CN220146034U - Packaging printing machine - Google Patents

Abstract

The utility model relates to the field of printing equipment, in particular to a packaging printer, which comprises a printing mechanism, wherein a shearing mechanism is arranged on one side of a discharge hole of the printing mechanism, the shearing mechanism comprises a shearing box, a cutter, a driving mechanism capable of driving the cutter to shear raw materials and a shearing table are arranged in the shearing box, shearing grooves are formed in the shearing table corresponding to the cutters, a chip removing mechanism is arranged in the shearing box, the chip removing mechanism comprises a pressing block, the cutter is slidably connected to the pressing block, chip removing grooves are formed in the periphery of the pressing block, the chip removing grooves are communicated with the shearing grooves, a chip removing pipe communicated with the chip removing grooves is arranged on the pressing block, a negative pressure chip collecting mechanism is arranged at one end of the chip removing pipe, far away from the pressing block, and a transmission mechanism is arranged in the shearing box.

Description

Packaging printing machine

Technical Field

The utility model relates to the field of printing equipment, in particular to a packaging printer.

Background

The printer is a machine for printing characters and images, and the utility model and development of the printer have very important roles in the transmission of civilization.

At present, chinese patent of publication No. CN214394305U discloses a self-shearing packaging printer, which comprises a base, the mount is fixedly installed to base both sides, the casing is installed to mount upper end inboard, the inside upper end fixed mounting of casing has the motor, through the axle fixedly connected with action wheel in casing inside, open the motor switch, make the electric current input to the motor inside, let the action wheel of motor normal operating drive external installation rotate, the action wheel passes through the belt that is connected with and gives the kinetic energy part to the driven wheel, make the driven wheel rotate, make the cutter carry out reciprocating motion through the operation of motor, the stopper is installed at cutter both ends, make the slider that installs on the cutter remove in the spout inside, carry out vertical direction's position to the cutter and inject, the cutter can cut the raw materials.

According to the prior art, after printing is finished, the cutter can directly cut the raw material, but scraps can be generated when the cutter cuts the raw material, and the scraps can fall on the surface of the raw material to influence the subsequent processing and use of the raw material.

Disclosure of Invention

In order to reduce the likelihood that chips generated when shearing the stock will affect subsequent processing and use of the stock, the present utility model provides a packaging printer.

The utility model provides a packaging printing machine which adopts the following technical scheme:

the utility model provides a packing printing machine, including printing mechanism, printing mechanism is equipped with shearing mechanism in self discharge gate one side, shearing mechanism is equipped with the cutter including shearing the case, shearing incasement is equipped with the cutter, can drive the cutter and cut the actuating mechanism of raw materials and shear the platform, shearing bench corresponds the cutter and is equipped with cuts the groove, shearing incasement is equipped with the desquamation mechanism, the desquamation mechanism includes the briquetting, cutter sliding connection is in the briquetting, the briquetting is equipped with the desquamation groove around the cutter, desquamation groove intercommunication is in shearing the groove, be equipped with the chip removal pipe that communicates in the desquamation groove on the briquetting, chip removal pipe is kept away from briquetting one end and is equipped with negative pressure album bits mechanism, shearing incasement is equipped with transport mechanism.

Through adopting above-mentioned technical scheme, when the cutter sheared the raw materials, briquetting and shearing platform butt in raw materials two sides and make chip removal groove and shearing groove set up in incision department around, the piece that the cutter sheared the raw materials produced can be absorbed by the chip removal pipe to the piece that produces when reducing the shearing raw materials influences the follow-up processing of raw materials and the possibility of using.

Optionally, the actuating mechanism includes the connecting rod, and the connecting rod is connected in the cutter, is equipped with the guard box on the shearing case, and the connecting rod wears to establish respectively and sliding connection in shearing case and guard box case wall, and the connecting rod wears to establish and sliding connection in the briquetting, and sliding connection has the displacement frame in the guard box, and the displacement frame is connected in connecting rod one end of keeping away from the cutter, is equipped with driving motor on the shearing case, is equipped with driving cam on driving motor's the output shaft, and driving cam can force the displacement frame to be close to or keep away from the shearing platform.

Through adopting above-mentioned technical scheme, utilize driving motor and drive cam drive cutter and briquetting to remove, can adjust cutter shearing interval's time through the accommodate motor, the staff of being convenient for operates.

