CN207495647U - A kind of cutter device and apply its printer - Google Patents

Abstract

The utility model provides a kind of cutting mechanism, Quan Qie mechanisms and hemisection mechanism including knife rest and on the knife rest, the hemisection mechanism includes hemisection cutter, hemisection chopping block, hemisection motor and hemisection transfer gear train, the hemisection cutter is fixedly connected on the knife rest, the hemisection chopping block is hinged on the knife rest and the corresponding position of hemisection cutter, the hemisection motor is sequentially connected with the hemisection transfer gear train, the hemisection transfer gear train is sequentially connected with the hemisection chopping block, the hemisection motor is used to the hemisection chopping block be driven to rotate by the hemisection transfer gear train.The utility model additionally provides a kind of printer, including cutter device as described above.The cutter device of the utility model and apply its printer, hemisection cutter is set as fixed, and hemisection chopping block is set as rotatable, the straightness of print media cutting line is higher, smooth non-stick knife is cut, preferably ensure that and cut earnestly and hemisection cutting effect entirely.

Description

A kind of cutter device and apply its printer

Technical field

The utility model is related to printer technology field, more particularly to a kind of cutter device and using the cutter device Printer.

Background technology

It is known that the cutter device of full cutting operation and hemisect operation can be performed on object to be cut.Full cutting Operation is to cut objects into the operation of two or more parts.Hemisect operation is a cutting object while part is retained Operation.For example, thickness is the label paper of 0.08mm, after each label is completed to print, by cutting mechanism by label paper thickness The partial cut of 0.05mm on direction, and it is hemisection to ensure that residual thickness is not cut off for 0.03mm parts；When completing one group After label printing, label paper thoroughly cut off by the cutting mechanism as cutting entirely.

But existing cutting mechanism still has some shortcomings, such as：1st, cutter motion process is easily swung, and causes to mark It is crooked to sign cutting line, influences cutting effect；2nd, it can collide in cutting process cutter and chopping block, the knife under the action of impact force Frame easily deforms, influence cutter and chopping block to positive-angle, hemisection cutting line is caused to be neglected deep suddenly shallow；3rd, paster class label by Facial tissue is be bonded with base stock to be formed, and carries viscosity, and cutting process easily occurs sticking phenomenon, influences the smooth output of label.

Therefore, how to found a kind of new cutter device and apply its printer, make to cut by the label of its cutting Line straightness is higher, cutting effect is preferable, becomes those skilled in the art's urgent problem to be solved.

Utility model content

First technical problem to be solved in the utility model is to provide a kind of cutter device, makes the label by its cutting Cutting line straightness is higher, cuts that effect is preferable, is easily swung with the cutter motion process for overcoming existing cutter device, easily Cause label cutting line crooked, hemisection precision is not high, and cutting line neglects deep suddenly shallow deficiency.

In order to solve the above technical problems, the utility model adopts the following technical solution：

A kind of cutting mechanism, Quan Qie mechanisms and hemisection mechanism including knife rest and on the knife rest, the hemisection Mechanism includes hemisection cutter, hemisection chopping block, hemisection motor and hemisection transfer gear train, and the hemisection cutter is fixedly connected on described On knife rest, the hemisection chopping block be hinged on the knife rest with the corresponding position of hemisection cutter, the hemisection motor with The hemisection transfer gear train is sequentially connected, and the hemisection transfer gear train is sequentially connected with the hemisection chopping block, the hemisection Motor is used to the hemisection chopping block be driven to rotate by the hemisection transfer gear train.

As a kind of improvement of the utility model, the hemisection transfer gear train includes the first hemisection helical gear, damping tooth Gear member, reducing gear train and hemisection chopping block drive gear, the first hemisection helical gear are fixedly connected on the hemisection motor On output shaft, the first hemisection helical gear, damping gear part, reducing gear train and hemisection chopping block drive gear rotatably connect It is connected on the knife rest and engagement connection successively, the hemisection chopping block drive gear is sequentially connected with the hemisection chopping block.

