CN216101097U - Paster element carries a set ink jet numbering machine - Google Patents

Abstract

The utility model belongs to the technical field of ink jet numbering machines, and particularly relates to a chip component carrying disc ink jet numbering machine, which comprises: the processing base station is hollow and provided with a carrying disc accommodating space; the carrying disc position adjusting mechanism is connected to the processing base station and used for extending into the carrying disc accommodating space and driving the chip component carrying disc to rotate; the carrier disc braking and positioning mechanism is connected to the processing base station and used for extending into the carrier disc accommodating space and abutting against the patch element carrier disc; and the carrying disc code spraying mechanism is movably arranged above the processing base station and is used for carrying the code spraying operation on the paster element carrying disc in the carrying disc accommodating space. The utility model effectively improves the quality and efficiency of code spraying of the code spraying machine on the chip component carrier disc, positions of the chip component carrier disc are uniform after code spraying, code spraying is tidy, the code spraying effect of the chip component carrier disc is prevented from being influenced by position deviation, and the using effect of the code spraying machine is effectively improved.

Description

Paster element carries a set ink jet numbering machine

Technical Field

The utility model belongs to the technical field of ink jet printers, and particularly relates to a chip component carrying disc ink jet printer.

Background

The code spraying machine is a device which is controlled by software and used for carrying out identification on products in a non-contact mode. The ink jet printer is a high-tech product integrating mechatronics, and is characterized in that patterns, characters and numbers are jet-printed on the surfaces of various objects by utilizing charged ink particles and the principle of high-voltage electric field deflection. The ink-jet printer is widely applied to the food industry, the cosmetic industry, the pharmaceutical industry, the automobile and other part processing industry, the electric wire and cable industry, the aluminum plastic pipe industry, the tobacco and wine industry and other fields. It can be used for spray printing production date, batch number, bar code, trademark pattern, anti-counterfeiting mark and Chinese typeface. However, the existing inkjet printer is inconvenient to adjust the position of the product, so that the positions of the inkjet printer sprayed to the product are different, and the positions of the codes on the product are not uniform, thereby being not beneficial to the external marketing and the attractiveness of the product.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a chip component tray-carrying ink-jet printer, and aims to solve the technical problem that the position of a product is not convenient to adjust by the ink-jet printer in the prior art, so that the positions of codes on the product are not uniform.

In order to achieve the above object, an inkjet printer for a chip component carrier disc according to an embodiment of the present invention is used for processing a chip component carrier disc, and includes:

the processing base station is hollow, and a carrying disc accommodating space is formed in the processing base station and used for retaining the patch element carrying disc;

the carrying disc position adjusting mechanism is connected to the processing base station and used for extending into the carrying disc accommodating space and driving the surface mounted element carrying disc to rotate;

the carrying disc braking and positioning mechanism is connected to the processing base station and used for extending into the carrying disc accommodating space and abutting against the patch element carrying disc;

and the carrying disc code spraying mechanism is movably arranged above the processing base station and is used for carrying the code spraying operation on the surface mounted element carrying disc in the carrying disc accommodating space.

Optionally, the carrier disc position adjusting mechanism includes:

the carrying disc opposite-inserting assembly is connected to the processing base station;

the carrying disc rotating assembly is connected to the carrying disc opposite-inserting assembly;

the carrying disc opposite-inserting assembly drives the carrying disc rotating assembly to move relative to the processing base station, so that the output end of the carrying disc rotating assembly is inserted into the chip element carrying disc; the carrying disc rotating assembly is used for driving the patch element carrying disc to rotate.

Optionally, the carrier disk rotating assembly comprises a carrier disk rotating motor and a carrier disk rotating seat; the carrying disc rotating motor is connected to the carrying disc oppositely-inserting assembly; the carrying disc rotating seat is connected to an output shaft of the carrying disc rotating motor, and an inserting lug which is used for being inserted and connected onto the patch element carrying disc is arranged on the carrying disc rotating seat in a protruding mode.