Optionally, the connecting rod is gone up the cover and is equipped with the limiting plate, limiting plate sliding connection in the briquetting, and limiting plate both ends all are equipped with spacing spring, and spacing spring sets up and is close to a side of shearing platform at the limiting plate, and spacing spring keeps away from limiting plate one end and connects in the briquetting, and spacing spring can force the limiting plate to keep away from the shearing platform.

Through adopting above-mentioned technical scheme, when briquetting butt in the raw materials surface, spacing spring is compressed for the briquetting receives a power towards the raw materials, thereby makes the briquetting further compress tightly the raw materials, and the raw materials takes place the displacement when reducing the shearing raw materials and leads to the poor possibility of shearing effect.

Optionally, the negative pressure chip collecting mechanism comprises a chip collecting box, the chip removing pipe is connected with the chip collecting box, a chip collecting cavity is arranged in the chip collecting box, the chip removing pipe is communicated with the chip collecting cavity, the chip collecting box is provided with a negative pressure pump, an extraction opening of the negative pressure pump is communicated with the chip collecting cavity, and the chip collecting box is provided with a filter screen corresponding to the extraction opening of the negative pressure pump.

Through adopting above-mentioned technical scheme, utilize the negative pressure pump can make album bits intracavity form negative pressure for the piece that produces when shearing the raw materials can get into album bits incasement through the chip removal pipe.

Optionally, the transmission mechanism includes the conveyer belt, and the shearing box all is equipped with the conveyer belt in shearing platform both sides, and the conveyer belt all is equipped with the transfer roller near shearing platform one end in self, and the transfer roller can the butt in raw materials surface.

By adopting the technical scheme, after the raw materials are sheared, the raw materials divided into two sections can be transported under the action of the conveying roller and the conveying belt, so that the possibility that the raw materials are clamped in the device after being sheared is reduced.

Optionally, the two conveyer belts and the shearing table are in step distribution, and the conveyer belt near one side of the feeding hole of the shearing box is higher than the shearing table, and the conveyer belt near one side of the discharging hole of the shearing box is lower than the shearing table.

By adopting the technical scheme, the two conveyor belts and the shearing table are distributed in a step mode, and the possibility that raw materials are clamped in the device is further reduced.

Optionally, briquetting both ends all are equipped with the gas outlet, and the gas outlet communicates in the chip removing pipe, wears to establish and sliding connection has the slide bar on the gas outlet, and the slide bar is close to gas outlet one end and is equipped with the sprue, and the sprue sets up in the briquetting and the sprue can block up the gas outlet, and the sprue one end is kept away from to the slide bar is equipped with the butt piece, and the butt piece can butt in the raw materials surface, and the slide bar overcoat is equipped with the slide bar spring, and slide bar spring both ends are connected in butt piece and briquetting respectively, and the slide bar spring can force the sprue butt department around the gas outlet.

Through adopting above-mentioned technical scheme, the shutoff piece can block up the gas outlet, and when the briquetting kept away from the raw materials, the shutoff piece can block up the gas outlet, reduces the raw materials because of removing the possibility that negative pressure in the bits groove was adsorbed.

Optionally, a rubber abutting layer is arranged on one side surface of the abutting block, which is close to the shearing table.

Through adopting above-mentioned technical scheme, rubber butt layer can the butt in the raw materials surface, further reduces the possibility that the raw materials takes place the displacement in the shearing process.

In summary, the present utility model includes at least one of the following beneficial effects:

1. when the cutter shears the raw materials, briquetting and shearing bench butt are in the raw materials two sides and make chip removal groove and shearing groove setting department around the incision, and the piece that the cutter sheared the raw materials produced can be absorbed by the chip removal pipe to the piece that produces when reducing the shearing raw materials influences the subsequent processing of raw materials and the possibility of using.

2. When the raw materials are sheared, the raw materials which are divided into two sections can be transported under the action of the conveying rollers and the conveying belt, so that the possibility that the sheared raw materials are blocked in the device is reduced.

Drawings

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

FIG. 2 is a schematic view of the internal cross-section of the shear box of the present utility model;

fig. 3 is a schematic cross-sectional view of the interior of the protective case and the interior of the compact of the present utility model.

