantitative cutting device, and the device comprises a machine body 1 erected on the ground, wherein a horizontally placed cutting platform 2 is arranged on the machine body 1, a cutting opening 3 is formed in the machine body 1, a cutting knife 4 sliding towards the direction close to or away from the cutting platform 2 is arranged in the cutting opening 3, a paper stack to be cut is placed on the cutting platform 2 and extends into the cutting opening 3, then the machine body 1 is started to enable the cutting knife 4 to slide towards the paper stack to cut the paper stack, a weighing mechanism 5 is embedded at one end of the cutting platform 2 in the width direction, the weighing mechanism 5 comprises a weight sensor embedded on the cutting platform 2, a bearing plate is arranged on the weight sensor, the bearing plate is slightly higher than the cutting platform 2 and slides towards the weight sensor after bearing, a display is arranged on the machine body 1 and is used for displaying the weight weighed by the weight sensor, weighing mechanism 5's setting can be weighed the paper that piles up, carries out the prediction of weight according to the quantity of packing earlier before cutting, later carries out the ration to the paper that cuts according to predicting weight, need not to check paper quantity one by one, promotes production efficiency.

Referring to fig. 1, a height detection mechanism 6 is arranged on a cutting platform 2, the height detection mechanism 6 comprises two mounting frames 61 respectively arranged at two ends of the cutting platform 2 in the length direction, a sliding table 62 arranged on the mounting frames 61 in a sliding manner, a transmitter 63 arranged on one sliding table 62 and a receiver 64 arranged on the other sliding table 62, a T-shaped groove is vertically formed in the mounting frames 61, a T-shaped block is fixedly arranged on the sliding table 62, the sliding table 62 slides on the mounting frames 61 along the height direction of a machine body 1 through the cooperation of the T-shaped block and the T-shaped groove, the transmitter 63 and the receiver 64 are oppositely arranged, the transmitter 63 is an infrared transmitter 63, the receiver 64 is an infrared receiver 64, the height adjustment of the sliding table 62 can adjust the transmitter 63 and the receiver 64 according to the height of a required number of paper sheets, and subsequently can block infrared signals sent by the transmitter 63 when the paper sheets are stacked to a preset number, thus, the receiver 64 does not receive a signal to perform paper quantification, and quantification accuracy can be further improved by matching weight detection according to height detection.

Referring to fig. 1, a synchronizing assembly 7 is arranged between the two sliding tables 62, the synchronizing assembly 7 includes two adjusting rods 71 respectively fixed at the bottoms of the two sliding tables 62, a synchronizing rod 72 with two ends respectively fixed at one end of the two adjusting rods 71 away from the sliding tables 62, and a driving member 73 arranged between the synchronizing rod 72 and the cutting platform 2, the adjusting rods 71 penetrate through the cutting platform 2 and extend out of the bottom of the cutting platform 2, and the driving member 73 drives the synchronizing rods 72 to slide towards the direction close to or far away from the cutting platform 2; the driving part 73 comprises a driving threaded rod 731 rotatably arranged at the bottom of the cutting platform 2 and a driving handle 732 fixedly arranged at one end of the driving threaded rod 731 far away from the cutting platform 2, and the driving threaded rod 731 penetrates through the synchronizing rod 72 and is in threaded connection with the synchronizing rod 72.

Referring to fig. 2 and 3, a positioning assembly 8 is arranged at one end of the cutting platform 2, which is far away from the weighing mechanism 5, in the width direction, the positioning assembly 8 includes a positioning table 81 embedded on the cutting platform 2, a baffle 82 rotatably arranged on the positioning table 81, and a power member 83 arranged between the positioning table 81 and the cutting platform 2, a sliding groove 12 is arranged on the cutting platform 2, the positioning table 81 is slidably arranged in the sliding groove 12, the positioning table 81 slides along the width direction of the cutting platform 2, the power member 83 drives the positioning table 81 to slide, the power member 83 includes a power screw 831 and a power handle 832, the power screw 831 is rotatably arranged in the sliding groove 12, the power screw 831 is in threaded connection with the positioning table 81, one end of the power screw 831 penetrates and extends out of the cutting platform 2, the power handle 832 is fixedly arranged at one end of the power screw 831 extending out of the cutting platform 2, the power handle 832 rotates the power screw 831, the power screw 831 drives the positioning table 81 to slide, the baffle 82 extends out of the sliding groove 12 in a normal state and is used for limiting the cutting width of paper, the positioning table 81 arranged in a sliding mode is matched with the baffle 82 to adjust the cutting width of the paper, when the paper stack is cut and blanking is needed, the baffle 82 is rotated to enable the baffle 82 to be contained in the positioning table 81, the baffle 82 enters the sliding groove 12 at the moment, and after the blockage of the paper is removed, the paper can be blanked normally; a rotating part 9 is arranged on the positioning table 81, the rotating part 9 is connected with the baffle 82, the rotating part 9 adopts a rotating motor, and the rotating part 9 drives the baffle 82 to rotate; the cutting platform 2 is provided with a cutting groove 13 under the cutting knife 4, a travel switch 10 is embedded in the side wall of the cutting groove 13, the travel switch 10 is electrically connected with the rotating piece 9, the baffle 82 is linked with the cutting knife 4 through the travel switch 10, and after the cutting knife 4 finishes cutting, the baffle 82 rotates to feed.

