CN219131139U - Laser printer - Google Patents

Abstract

The utility model discloses a laser printer which comprises a frame, a double-shaft moving assembly arranged on the frame, a turnover assembly arranged on the double-shaft moving assembly, a pushing assembly arranged on the frame and used for pushing products into the turnover assembly, a laser assembly arranged on the frame and used for printing the products, a scraping assembly arranged on the frame and used for transferring the products in the turnover assembly into an external mechanism, and a double-layer conveying line arranged on the frame. The advantages are that: the turnover printing of the product can be realized, and the turnover printing can be matched with external equipment for butt joint and the carrier can be circularly conveyed.

Description

Laser printer

Technical Field

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

Background

In the production process of the product, laser printing is required to be carried out on the bottom of the product, in the existing laser printer, a single tool is usually arranged, the product to be printed is placed by the tool, and then laser printing is carried out on the product by a laser arranged on one side of the tool. However, this design makes it inconvenient for the laser printing apparatus to interface with external processing equipment and to print the bottom of the product.

For example, chinese patent with publication No. CN217316422U discloses a full-automatic laser printer, including grabbing material subassembly, positive and negative correction subassembly, material loading subassembly, printing subassembly, image detection subassembly and collection subassembly, positive and negative correction subassembly is including correcting and placing the piece, upset drive arrangement, upset is placed piece and second image recognition device, second image recognition device is towards correcting and is placed the piece, upset drive arrangement is connected with the upset and is placed the piece and drive the upset and place the piece and overturn around the horizontal axis, second image recognition device, correct and place the piece, upset is placed the piece and is arranged in proper order along the straight line with last material level, sideslip drive arrangement is connected with the absorption subassembly and drive the absorption subassembly and is placed the correction and is placed the piece, upset is placed the piece and is gone up the material level and remove, laser emitter sets up in the top of printing position and is directed towards the printing position.

The above-described full-automatic laser printer is not suitable for other processing mechanisms for butting products, although it can print a product.

In view of this, it is necessary to provide a laser printer.

Disclosure of Invention

The utility model provides a laser printer, which effectively solves the problems that the existing laser printing equipment is inconvenient to be in butt joint with external processing equipment and is inconvenient to print on the bottom of a product.

The technical scheme adopted by the utility model is as follows: the utility model provides a laser printer, includes the frame, still includes the biax that sets up in the frame removes the subassembly, sets up the upset subassembly on biax removes the subassembly, sets up and is used for pushing away the product to the lapse subassembly in the upset subassembly in the frame, sets up the laser assembly that is used for carrying out the printing to the product in the frame, sets up in the frame and is used for transferring the product in the upset subassembly to the bilayer transfer chain in the external mechanism and set up in the frame.

Further is: the double-shaft moving assembly comprises a first linear module arranged on the frame along the X direction and a second linear module arranged at the output end of the first linear module along the Y direction, the overturning assembly comprises a mounting plate arranged at the output end of the second linear module, two side plates symmetrically arranged on the mounting plate, rotating shafts respectively arranged on the two side plates at two ends, a suction plate fixedly arranged on the rotating shafts, and a motor arranged on the mounting plate and used for driving the rotating shafts to rotate, and a avoidance hole used for avoiding a product printing area is formed in the suction plate.

Further is: the pushing component comprises a mounting frame arranged on one side of the frame, a triaxial cylinder arranged on the mounting frame and a pushing plate arranged at the output end of the triaxial cylinder, and the scraping component comprises a bracket arranged on the frame, a rodless cylinder arranged on the bracket along the X direction and a scraping plate fixedly arranged at the output end of the rodless cylinder.

Further is: the laser assembly comprises a fixed plate arranged on the frame, a manual scissors fork arranged on the fixed plate and a laser arranged on the manual scissors fork.

Further is: the double-layer conveying line comprises a first-layer conveying line and a second-layer conveying line arranged above the first-layer conveying line.

The utility model has the beneficial effects that: the turnover printing of the product can be realized, and the turnover printing can be matched with external equipment for butt joint and the carrier can be circularly conveyed.

Drawings

Fig. 1 is an overall schematic diagram of a laser printer according to an embodiment of the present application.

Fig. 2 is a schematic diagram of a flipping assembly of a laser printer according to an embodiment of the present application.

