CN103692783A

CN103692783A - Printer

Info

Publication number: CN103692783A
Application number: CN201310717729.6A
Authority: CN
Inventors: 苏威; 于长庆; 张鑫; 吴海涛; 刘泓滨
Original assignee: Kunming University of Science and Technology
Current assignee: Kunming University of Science and Technology
Priority date: 2013-12-24
Filing date: 2013-12-24
Publication date: 2014-04-02
Anticipated expiration: 2033-12-24
Also published as: CN103692783B

Abstract

The invention relates to a printer and belongs to the technical field of label printers. The printer comprises a driving link mechanism, an input mechanism, a printing mechanism, a reducing mechanism and an output mechanism, wherein a shaft II of the driving link mechanism is connected with the reducing mechanism; a shaft III of the driving link mechanism is connected with the input mechanism; a shaft IV of the driving link mechanism is connected with the printing mechanism. According to the printer, gear engagement transmission and belt transmission are mutually matched and organically unified; the efficient printing of commodity trademarks is realized; the printer has the advantages that the all-automatic effect is realized, the precision is high, the cost is low, the structure is compact, the size is small, the weight is light, the working efficiency is high, the working performance is excellent, and can be widely applied to the automatic printing production of product labels.

Description

A kind of printer

Technical field

The present invention relates to a kind of printer, belong to label machine technical field.

Background technology

Automatic stamper is a kind of machinery at the special marking of commodity packaging printout surface, in most external packing industry, occupies absolute consequence, is widely used.So efficiency and quality that printer is printed, and the transmission accuracy of mechanism just seems most important.

At present, the mark printer in this field exists that efficiency is low, the low problem of the inter-agency reconciliation precision that cooperatively interacts of each several part, causes the reduction of production efficiency and the increase of time cost.The ingenious cooperation that the present invention designs different institutions can be good at addressing this problem.

Summary of the invention

The technical problem to be solved in the present invention is: a kind of printer is provided, can on product packing box, have printed the specific marking, for solving, the efficiency that existing mark printer field exists is low, the low problem of each inter-agency reconciliation precision that cooperatively interacts.

Technical solution of the present invention is: a kind of printer, comprises driving link mechanism 1, input mechanism 2, printing mechanism 3, reducing gear 4, output mechanism 5; Axle II 12 in driving link mechanism 1 is connected with reducing gear 4, and the axle III 13 in driving link mechanism 1 is connected with input mechanism 2, and the axle IV 14 in driving link mechanism 1 is connected with printing mechanism 3.

Described driving link mechanism 1 comprises motor 6, pinion 7, axle I 8, small belt pulley I 9, V-belt I 10, big belt pulley 11, axle II 12, axle III 13, axle IV 14, V-belt II 15, gear wheel 16, small belt pulley II 33, small belt pulley III 34, the rotating shaft of described motor 6 is connected with axle I 8, pinion 7 is from left to right housed in axle I 8 successively, small belt pulley I 9, pinion 7 is meshed with gear wheel 16, small belt pulley II 33 is housed on gear wheel 16, small belt pulley II 33 is connected with axle III 13, small belt pulley II 33 is connected with small belt pulley III 34 by V-belt II 15, axle IV 14 is housed in small belt pulley III 34, small belt pulley I 9 is connected with big belt pulley 11 by V-belt I 10, axle II 12 is housed on big belt pulley 11, pinion 7 is coaxial with small belt pulley I 9, gear wheel 16 is coaxial with small belt pulley II 33, small belt pulley III 34 is coaxial with the incomplete tooth gear 19 in printing mechanism 3, big belt pulley 11 is coaxial with the cylindrical cam 27 in reducing gear 4.

Described input mechanism 2 comprises belt wheel I 17, conveyer belt 18, belt wheel II 35, axle V 36, described belt wheel I 17 is contained in one end of axle III 13, belt wheel I 17 is connected with belt wheel II 35 by conveyer belt 18, belt wheel II 35 is fixed in extraneous frame by axle V 36, the control that driving link mechanism 1 realizes axle III 13 rotating speeds by axle III 13, thus realize the control to the commodity movement velocity on conveyer belt 18 and conveyer belt 18.