Optionally, the carrier disc opposite-insertion assembly comprises an opposite-insertion mounting base, an opposite-insertion movable base, an opposite-insertion sliding guide sleeve and an opposite-insertion driving cylinder; the opposite-insertion mounting base is fixedly connected to the processing base; the carrying disc rotating assembly is fixedly arranged on the opposite-insertion movable base; two end parts of the inserting sliding guide sleeves are respectively connected to the inserting mounting base and the inserting movable base; the opposite-insertion driving cylinder is arranged on the opposite-insertion mounting base, and an output shaft of the opposite-insertion driving cylinder is connected with the opposite-insertion movable base.

Optionally, the carrier disc braking and positioning mechanism comprises a braking mounting base, a braking driving cylinder and a braking movable base; the brake mounting base is fixedly connected to the processing base; the brake driving cylinder is fixedly arranged on the brake mounting base, and an output shaft of the brake driving cylinder is fixedly connected with the brake movable base; and a braking lug which is used for abutting against the patch element carrying disc is convexly arranged on the braking movable base.

Optionally, the tray code spraying mechanism includes:

the code spraying module is used for spraying codes on the chip component carrying disc in the carrying disc accommodating space;

the code spraying overturning driving assembly is connected with the code spraying module and used for driving the code spraying module to overturn so that the code spraying module is parallel to the chip component carrying disc in the carrying disc accommodating space;

and the code spraying position adjusting assembly is connected with the code spraying overturning driving assembly and is used for driving the code spraying overturning driving assembly and the code spraying module to move so as to finish transversely spraying the code on the surface mounted component carrying disc.

Optionally, the code spraying turnover driving assembly comprises a turnover mounting base, a turnover movable base, a turnover driving cylinder and a turnover traction member; the tail end of the overturning mounting base is fixedly connected to the code spraying position adjusting assembly, the overturning movable base is hinged to the front end of the overturning mounting base, and the code spraying module is fixedly arranged on the overturning movable base; the overturning traction piece is arranged in the overturning mounting base in a sliding mode, and one end of the overturning traction piece extends out and is clamped on the overturning movable base; the overturning driving cylinder is fixedly installed on the overturning installation base, and an output shaft of the overturning driving cylinder is connected with the overturning traction piece.

Optionally, the code spraying position adjusting assembly comprises a sliding base, a sliding connecting rod, an adjusting rack, an adjusting gear and a position adjusting motor; the sliding connecting rod is connected to the sliding base in a sliding mode, and the end portion of the sliding connecting rod is fixedly connected with the code spraying overturning driving assembly; the adjusting rack is fixedly arranged on the sliding connecting rod, the adjusting gear is fixedly arranged on an output shaft of the position adjusting motor, and the adjusting rack and the adjusting gear are in meshed transmission.

Optionally, the code spraying mechanism of the carrier disc further comprises a code spraying sealing assembly for sealing the code spraying module; the code spraying sealing assembly comprises a sealing driving cylinder and a sealing joint disc; the output shaft of the sealing driving cylinder is fixedly connected with the sealing joint disc to drive the sealing joint disc to be attached to the code spraying module.

Optionally, a carrying disc limiting assembly is arranged on the processing base table; the loading disc limiting assembly comprises a limiting cylinder fixedly connected to the processing base station and a limiting rod fixedly connected to an output shaft of the limiting cylinder; the limiting cylinder drives the limiting rod to movably extend out of the processing base station.

One or more technical schemes in the patch element tray-carrying inkjet printer provided by the embodiment of the utility model at least have one of the following technical effects: when the chip component carrying disc code spraying machine is used for code spraying operation, the chip component carrying disc is reserved through the processing base station, the chip component carrying disc is driven to rotate through the carrying disc position adjusting mechanism, the chip component carrying disc is abutted against the chip component carrying disc through the carrying disc braking and positioning mechanism, and code spraying operation is carried out on the chip component carrying disc through the carrying disc code spraying mechanism. Therefore, the chip component carrier disc inkjet printer can realize position adjustment and positioning of the chip component carrier disc through the mutual matching of the carrier disc position adjusting mechanism and the carrier disc braking and positioning mechanism on the basis of the function of a common inkjet printer, the quality and the efficiency of inkjet printing of the inkjet printer on the chip component carrier disc are effectively improved, after inkjet printing of the chip component carrier disc, the position is uniform, inkjet printing is neat, the inkjet printing effect of the chip component carrier disc is prevented from being influenced by position deviation, the using effect of the inkjet printer is effectively improved, the inkjet printing process is more standardized and efficient, the chip component carrier disc inkjet printer is very suitable for the automatic production mode of the current enterprises, and the chip component carrier disc inkjet printer has a good application prospect.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a patch element tray code spraying machine according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a tray position adjustment mechanism according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a carrier disc braking and positioning mechanism according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a code spraying mechanism of a carrier tray provided in an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a tray-loading limiting assembly according to an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