Fig. 3 is a schematic diagram of a biaxial movement assembly of a laser printer according to an embodiment of the present application.

Fig. 4 is a schematic view of a scraping assembly of a laser printer according to an embodiment of the present disclosure.

Fig. 5 is a schematic diagram of a pushing assembly of the laser printer according to the embodiment of the present application.

Fig. 6 is a schematic diagram of a laser assembly of a laser printer according to an embodiment of the present application.

Marked in the figure as: 1. a frame; 2. a biaxial movement assembly; 3. a flip assembly; 4. a pushing assembly; 5. a laser assembly; 6. a scraping assembly; 7. a double layer conveyor line; 21. a first straight line module; 22. a second straight line module; 31. a mounting plate; 32. a side plate; 33. a rotating shaft; 34. a suction plate; 35. a motor; 41. a mounting frame; 42. a triaxial cylinder; 43. a push plate; 61. a bracket; 62. a rodless cylinder; 63. a scraper; 51. a fixing plate; 52. manual scissors and forks; 53. a laser; 71. a first layer conveyor line; 72. and a second layer conveying line.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings.

As shown in fig. 1, the structure of the laser printer provided in the embodiment of the application includes a frame 1, and further includes a biaxial moving assembly 2 disposed on the frame 1, a turnover assembly 3 disposed on the biaxial moving assembly 2, a pushing assembly 4 disposed on the frame 1 and used for pushing a product into the turnover assembly 3, a laser assembly 5 disposed on the frame 1 and used for printing a product, a scraping assembly 6 disposed on the frame 1 and used for transferring the product in the turnover assembly 3 into an external mechanism, and a double-layer conveying line 7 disposed on the frame 1.

It should be noted that the product includes a carrier and a plurality of inductors disposed on the carrier. The back of the inductor needs to be printed.

During the in-service use, biax removes subassembly 2 drive upset subassembly 3 and moves to be close to after pushing subassembly 4 one side, pushing subassembly 4 pushes the product to in upset subassembly 3 from external equipment, upset subassembly 3 turns over 180 with the product afterwards, biax removes subassembly 2 simultaneously and drives upset subassembly 3 and move to laser subassembly 5 below, then laser subassembly 5 carries out the printing to the back of the product on the upset subassembly 3, after the printing is accomplished, biax removes subassembly 2 and drives upset subassembly 3 and remove to scrape material subassembly 6 one side, upset subassembly 3 turns over 180 simultaneously, then scrape material subassembly 6 and remove the product from upset subassembly 3 to external equipment in, wherein double-deck transfer chain 7 can combine external equipment, carry the full state and the empty state of carrier.

In the design, the turnover printing of the product can be realized, and the turnover printing device can be matched with external equipment for butt joint and can be used for carrying out circulating conveying on the carrier.

Specifically: as shown in fig. 2 and 3, the dual-shaft moving assembly 2 includes a first linear module 21 disposed on the frame 1 along the X direction, and a second linear module 22 disposed at an output end of the first linear module 21 along the Y direction, the overturning assembly 3 includes a mounting plate 31 disposed at an output end of the second linear module 22, two side plates 32 symmetrically disposed on the mounting plate 31, two rotating shafts 33 whose two ends are respectively rotatably disposed on the two side plates 32, a suction plate 34 fixedly disposed on the rotating shafts 33, and a motor 35 disposed on the mounting plate 31 for driving the rotating shafts 33 to rotate, and a position avoiding hole for avoiding a product print area is disposed on the suction plate 34.

In actual use, the first linear module 21 drives the second linear module 22 to move along the X direction, the second linear module 22 drives the overturning assembly 3 to move along the Y direction, after a product is placed on the suction plate 34, the suction plate 34 adsorbs the product, then the motor 35 drives the rotating shaft 33 to rotate, the rotating shaft 33 drives the suction plate 34 to rotate 180 degrees, the back surface of the product corresponds to the laser end of the laser assembly 5, and then the laser assembly 5 prints on the back surface of the inductor.

In the above design, the structural design of the double-shaft moving assembly 2 and the overturning assembly 3 can enable the movement and overturning of the product after being placed on the overturning assembly 3 to be convenient.