Described printing mechanism 3 comprises incomplete tooth gear 19, incomplete gear rack 20, print 21, spring 22, baffle plate I 23, baffle plate II 24, described incomplete tooth gear 19 is contained in one end of axle IV 14, incomplete tooth gear 19 is meshed with incomplete gear rack 20, directly over incomplete gear rack 20, be provided with the baffle plate II 24 being connected with extraneous support, not exclusively a side of gear rack 20 with print 21 and weld together, printing 21 is connected with baffle plate I 23 by spring 22, baffle plate I 23 is fixed in extraneous frame, baffle plate II 24 plays the effect into not exclusively gear rack 20 slows down, for the accurate engagement between incomplete tooth gear 19 and incomplete gear rack 20 provides condition.

Described reducing gear 4 comprises cylindrical cam 27, roller 28, pin 29, clutch plate 30, axle VI 31, workbench 32, described cylindrical cam 27 is contained in one end of axle II 12, roller 28 is positioned at the slideway of cylindrical cam 27, roller 28 is connected with clutch plate 30 by pin 29, clutch plate 30 is enclosed within axle VI 31, workbench 32 is equipped with on the top of axle VI 31, and clutch plate 30 is coaxial with workbench 32, and driving link mechanism 1 realizes the regular control of reducing gear 4 by axle II 12.Cylindrical cam 27 uniform rotation drive clutch plate 30 to realize intermittent stopping and motion by roller 28 and pin 29, thereby clutch plate 30 drives workbench 32 to do the intermittent of same rule by axle VI 31, stop and motion.

Described output mechanism 5 comprises baffle plate III 25 and chute 26, and baffle plate III 25 is fixed in extraneous frame, is positioned at the top of workbench 32, and chute 26 is fixed in extraneous frame, is positioned at the below of workbench 32.

Described pinion 7 is 4:1 with the gearratio of gear wheel 16, and small belt pulley I 9 is 2:1 with the gearratio of big belt pulley 11.

Described belt wheel I 17 is 1:1 with the gearratio of belt wheel II 35.

Described incomplete tooth gear 19 is 2 with incomplete gear rack 20 moduluses, and incomplete tooth gear 19 is 14 teeth with the number of teeth of incomplete gear rack 20, and incomplete tooth gear 19 and not exclusively gear rack 20 gearratios are 1:1.

Described cylindrical cam 27 is 4:1 with the gearratio of clutch plate 30.

The course of work of the present invention is: before commodity processing, will commodity are placed on accurately on the conveyer belt 18 of input mechanism 2 by other machine, this conveyer belt 18 drives the gear wheel 16 being meshed with it to rotate by motor 6 by the pinion 7 being connected with axle I 8, by axle III 13, with movable belt pulley I 17, rotate the uniform rotation that realizes conveyer belt 18 again, belt wheel II 35 is driven pulley.Commodity arrive the front inertia leap arrival that utilizes commodity itself of workbench 32 just on static workbench 32 along with conveyer belt 18 moves together, and are blocked by the baffle plate III 25 on workbench 32, make it to come to a complete stop.The motion conditions of workbench 32 is controlled by the cylindrical cam calibration intermittent motion mechanism (reducing gear 4) being connected with axle VI 31.And that motor 6 is controlled the duty of cylindrical cam calibration intermittent motion mechanism by the transmission of small belt pulley I 9, V-belt I 10 and big belt pulley 11 is static or rotate.

When commodity with workbench 32, move to print 21 under time, now workbench 32 is static.Printing mechanism 3 is started working, printing mechanism 3 realizes by the engagement of incomplete tooth gear 19 and incomplete gear rack 20 duty declining, by spring 22, realized rising and get back to the quick return process that initial state is backlash journey, the baffle plate II 24 being connected with frame contributes to the deceleration of incomplete gear rack 20.Printing mechanism 3 prints 21 trade mark in commodity assigned address printing regulation when declining, and its duty is driven by pinion 7, gear wheel 16, belt gear (V-belt II 15, small belt pulley II 33, small belt pulley III 34) by motor 6.After printing, clutch plate 30 is rotated further, thereby the rotation by axle VI 31 makes workbench 32 rotate with rule, now commodity are along with workbench 32 rotates together, when running into the baffle plate III 25 being connected with frame, baffle plate III 25 is pushed in the chute 26 of output mechanism 5 printing complete commodity, and at this moment a workflow finishes.Each member works on and carries out next cycle.