Reference numerals illustrate:

1. a printing mechanism; 2. a shearing mechanism; 21. a shear box; 22. a driving mechanism; 221. a connecting rod; 222. a protection box; 223. a displacement frame; 224. a driving motor; 225. a driving cam; 23. a shearing station; 231. cutting the slot; 24. a cutter; 3. a chip removing mechanism; 31. briquetting; 311. an air outlet; 312. a slide bar; 313. blocking; 314. an abutment block; 315. a slide bar spring; 32. a chip removing groove; 33. a chip removing pipe; 4. a negative pressure chip collecting mechanism; 41. a chip collecting box; 42. a filter screen; 43. a negative pressure pump; 5. a transmission mechanism; 51. a conveyor belt; 52. a conveying roller; 6. a limiting plate; 61. a limit spring; 7. and a rubber abutting layer.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings.

The embodiment provides a packaging printer, combining with fig. 1 and 2, including printing mechanism 1, the discharge gate of printing mechanism 1 is equipped with shearing mechanism 2, shearing mechanism 2 includes shearing box 21, be equipped with the transport mechanism 5 that is used for transmitting the raw materials in the shearing box 21, fixedly connected with shearing bench 23 in the shearing box 21, be equipped with shearing groove 231 on the shearing bench 23, be equipped with the cutter 24 that can cut the raw materials and can drive cutter 24 to cut the actuating mechanism 22 of raw materials on the shearing box 21, be equipped with chip removing mechanism 3 in the shearing box 21, chip removing mechanism 3 includes briquetting 31, briquetting 31 cover is established and sliding connection is in cutter 24, briquetting 31 is equipped with chip removing groove 32 in the department around cutter 24, chip removing groove 32 can be linked together in shearing groove 231, fixedly connected with chip removing pipe 33 on the briquetting 31, chip removing pipe 33 is linked together in chip removing groove 32, the chip removing pipe 33 is far away from chip removing groove 32 one end and is connected with negative pressure chip collecting mechanism 4, negative pressure chip collecting mechanism 4 includes album chip box 41, chip removing pipe 33 fixed connection just communicates in album chip box 41, fixedly connected with negative pressure pump 43 on album chip box 41, negative pressure pump 43's air inlet communicates in album chip box 41, album chip box 41 is fixed on-line in negative pressure pump 43's air inlet department has filter screen 42, when actuating mechanism 22 drives cutter 24 and cuts the raw materials, briquetting 31 can the butt in the raw materials surface, cut groove 231 intercommunication in removing groove 32 this moment, the piece that produces when cutting the raw materials gets into album chip box 41 along the chip removing pipe 33 under the effect of negative pressure pump 43, thereby reduce the piece that produces when cutting the raw materials and influence the possibility of raw materials follow-up processing and use.

The conveying mechanism 5 comprises conveying belts 51, the two sides, close to a feed inlet and a discharge outlet of the shearing box 21, of each shearing table 23 are respectively provided with a conveying belt 51, one ends, close to the shearing tables 23, of the two conveying belts 51 of the shearing box 21 are respectively provided with a conveying roller 52, the conveying rollers 52 can be abutted to the surfaces of raw materials, power mechanisms for providing power for the conveying belts 51 and the conveying rollers 52 are arranged in the shearing box 21, the two conveying belts 51 and the shearing tables 23 are arranged in a step mode, the conveying belt 51, close to the feed inlet side of the shearing box 21, is higher than the shearing tables 23, the conveying belt 51, close to the discharge outlet side of the shearing box 21, is lower than the shearing tables 23, raw materials can be conveyed under the action of the conveying belts 51 and the conveying rollers 52, sheared raw materials can be conveyed continuously under the action of the conveying rollers 52, and the possibility that the raw materials are clamped in the device is reduced.

Referring to fig. 1 and 3, the driving mechanism 22 includes a connecting rod 221, the connecting rod 221 is fixedly connected to a side of the pressing block 31 far away from the shearing table 23, a protection box 222 is fixedly connected to the shearing box 21, a displacement frame 223 is slidably connected to the protection box 222, one end of the connecting rod 221 far away from the pressing block 31 is fixedly connected to the displacement frame 223, the connecting rod 221 is penetrated and slidably connected to the protection box 222 and the wall of the shearing box 21, a driving motor 224 is fixedly connected to the shearing box 21, a driving cam 225 is fixedly connected to an output shaft of the driving motor 224, the driving cam 225 is arranged in the displacement frame 223, the driving cam 225 can be respectively abutted to one side of the displacement frame 223 near the connecting rod 221 and far away from the connecting rod 221, the driving motor 224 is started, so that the driving cam 225 rotates in the protection box 222, the displacement frame 223 is driven to move up and down, the connecting rod 221 is driven by the displacement frame 223, the cutter 24 is driven to move up and down, and the shearing of the raw materials is completed, and the length of the cutter 24 for shearing the raw materials can be adjusted by adjusting the rotating speed of the driving motor 224 by a worker, so that the worker can operate conveniently.