100. processing the base platform; 110. A carrying disc accommodating space; 120. A tray limiting assembly;

121. a limiting cylinder; 122. A limiting rod; 130. A third photoelectric sensing module;

200. a carrier disc position adjusting mechanism; 210. The carrying disc is oppositely inserted into the assembly; 211. Opposite insertion mounting bases;

212. opposite-inserting movable bases; 213. The sliding guide sleeves are inserted oppositely; 214. The opposite insertion driving cylinders;

220. a carrier disk rotating assembly; 221. A carrier disk rotating motor; 222. A carrier disk rotating seat;

223. inserting the projection; 230. A first photoelectric sensing module; 240. A second photoelectric sensing module;

300. a carrier disc braking and positioning mechanism; 310. A brake mounting base; 320. A brake driving cylinder;

330. braking the movable base; 340. A braking projection; 400. a code spraying mechanism of the carrying disc;

410. spraying a code module; 420. Code spraying turnover driving components; 421. Overturning the mounting base;

422. turning over the movable base; 423. A turnover driving cylinder; 424. Turning over the traction piece;

430. a code spraying position adjusting component; 431. A sliding base; 432. A sliding connecting rod;

433. adjusting the rack; 434. An adjusting gear; 435. A position adjustment motor;

440. spraying a code sealing assembly; 441. A sealing driving cylinder; 442. The splice tray is sealed.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be illustrative of the embodiments of the present invention, and should not be construed as limiting the utility model.

In the description of the embodiments of the present invention, it should be understood that the terms "length", "width", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the embodiments of the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "interdigitation", "immobilization" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "interdigitating," "arresting," may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. Specific meanings of the above terms in the embodiments of the present invention can be understood by those of ordinary skill in the art according to specific situations.

In an embodiment of the present invention, as shown in fig. 1, there is provided a chip component tray inkjet printing machine for processing a chip component tray, including:

a processing base 100, wherein a carrying disc accommodating space 110 is formed in the processing base 100 in a hollow manner, and is used for retaining the patch element carrying disc;

the carrying disc position adjusting mechanism 200 is connected to the processing base station 100, and is used for extending into the carrying disc accommodating space 110 and driving the patch element carrying disc to rotate;

the carrier disc braking and positioning mechanism 300 is connected to the processing base station 100, and is used for extending into the carrier disc accommodating space 110 and abutting against the patch element carrier disc;

and a disc-carrying code spraying mechanism 400, wherein the disc-carrying code spraying mechanism 400 is movably arranged above the processing base station 100 and is used for carrying out code spraying operation on the chip component carrying disc in the disc-carrying accommodating space 110.

Specifically, when the inkjet printing machine for the chip component carrier disc is used for inkjet printing, the chip component carrier disc is reserved through the processing base station 100, the chip component carrier disc is driven to rotate through the carrier disc position adjusting mechanism 200, the chip component carrier disc is abutted against the chip component carrier disc through the carrier disc braking and positioning mechanism 300, and inkjet printing operation is performed on the chip component carrier disc through the carrier disc inkjet printing mechanism 400. Therefore, the chip component carrier disc inkjet printer can realize the position adjustment and the positioning of the chip component carrier disc through the mutual matching of the carrier disc position adjusting mechanism 200 and the carrier disc braking and positioning mechanism 300 on the basis of the function of a common inkjet printer, the quality and the efficiency of inkjet printing of the inkjet printer on the chip component carrier disc are effectively improved, the positions of the chip component carrier disc after inkjet printing are unified, the inkjet printing is neat, the inkjet printing effect of the chip component carrier disc is prevented from being influenced by position deviation, the using effect of the inkjet printer is effectively improved, the inkjet printing process is more standardized and efficient, the chip component carrier disc inkjet printer is very suitable for the automatic production mode of the current enterprise, and the chip component carrier disc inkjet printer has a good application prospect.