The invention has the beneficial effects as follows: whole machinery is by meshed transmission gear and the belt transmission organic unity that cooperatively interacts, realize the high efficiency printing of goods marks, have automatically, precision is high, and cost is low, compact conformation, volume is little, lightweight, and operating efficiency is high, the advantage that service behaviour is good, can be widely used in the automatic printing production of Product labelling.

Accompanying drawing explanation

Fig. 1 is general assembly drawing of the present invention;

Fig. 2 is the partial structurtes schematic diagram of driving link of the present invention mechanism;

Fig. 3 is the partial structurtes schematic diagram of input mechanism of the present invention;

Fig. 4 is the partial structurtes schematic diagram of printing mechanism of the present invention;

Fig. 5 is the partial enlarged drawing of reducing gear of the present invention and output mechanism.

Each label in Fig. 1-5: 1-driving link mechanism, 2-input mechanism, 3-printing mechanism, 4-reducing gear, 5-output mechanism, 6-motor, 7-pinion, 8-axle I, 9-small belt pulley I, 10-V-belt I, 11-big belt pulley, 12-axle II, 13-axle III, 14-axle IV, 15-V-belt II, 16-gear wheel, 17-belt wheel I, 18-conveyer belt, 19-incomplete tooth gear, the incomplete gear rack of 20-, 21-prints head, 22-spring, 23-baffle plate I, 24-baffle plate II, 25-baffle plate III, 26-chute, 27-cylindrical cam, 28-roller, 29-pin, 30-clutch plate, 31-axle VI, 32-workbench, 33-small belt pulley II, 34-small belt pulley III, 35-belt wheel II, 36-axle V.

The specific embodiment

Below in conjunction with the drawings and specific embodiments, the invention will be further described.

Embodiment 1: as Figure 1-5, a kind of printer, comprises driving link mechanism 1, input mechanism 2, printing mechanism 3, reducing gear 4, output mechanism 5; Axle II 12 in driving link mechanism 1 is connected with reducing gear 4, and the axle III 13 in driving link mechanism 1 is connected with input mechanism 2, and the axle IV 14 in driving link mechanism 1 is connected with printing mechanism 3.

Described input mechanism 2 comprises belt wheel I 17, conveyer belt 18, belt wheel II 35, axle V 36, and described belt wheel I 17 is contained in one end of axle III 13, and belt wheel I 17 is connected with belt wheel II 35 by conveyer belt 18, and belt wheel II 35 is fixed in extraneous frame by axle V 36.

Described printing mechanism 3 comprise incomplete tooth gear 19, not exclusively gear rack 20, print 21, spring 22, baffle plate I 23, baffle plate II 24, described incomplete tooth gear 19 is contained in one end of axle IV 14, incomplete tooth gear 19 is meshed with incomplete gear rack 20, directly over incomplete gear rack 20, be provided with the baffle plate II 24 being connected with extraneous support, not exclusively a side of gear rack 20 with print 21 and weld together, print 21 and be connected with baffle plate I 23 by spring 22, baffle plate I 23 is fixed in extraneous frame.

Described reducing gear 4 comprises cylindrical cam 27, roller 28, pin 29, clutch plate 30, axle VI 31, workbench 32, described cylindrical cam 27 is contained in one end of axle II 12, roller 28 is positioned at the slideway of cylindrical cam 27, roller 28 is connected with clutch plate 30 by pin 29, clutch plate 30 is enclosed within axle VI 31, workbench 32 is equipped with on the top of axle VI 31, and clutch plate 30 is coaxial with workbench 32.

Embodiment 2: as Figure 1-5, a kind of printer, comprises driving link mechanism 1, input mechanism 2, printing mechanism 3, reducing gear 4, output mechanism 5; Axle II 12 in driving link mechanism 1 is connected with reducing gear 4, and the axle III 13 in driving link mechanism 1 is connected with input mechanism 2, and the axle IV 14 in driving link mechanism 1 is connected with printing mechanism 3.

Described belt wheel I 17 is 1:1 with the gearratio of belt wheel II 35.

Described cylindrical cam 27 is 4:1 with the gearratio of clutch plate 30.

By reference to the accompanying drawings specific embodiments of the invention are explained in detail above, but the present invention is not limited to above-described embodiment, in the ken possessing those of ordinary skills, can also under the prerequisite that does not depart from aim of the present invention, makes various variations.