The connecting rod 221 is sleeved with the limiting plate 6 and fixedly connected with the limiting plate 6, the limiting plate 6 is slidably connected with the pressing block 31, the limiting springs 61 are fixedly connected with the two ends of the limiting plate 6, the limiting springs 61 are arranged on one side surface of the limiting plate 6, which is close to the cutter 24, of the limiting plate 6, one end of each limiting spring 61 is fixedly connected with the pressing block 31, the limiting springs 61 can force the limiting plate 6 to be far away from the cutter 24, when the pressing block 31 is abutted to the surface of a raw material, the limiting springs 61 are compressed, the pressing block 31 is enabled to bear a force towards the raw material, the pressing block 31 further compresses the raw material, and the possibility that the shearing effect is poor due to the fact that the raw material is displaced when the raw material is sheared is reduced.

The briquetting 31 both ends all are equipped with an gas outlet 311, briquetting 31 corresponds every gas outlet 311 fixedly connected with and removes bits pipe 33, gas outlet 311 communicates respectively in removing bits pipe 33 and desquamation groove 32, briquetting 31 corresponds two equal sliding connection of gas outlet 311 has a sprue 313, the sprue 313 keeps away from and removes bits pipe 33 one end fixedly connected with slide bar 312, slide bar 312 sliding connection is in gas outlet 311, slide bar 312 keeps away from sprue 313 one end fixedly connected with butt piece 314, the radius of sprue 313 is greater than gas outlet 311, slide bar 312 can sliding connection in gas outlet 311, the cover is equipped with slide bar spring 315 on the slide bar 312, slide bar spring 315 both ends are fixedly connected with respectively in briquetting 31 and butt piece 314, slide bar spring 315 can force sprue 313 butt in gas outlet 311, butt piece 314 is kept away from self slide bar 312 side fixedly connected with rubber butt layer 7, rubber butt layer 7 can butt in the raw materials surface, when shearing the raw materials, briquetting 31 butt is in the raw materials surface this moment, rubber butt layer 7 butt is also in the raw materials surface time, spring atress compresses, the sprue 313 keeps away from gas outlet 311, thereby make the radius of sprue 311 keep away from gas outlet 311 and make and cut off the groove 31 and make the negative pressure and take place in the butt piece 311 and make the negative pressure can lift up the top of the butt piece 315 and take place in the groove 311, thereby cut off the groove 31, the negative pressure can make the top-pressure and make the top cut off the chip 31 and take place, the top of the chip 31 and the effect and make the place, the chip is separated from the top by the top off the material surface, and is located in the raw materials surface.

The application method of the utility model is as follows: raw materials that accomplish the printing in printing mechanism 1 go into in the shear box 21, move to shearing bench 23 under the effect of conveyer belt 51 and transfer roller 52, cutter 24 and briquetting 31 are moved towards the raw materials under the effect of actuating mechanism 22, briquetting 31 butt is in the raw materials surface, and make rubber butt layer 7 butt in the raw materials surface, thereby make the shutoff 313 keep away from gas outlet 311, make and form the negative pressure in chip removal groove 32 and the shear groove 231, cutter 24 shears the raw materials under the effect of actuating mechanism 22, the piece that the shearing produced gets into album chip case 41 through gas outlet 311 and chip removal pipe 33, cutter 24 and briquetting 31 lift up under the effect of actuating mechanism 22, the raw materials continue to move towards the discharge gate of shear box 21 under the effect of conveyer belt 51 and transfer roller 52, and accomplish the ejection of compact from the discharge gate of shear box 21.