In another embodiment of the present invention, as shown in fig. 2, the boat position adjustment mechanism 200 includes:

a disc loading and insertion assembly 210, wherein the disc loading and insertion assembly 210 is connected to the machining base 100;

and a disk carrier rotating assembly 220, wherein the disk carrier rotating assembly 220 is connected to the disk carrier inserting assembly 210.

Specifically, in the process of adjusting the position of the patch element carrier disc, the carrier disc position adjusting mechanism 200 drives the carrier disc rotating assembly 220 to move relative to the processing base 100 by the carrier disc opposite-inserting assembly 210, so that the output end of the carrier disc rotating assembly 220 is inserted into the patch element carrier disc, and then the carrier disc rotating assembly 220 is used for driving the patch element carrier disc to rotate, and finally the position of the patch element carrier disc is adjusted to a required code spraying position.

In another embodiment of the present invention, as shown in fig. 2, the boat rotating assembly 220 includes a boat rotating motor 221 and a boat rotating base 222; the carrying disc rotating motor 221 is connected to the carrying disc inserting assembly 210; the disc-carrying rotary seat 222 is connected to an output shaft of the disc-carrying rotary motor 221, and an insertion projection 223 for being inserted into the patch element carrying disc is convexly arranged on the disc-carrying rotary seat 222. Specifically, when the disc-carrying rotating assembly 220 works, the insertion projection 223 is inserted into the patch element carrying disc, and the disc-carrying rotating motor 221 works, that is, the disc-carrying rotating motor 221 drives the disc-carrying rotating seat 222 and the insertion projection 223 to rotate, so as to rotate the patch element carrying disc; the whole structure is simple, the use stability is good, and the applicability is strong.

As shown in fig. 1, the carrier disk rotating assembly 220 further includes a first photo-electric sensing module 230 mounted on the processing base 100 for determining whether the patch element carrier disk is left in the processing base 100; the existence of the material is determined by the first photoelectric sensing module 230, the acquired data is sent to the controller, the controller is used for controlling the operation of the tray rotating motor 221, and when the first photoelectric sensing module 230 senses the patch element tray, the tray rotating motor 221 acts, so that the method is simple and easy to implement.

In addition, as shown in fig. 1, the carrier disk rotation assembly 220 further includes a second photo sensor module 240 mounted on the processing base 100 for determining an origin of the patch element carrier disk; the position of the origin of the patch element carrier disc is determined through the second photoelectric sensing module 240, the acquired data is sent to the controller, the controller is used for controlling the work of the carrier disc rotating motor 221, and when the patch element carrier disc rotates to the origin, the second photoelectric sensing module 240 senses the position, so that the method is simple and easy to achieve.

In another embodiment of the present invention, as shown in fig. 2, the boat opposite-insertion assembly 210 includes an opposite-insertion mounting base 211, an opposite-insertion movable base 212, an opposite-insertion slide guide 213 and an opposite-insertion driving cylinder 214; the opposite insertion installation base 211 is fixedly connected to the processing base 100; the tray rotating assembly 220 is fixedly arranged on the opposite insertion movable base 212; the two end parts of the plurality of opposite insertion sliding guide sleeves 213 are respectively connected to the opposite insertion mounting base 211 and the opposite insertion movable base 212; the opposite insertion driving cylinder 214 is arranged on the opposite insertion mounting base 211, and an output shaft of the opposite insertion driving cylinder 214 is connected with the opposite insertion movable base 212. Specifically, when the disc loading and oppositely inserting assembly 210 works, the oppositely inserting driving cylinder 214 operates to drive the oppositely inserting movable base 212 to move relative to the oppositely inserting mounting base 211, and the disc loading rotating assembly 220 fixed on the oppositely inserting movable base 212 extends into the disc loading space 110 and inserts into the chip element disc loading to complete the inserting operation. In addition, the disc-carrying opposite-inserting assembly 210 is simple in structure, the opposite-inserting movable base 212 is connected to the opposite-inserting mounting base 211 in a sliding mode through the opposite-inserting sliding guide sleeve 213, the opposite-inserting sliding guide sleeve 213 can better provide guiding service for the opposite-inserting movable base 212, and the opposite-inserting movable base 212 and the opposite-inserting mounting base 211 are guaranteed to be connected stably, slide stably and have long service life.