Claims

1. a printer, is characterized in that: comprise driving link mechanism (1), input mechanism (2), printing mechanism (3), reducing gear (4), output mechanism (5); Axle II (12) in driving link mechanism (1) is connected with reducing gear (4), and the axle III (13) in driving link mechanism (1) is connected with input mechanism (2), and the axle IV (14) in driving link mechanism (1) is connected with printing mechanism (3).

2. printer according to claim 1, it is characterized in that: described driving link mechanism (1) comprises motor (6), pinion (7), axle I (8), small belt pulley I (9), V-belt I (10), big belt pulley (11), axle II (12), axle III (13), axle IV (14), V-belt II (15), gear wheel (16), small belt pulley II (33), small belt pulley III (34), the rotating shaft of described motor (6) is connected with axle I (8), pinion (7) is from left to right housed in axle I (8) successively, small belt pulley I (9), pinion (7) is meshed with gear wheel (16), small belt pulley II (33) is housed on gear wheel (16), small belt pulley II (33) is connected with axle III (13), small belt pulley II (33) is connected with small belt pulley III (34) by V-belt II (15), axle IV (14) is housed in small belt pulley III (34), small belt pulley I (9) is connected with big belt pulley (11) by V-belt I (10), axle II (12) is housed on big belt pulley (11), pinion (7) is coaxial with small belt pulley I (9), gear wheel (16) is coaxial with small belt pulley II (33), small belt pulley III (34) is coaxial with the incomplete tooth gear (19) in printing mechanism (3), big belt pulley (11) is coaxial with the cylindrical cam (27) in reducing gear (4).

3. printer according to claim 1, it is characterized in that: described input mechanism (2) comprises belt wheel I (17), conveyer belt (18), belt wheel II (35), axle V (36), described belt wheel I (17) is contained in one end of axle III (13), belt wheel I (17) is connected with belt wheel II (35) by conveyer belt (18), and belt wheel II (35) is fixed in extraneous frame by axle V (36).

4. printer according to claim 1, it is characterized in that: described printing mechanism (3) comprises incomplete tooth gear (19), incomplete gear rack (20), print head (21), spring (22), baffle plate I (23), baffle plate II (24), described incomplete tooth gear (19) is contained in one end of axle IV (14), incomplete tooth gear (19) is meshed with incomplete gear rack (20), directly over incomplete gear rack (20), be provided with the baffle plate II (24) being connected with extraneous support, not exclusively a side of gear rack (20) welds together with seal head (21), printing head (21) is connected with baffle plate I (23) by spring (22), baffle plate I (23) is fixed in extraneous frame.

5. printer according to claim 1, it is characterized in that: described reducing gear (4) comprises cylindrical cam (27), roller (28), pin (29), clutch plate (30), axle VI (31), workbench (32), described cylindrical cam (27) is contained in one end of axle II (12), roller (28) is positioned at the slideway of cylindrical cam (27), roller (28) is connected with clutch plate (30) by pin (29), clutch plate (30) is enclosed within axle VI (31), workbench (32) is equipped with on the top of axle VI (31), clutch plate (30) is coaxial with workbench (32).

6. printer according to claim 1, it is characterized in that: described output mechanism (5) comprises baffle plate III (25) and chute (26), baffle plate III (25) is fixed in extraneous frame, be positioned at the top of workbench (32), chute (26) is fixed in extraneous frame, is positioned at the below of workbench (32).

7. printer according to claim 2, is characterized in that: described pinion (7) is 4:1 with the gearratio of gear wheel (16), and small belt pulley I (9) is 2:1 with the gearratio of big belt pulley (11).

8. printer according to claim 3, is characterized in that: described belt wheel I (17) is 1:1 with the gearratio of belt wheel II (35).

9. printer according to claim 4, it is characterized in that: described incomplete tooth gear (19) is 2 with incomplete gear rack (20) modulus, incomplete tooth gear (19) is 14 teeth with the number of teeth of incomplete gear rack (20), and incomplete tooth gear (19) is 1:1 with incomplete gear rack (20) gearratio.

10. printer according to claim 5, is characterized in that: described cylindrical cam (27) is 4:1 with the gearratio of clutch plate (30).