Specifically: as shown in fig. 4 and 5, the pushing assembly 4 includes a mounting frame 41 disposed on one side of the frame 1, a triaxial cylinder 42 disposed on the mounting frame 41, and a pushing plate 43 disposed at an output end of the triaxial cylinder 42, and the scraping assembly 6 includes a bracket 61 disposed on the frame 1, a rodless cylinder 62 disposed on the bracket 61 along the X direction, and a scraping plate 63 fixedly disposed at an output end of the rodless cylinder 62.

In actual use, the triaxial cylinder 42 drives the push plate 43 to move along the X direction, and the product in the external equipment is pushed into the overturning assembly 3. When the product in the inverting assembly 3 is printed, the rodless cylinder 62 drives the squeegee 63 to move the product from the inverting assembly 3 to an external device.

Specifically: as shown in fig. 6, the laser assembly 5 includes a fixing plate 51 provided on the frame 1, a manual cutter fork 52 provided on the fixing plate 51, and a laser 53 provided on the manual cutter fork 52.

In actual use, the manual scissor fork 52 is manually adjusted so that the laser 53 is lifted to a height that facilitates printing of the product.

In the design, the height of the laser 53 can be timely adjusted by arranging the manual scissors fork 52, so that the laser 53 can conveniently print on a product.

Specifically: as shown in fig. 1, the double-layer transfer line 7 includes a first-layer transfer line 71 and a second-layer transfer line 72 disposed above the second-layer transfer line 72.

In actual use, after the printing of the product is completed and transferred to the external device, the external device further processes the product, wherein the external device is provided with an upper layer of production line and a lower layer of production line, the first layer of production line 71 is in butt joint with the upper layer of production line, and the second layer of production line 72 is in butt joint with the upper layer of production line. When the printing of the product is finished, the carrier with the inductor is conveyed along the material receiving direction along the upper layer assembly line, and then the empty carrier is conveyed to the material feeding direction along the lower layer assembly line.

In the above design, the laser printer can be matched with external equipment to carry out reflow conveying on the carrier.

It should be understood that the foregoing description is only illustrative of the present utility model and is not intended to limit the utility model to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (5)

1. A laser printer comprising a frame (1), characterized in that: still including setting up biax remove subassembly (2) on frame (1), setting up upset subassembly (3) on biax remove subassembly (2), set up and be used for pushing away the product to pushing component (4) in upset subassembly (3) on frame (1), set up laser assembly (5) that are used for carrying out the printing to the product on frame (1), set up on frame (1) be used for with in the product transfer of upset subassembly (3) to external mechanism scrape material subassembly (6) and set up bilayer transfer chain (7) on frame (1).

2. The laser printer according to claim 1, wherein: the double-shaft moving assembly (2) comprises a first linear module (21) arranged on the frame (1) along the X direction and a second linear module (22) arranged at the output end of the first linear module (21) along the Y direction, the overturning assembly (3) comprises a mounting plate (31) arranged at the output end of the second linear module (22), two side plates (32) symmetrically arranged on the mounting plate (31), rotating shafts (33) respectively arranged on the two side plates (32) at two ends, a suction plate (34) fixedly arranged on the rotating shafts (33), and a motor (35) arranged on the mounting plate (31) and used for driving the rotating shafts (33), and position avoiding holes used for avoiding positions of printing areas of products are formed in the suction plate (34).

3. The laser printer according to claim 1, wherein: the pushing assembly (4) comprises a mounting frame (41) arranged on one side of the frame (1), a triaxial air cylinder (42) arranged on the mounting frame (41) and a pushing plate (43) arranged at the output end of the triaxial air cylinder (42), and the scraping assembly (6) comprises a support (61) arranged on the frame (1), a rodless cylinder (62) arranged on the support (61) along the X direction and a scraping plate (63) fixedly arranged at the output end of the rodless cylinder (62).

4. The laser printer according to claim 1, wherein: the laser assembly (5) comprises a fixed plate (51) arranged on the frame (1), a manual scissors fork (52) arranged on the fixed plate (51) and a laser (53) arranged on the manual scissors fork (52).

5. The laser printer according to claim 1, wherein: the double-layer conveying line (7) comprises a first-layer conveying line (71) and a second-layer conveying line (72) arranged above the first-layer conveying line (71).

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