In another embodiment of the present invention, as shown in fig. 3, the carrier disc brake positioning mechanism 300 includes a brake mounting base 310, a brake driving cylinder 320 and a brake movable base 330; the brake mounting base 310 is fixedly connected to the processing base 100; the brake driving cylinder 320 is fixedly arranged on the brake mounting base 310, and an output shaft of the brake driving cylinder 320 is fixedly connected with the brake movable base 330; the braking movable base 330 is convexly provided with a braking lug 340 used for abutting against the patch element carrying disc. Specifically, when the disc loading brake positioning mechanism 300 works, the brake driving cylinder 320 acts to drive the brake movable base 330 to move relative to the brake mounting base 310, and the brake protrusion 340 fixed on the brake movable base 330 extends into the disc loading space 110 and abuts against the patch element disc loading space, thereby completing the positioning action. Therefore, the disc-carrying brake positioning mechanism 300 can realize positioning of the disc carried by the patch element, and can limit the disc carried by the patch element from shaking up and down, from front to back and from left to right during code spraying operation, so that the practicability is improved.

In another embodiment of the present invention, as shown in fig. 4, the tray code spraying mechanism 400 includes:

the code spraying module 410 is used for spraying codes on the chip component carrier disc in the carrier disc accommodating space 110;

the code spraying turnover driving component 420 is connected with the code spraying module 410 and used for driving the code spraying module 410 to turn over so that the code spraying module 410 is parallel to the chip component carrying tray in the carrying tray accommodating space 110;

and the code spraying position adjusting assembly 430 is connected with the code spraying overturning driving assembly 420, and is used for driving the code spraying overturning driving assembly 420 and the code spraying module 410 to move so as to finish the transverse code spraying of the chip component carrying disc.

Specifically, the code-spraying mechanism 400 of the carrier disc can change the transverse position and the angle of the code-spraying module 410 by arranging the code-spraying turnover driving component 420 and the code-spraying position adjusting component 430, so that the code-spraying distance and the suitable angle can be flexibly adjusted by the code-spraying turnover driving component and the code-spraying position adjusting component according to the code-spraying distance and the code-spraying angle of different products, and the code-spraying turnover driving component and the code-spraying position adjusting component are flexibly and conveniently used, so that the code-spraying turnover driving component is not restricted by the angle.

In another embodiment of the present invention, as shown in fig. 4, the code spraying turnover driving assembly 420 includes a turnover mounting base 421, a turnover movable base 422, a turnover driving cylinder 423 and a turnover traction member 424; the tail end of the turnover mounting base 421 is fixedly connected to the code spraying position adjusting assembly 430, the turnover movable base 422 is hinged to the front end of the turnover mounting base 421, and the code spraying module 410 is fixedly arranged on the turnover movable base 422; the overturning traction piece 424 is slidably arranged in the overturning installation base 421, and one end of the overturning traction piece 424 extends out and is clamped on the overturning movable base 422; the overturning driving cylinder 423 is fixedly installed on the overturning installation base 421, and an output shaft of the overturning driving cylinder 423 is connected with the overturning traction member 424. Specifically, when the code spraying turnover driving assembly 420 works, the turnover driving cylinder 423 acts to drive the turnover traction member 424 to move on the turnover mounting base 421, and the turnover movable base 422 is driven to rotate around the hinged position of the turnover mounting base 421 under the linkage of the turnover traction member 424, so that the code spraying module 410 fixed on the turnover movable base 422 is parallel to the patch element carrying tray in the carrying tray accommodating space 110, and the change of the angle of the code spraying module 410 is completed. Therefore, the code spraying turnover driving component 420 can realize angular positioning of the code spraying module 410, and ensures that the code spraying module 410 is parallel to the surface mounted component carrying disc during code spraying operation, so that the code spraying module 410 can accurately and neatly spray code marks on the surface mounted component carrying disc.