The foregoing description of the preferred embodiment of the utility model is merely illustrative of the utility model, and is not intended to be limiting, since various modifications and variations of the utility model may be made to the user. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. The utility model provides a packing printing machine, includes printing mechanism (1), and printing mechanism (1) are equipped with shearing mechanism (2) in self discharge gate one side, its characterized in that: the utility model provides a shearing mechanism (2) is including shearing case (21), be equipped with cutter (24) in shearing case (21), can drive actuating mechanism (22) and shearing platform (23) of cutter (24) shearing raw materials, be equipped with shear groove (231) corresponding cutter (24) on shearing platform (23), be equipped with in shearing case (21) and remove bits mechanism (3), remove bits mechanism (3) including briquetting (31), cutter (24) wear to establish and sliding connection in briquetting (31), briquetting (31) are equipped with chip removal groove (32) in locating around cutter (24), chip removal groove (32) communicate in shear groove (231), be equipped with on briquetting (31) and communicate in chip removal pipe (33) of chip removal groove (32), chip removal pipe (33) are kept away from briquetting (31) one end and are equipped with negative pressure chip collecting mechanism (4), be equipped with transport mechanism (5) in shearing case (21).

2. A packaging printer as claimed in claim 1, wherein: the driving mechanism (22) comprises a connecting rod (221), the connecting rod (221) is connected to a cutter (24), a protection box (222) is arranged on the shearing box (21), the connecting rod (221) is respectively arranged in a penetrating mode and is connected to the box wall of the shearing box (21) and the box wall of the protection box (222) in a sliding mode, the connecting rod (221) is arranged in a penetrating mode and is connected to a pressing block (31) in a sliding mode, a displacement frame (223) is connected to the end, far away from the cutter (24), of the connecting rod (221), a driving motor (224) is arranged on the shearing box (21), a driving cam (225) is arranged on an output shaft of the driving motor (224), and the driving cam (225) can force the displacement frame (223) to be close to or far away from the shearing table (23).

3. A packaging printer as claimed in claim 2, wherein: the connecting rod (221) is sleeved with a limiting plate (6), the limiting plate (6) is slidably connected in the pressing block (31), limiting springs (61) are arranged at two ends of the limiting plate (6), the limiting springs (61) are arranged on one side surface of the limiting plate (6) close to the shearing table (23), one end, away from the limiting plate (6), of the limiting spring (61) is connected with the pressing block (31), and the limiting springs (61) can force the limiting plate (6) to be away from the shearing table (23).

4. A packaging printer according to claim 3, wherein: negative pressure collection bits mechanism (4) are including album bits case (41), and chip removal pipe (33) are connected in album bits case (41), and chip removal pipe (33) communicate in album bits case (41), are equipped with negative pressure pump (43) on album bits case (41), and the extraction opening of negative pressure pump (43) communicates in album bits case (41), and the extraction opening that album bits case (41) corresponds negative pressure pump (43) is equipped with filter screen (42).

5. A packaging printer as claimed in claim 4, wherein: the conveying mechanism (5) comprises a conveying belt (51), the conveying belts (51) are arranged on two sides of the shearing table (23) of the shearing box (21), conveying rollers (52) are arranged at one end, close to the shearing table (23), of the conveying belt (51), and the conveying rollers (52) can be abutted to the surface of the raw materials.

6. A packaging printer as claimed in claim 5, wherein: the two conveying belts (51) and the shearing table (23) are distributed in a step mode, the conveying belt (51) on one side, close to the feeding hole of the shearing box (21), of the conveying belt is higher than the shearing table (23), and the conveying belt (51) on one side, close to the discharging hole of the shearing box (21), of the conveying belt is lower than the shearing table (23).

7. A packaging printer as claimed in claim 6, wherein: the briquetting (31) both ends all are equipped with gas outlet (311), gas outlet (311) communicate in desquamation pipe (33), wear to establish and sliding connection has slide bar (312) on gas outlet (311), slide bar (312) are close to gas outlet (311) one end and are equipped with sprue (313), sprue (313) set up in briquetting (31) and sprue (313) can block up gas outlet (311), slide bar (312) are kept away from sprue (313) one end and are equipped with butt piece (314), butt piece (314) can butt in the raw materials surface, slide bar (312) overcoat is equipped with slide bar spring (315), slide bar spring (315) both ends are connected respectively in butt piece (314) and briquetting (31), slide bar spring (315) can force sprue (313) butt in the department around gas outlet (311).

8. A packaging printer as claimed in claim 7, wherein: and a rubber abutting layer (7) is arranged on one side surface of the abutting block (314) close to the shearing table (23).