Referring to fig. 2 and 3, 8 width direction both ends of locating component are provided with conveyer belt 11, and conveyer belt 11 inlays to be established on cutting platform 2, and conveyer belt 11 upper surface flushes with cutting platform 2, and is cutting 2 towards keeping away from the transmission of organism 1 direction, and the setting of conveyer belt 11 can conveniently cut the paper after carrying out the unloading, need not manual transport, reduces the probability that workman's contact cut sword 4 to reduce the probability that the incident takes place.

The implementation principle of the embodiment of the application is as follows: firstly, the height and the weight of the paper needing to be packaged are predicted, the heights of the transmitter 63 and the receiver 64 are adjusted according to the prediction result, the weight of the paper stack is recorded, then the position of the positioning table 81 is adjusted according to the cutting width of the paper, the paper reaching the predicted weight and the predicted height is sent to the cutting opening 3, the machine body 1 is started to enable the cutting knife 4 to slide to cut the paper, the cutting knife 4 touches the travel switch 10 after cutting, the baffle 82 rotates, and the conveyor belt 11 conveys the material towards the direction far away from the machine body 1 to finish quantitative cutting.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a printing paper ration cutting device, includes organism (1), be provided with on organism (1) and cut platform (2), set up on organism (1) and cut out incision (3), be provided with in cutting out incision (3) and move towards being close to or keeping away from the sword (4) that cuts that cut platform (2) direction slided, its characterized in that: one end of the cutting platform (2) in the width direction is provided with a weighing mechanism (5).

2. A printing sheet quantitative cutting apparatus according to claim 1, characterized in that: cut and be provided with high detection mechanism (6) on platform (2), high detection mechanism (6) include mounting bracket (61), slide platform (62), transmitter (63) and receiver (64), mounting bracket (61) have two to set up respectively cutting platform (2) length direction both ends, slide platform (62) and slide and set up on mounting bracket (61), slide platform (62) and slide along organism (1) direction of height, install on one of them slide platform (62) transmitter (63), receiver (64) are installed on another slide platform (62), transmitter (63) and receiver (64) set up in opposite directions.

3. A printing sheet quantitative cutting apparatus according to claim 2, characterized in that: two it is provided with synchronizing assembly (7) to slide between platform (62), synchronizing assembly (7) are including adjusting pole (71), synchronizing bar (72) and driving piece (73), it has two to adjust pole (71), and two are adjusted pole (71) and set firmly respectively in two platform (62) bottoms that slide, adjust pole (71) and run through to cut platform (2) and stretch out and cut platform (2) bottom, synchronizing bar (72) both ends set firmly respectively and deviate from platform (62) one end that slides in two regulation poles (71), driving piece (73) set up in synchronizing bar (72) and cut between platform (2), and driving piece (73) drive synchronizing bar (72) orientation is close to or is kept away from and cuts platform (2) direction and slides.

4. A printing sheet quantitative cutting apparatus according to claim 3, characterized in that: the driving piece (73) comprises a driving threaded rod (731) and a driving handle (732), the driving threaded rod (731) is rotatably arranged at the bottom of the cutting platform (2), the driving threaded rod (731) penetrates through the synchronous rod (72) and is in threaded connection with the synchronous rod (72), and the driving handle (732) is fixedly arranged at one end, far away from the cutting platform (2), of the driving threaded rod (731).

5. A printing sheet quantitative cutting apparatus according to claim 1, characterized in that: cut platform (2) width direction and keep away from and set up weighing mechanism (5) one end and be provided with locating component (8), locating component (8) are including location platform (81), baffle (82) and power spare (83), location platform (81) inlay to be located on cutting platform (2), and location platform (81) slide and set up cut on platform (2), and location platform (81) slide along cutting platform (2) width direction, baffle (82) rotate and set up on location platform (81), and baffle (82) are accomodate in location platform (81) or are stretched out outside location platform (81) through rotating, power spare (83) are established between location platform (81) and cutting platform (2), and power spare (83) drive location platform (81) slide.

6. A printing sheet quantitative cutting apparatus according to claim 5, characterized in that: the positioning table (81) is provided with a rotating part (9), the rotating part (9) is connected with the baffle (82), and the rotating part (9) drives the baffle (82) to rotate.

7. A printing sheet quantitative cutting apparatus according to claim 6, characterized in that: cutting groove (13) have been seted up in cutting platform (2) under sword (4) cutting, travel switch (10) are inlayed to cutting groove (13) lateral wall, travel switch (10) are connected with rotating piece (9) electricity.

8. A printing sheet quantitative cutting apparatus according to claim 7, characterized in that: locating component (8) width direction both ends are provided with conveyer belt (11), conveyer belt (11) inlay and establish on cutting platform (2), and just keep away from organism (1) direction transmission towards on cutting platform (2).

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