In another embodiment of the present invention, as shown in fig. 4, the code spraying position adjusting assembly 430 includes a sliding base 431, a sliding connecting rod 432, an adjusting rack 433, an adjusting gear 434 and a position adjusting motor 435; the sliding connecting rod 432 is connected to the sliding base 431 in a sliding manner, and the end part of the sliding connecting rod 432 is fixedly connected with the code spraying overturning driving component 420; the adjusting rack 433 is fixedly arranged on the sliding connecting rod 432, the adjusting gear 434 is fixedly arranged on an output shaft of the position adjusting motor 435, and the adjusting rack 433 is in meshed transmission with the adjusting gear 434. Specifically, when the code spraying position adjusting assembly 430 works, the position adjusting motor 435 moves to drive the adjusting gear 434 to rotate, and the sliding connecting rod 432, the code spraying turnover driving assembly 420 and the code spraying module 410 are driven to transversely move through the meshing transmission of the adjusting gear 434 and the adjusting rack 433, so that transverse code spraying of the chip component carrier disc is completed, the code spraying position adjusting assembly 430 is simple in structure, the code spraying position is easy to adjust, and the position adjusting precision is high.

In another embodiment of the present invention, as shown in fig. 4, the carrier disc code spraying mechanism 400 further includes a code spraying sealing assembly 440 for sealing the code spraying module 410; the code spraying sealing assembly 440 comprises a sealing driving cylinder 441 and a sealing joint disc 442; the output shaft of the seal driving cylinder 441 is fixedly connected with the seal engaging disk 442. Specifically, when the tray-carrying code spraying mechanism 400 works, the sealing driving cylinder 441 drives the sealing joint tray 442 to be attached to the code spraying module 410, a sealing state is formed between the sealing joint tray 442 and the code spraying module 410, the problem that ink is easy to block due to drying is solved, and the forming speed, quality and production efficiency of ink-jet printing are greatly improved.

In another embodiment of the present invention, as shown in fig. 5, a carrier plate position-limiting assembly 120 is disposed on the processing base 100; the tray limiting assembly 120 comprises a limiting cylinder 121 fixedly connected to the processing base 100 and a limiting rod 122 fixedly connected to an output shaft of the limiting cylinder 121. Specifically, when the tray-carrying limiting assembly 120 works, the limiting cylinder 121 drives the limiting rod 122 to movably extend out of the processing base 100, so that the chip component tray is retained on the processing base 100 for code spraying; after the code spraying is finished, the limiting cylinder 121 drives the limiting rod 122 to retract, and the chip component carrying disc is output.

As shown in fig. 1, the processing base 100 is further provided with a third photoelectric sensing module 130 for determining whether the chip component carrier disc has been subjected to code spraying; the third photoelectric sensing module 130 determines the code spraying condition, the collected data is sent to the controller, the controller controls the work of the tray-carrying limiting component 120, and when the third photoelectric sensing module 130 identifies that the code is sprayed on the patch element tray, the tray-carrying limiting component 120 is opened.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a paster element carries a set ink jet numbering machine for processing paster element carries a set, its characterized in that includes:

the processing base station is hollow, and a carrying disc accommodating space is formed in the processing base station and used for retaining the patch element carrying disc;

the carrying disc position adjusting mechanism is connected to the processing base station and used for extending into the carrying disc accommodating space and driving the surface mounted element carrying disc to rotate;

the carrying disc braking and positioning mechanism is connected to the processing base station and used for extending into the carrying disc accommodating space and abutting against the patch element carrying disc;

and the carrying disc code spraying mechanism is movably arranged above the processing base station and is used for carrying the code spraying operation on the surface mounted element carrying disc in the carrying disc accommodating space.

2. The patch element tray inkjet printer of claim 1, wherein: the carrier disc position adjustment mechanism comprises:

the carrying disc opposite-inserting assembly is connected to the processing base station;

the carrying disc rotating assembly is connected to the carrying disc opposite-inserting assembly;

the carrying disc opposite-inserting assembly drives the carrying disc rotating assembly to move relative to the processing base station, so that the output end of the carrying disc rotating assembly is inserted into the chip element carrying disc; the carrying disc rotating assembly is used for driving the patch element carrying disc to rotate.

3. The patch element tray inkjet printer of claim 2, wherein: the carrying disc rotating assembly comprises a carrying disc rotating motor and a carrying disc rotating seat; the carrying disc rotating motor is connected to the carrying disc oppositely-inserting assembly; the carrying disc rotating seat is connected to an output shaft of the carrying disc rotating motor, and an inserting lug which is used for being inserted and connected onto the patch element carrying disc is arranged on the carrying disc rotating seat in a protruding mode.

4. The patch element tray inkjet printer of claim 2, wherein: the carrier disc opposite-inserting assembly comprises an opposite-inserting mounting base, an opposite-inserting movable base, an opposite-inserting sliding guide sleeve and an opposite-inserting driving cylinder; the opposite-insertion mounting base is fixedly connected to the processing base; the carrying disc rotating assembly is fixedly arranged on the opposite-insertion movable base; two end parts of the inserting sliding guide sleeves are respectively connected to the inserting mounting base and the inserting movable base; the opposite-insertion driving cylinder is arranged on the opposite-insertion mounting base, and an output shaft of the opposite-insertion driving cylinder is connected with the opposite-insertion movable base.

5. The patch element tray inkjet printer of claim 1, wherein: the carrier disc braking and positioning mechanism comprises a braking mounting base, a braking driving cylinder and a braking movable base; the brake mounting base is fixedly connected to the processing base; the brake driving cylinder is fixedly arranged on the brake mounting base, and an output shaft of the brake driving cylinder is fixedly connected with the brake movable base; and a braking lug which is used for abutting against the patch element carrying disc is convexly arranged on the braking movable base.

6. The patch element tray inkjet printer of claim 1, wherein: carry a set ink jet numbering machine to construct and include:

the code spraying module is used for spraying codes on the chip component carrying disc in the carrying disc accommodating space;

the code spraying overturning driving assembly is connected with the code spraying module and used for driving the code spraying module to overturn so that the code spraying module is parallel to the chip component carrying disc in the carrying disc accommodating space;

and the code spraying position adjusting assembly is connected with the code spraying overturning driving assembly and is used for driving the code spraying overturning driving assembly and the code spraying module to move so as to finish transversely spraying the code on the surface mounted component carrying disc.

7. The patch element tray inkjet printer of claim 6, wherein: the code spraying turnover driving assembly comprises a turnover mounting base, a turnover movable base, a turnover driving cylinder and a turnover traction piece; the tail end of the overturning mounting base is fixedly connected to the code spraying position adjusting assembly, the overturning movable base is hinged to the front end of the overturning mounting base, and the code spraying module is fixedly arranged on the overturning movable base; the overturning traction piece is arranged in the overturning mounting base in a sliding mode, and one end of the overturning traction piece extends out and is clamped on the overturning movable base; the overturning driving cylinder is fixedly installed on the overturning installation base, and an output shaft of the overturning driving cylinder is connected with the overturning traction piece.

8. The patch element tray inkjet printer of claim 6, wherein: the code spraying position adjusting assembly comprises a sliding base, a sliding connecting rod, an adjusting rack, an adjusting gear and a position adjusting motor; the sliding connecting rod is connected to the sliding base in a sliding mode, and the end portion of the sliding connecting rod is fixedly connected with the code spraying overturning driving assembly; the adjusting rack is fixedly arranged on the sliding connecting rod, the adjusting gear is fixedly arranged on an output shaft of the position adjusting motor, and the adjusting rack and the adjusting gear are in meshed transmission.

9. The patch element tray inkjet printer of claim 6, wherein: the code spraying mechanism of the carrying disc further comprises a code spraying sealing assembly used for sealing the code spraying module; the code spraying sealing assembly comprises a sealing driving cylinder and a sealing joint disc; the output shaft of the sealing driving cylinder is fixedly connected with the sealing joint disc to drive the sealing joint disc to be attached to the code spraying module.

10. A patch element tray ink jet printer according to any one of claims 1 to 9, characterised in that: the processing base station is provided with a loading disc limiting assembly; the loading disc limiting assembly comprises a limiting cylinder fixedly connected to the processing base station and a limiting rod fixedly connected to an output shaft of the limiting cylinder; the limiting cylinder drives the limiting rod to movably extend out of the processing base station.

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