It is further improved, the hemisection transfer gear train is separately positioned on opposite the two of the knife rest with the hemisection chopping block Side, the hemisection chopping block drive gear are equipped with the first sliding groove, are set on the knife rest with the corresponding position of the first sliding groove The arc chute through the knife rest is equipped with, one end far from articulated position is provided with hemisection driving column on the hemisection chopping block, One end of the hemisection driving column is fixedly connected with the hemisection chopping block, and the other end is slidably connected to institute across the arc chute In the first sliding groove for stating hemisection chopping block drive gear.

It is further improved, the damping gear part includes the second hemisection helical gear, damping spring and third hemisection helical gear, institute It states the second hemisection helical gear to be rotatably connected on the knife rest and engage with the first hemisection helical gear, described the second half It cuts helical gear and third hemisection helical gear is coaxially disposed and is connected between it by damping spring.

It is further improved, the hemisection mechanism further includes antisticking device, and the antisticking device is used to prevent with sticking Hemisection cutter described in print media adhesion.

It is further improved, the antisticking device includes antisticking device ontology and several resilient strips in comb teeth shape arrangement, institute The knife spine that antisticking device ontology is stated close to the hemisection cutter is set, and one end of the resilient strip is consolidated with the antisticking device ontology Fixed connection, the other end is located at the blade close to the hemisection cutter and the blade relative to the hemisection cutter is closer to institute State the position of hemisection chopping block.

It is further improved, the knife rest is plate knife rest, and knife rest floor is provided on the knife rest.

It is further improved, the Quan Qie mechanisms include quiet scissors, dynamic scissors, cut transfer gear train entirely and cut motor entirely, institute Quiet scissors is stated to be fixedly connected on the knife rest, the dynamic scissors is hinged with the quiet scissors, it is described it is complete cut motor with it is described Full transfer gear train of cutting is sequentially connected, and the full transfer gear train of cutting is sequentially connected with the dynamic scissors, and the full motor of cutting is used It is rotated in by the full transfer gear train driving quiet scissors of cutting.

Be further improved, the hemisection chopping block is hinged on by rivet on the knife rest, the dynamic scissors by rivet with The quiet scissors is hinged.

Second technical problem to be solved in the utility model is to provide a kind of printer, the label cutting line for cutting it Straightness is higher, cutting effect is preferable, and existing printer cutting label to be overcome to be susceptible to, cutting line is crooked, and hemisection precision is not Height, cutting line neglect deep suddenly shallow deficiency.

In order to solve the above technical problems, the utility model adopts the following technical solution：

A kind of printer, including cutter device as described above.

Due to using above-mentioned design, the utility model has at least the following advantages：

1st, the cutter device of the utility model and apply its printer, hemisection cutter is set as fixed, and incite somebody to action Hemisection chopping block is set as rotatable, and turning to hemisection cutter by hemisection chopping block completes hemisection operation, and no matter whether hemisection chopping block is sent out Raw to swing, the cutting line of print media will not all occur crooked, and the straightness of print media cutting line is higher, and the depth is consistent, cuts It is preferable to cut effect.

2nd, by Helical gear Transmission, stable drive, shock and vibration and noise are smaller.

3rd, by setting damping spring between the second hemisection helical gear and third hemisection helical gear, hemisection chopping block can be reduced Impact force in operational process avoids knife rest from being deformed because the impact force between hemisection chopping block and hemisection cutter is excessive.

4th, by setting antisticking device that can prevent with sticking print media adhesion cutter.

5th, the structure that antisticking device is combined using antisticking device ontology and several resilient strips in comb teeth shape arrangement is solid Durable, anti-adhesion effects are preferable, and suitable for the wider printer of print span.

6th, by setting floor that can enhance the rigidity of knife rest on knife rest, knife rest is avoided in hemisection cutter and hemisection chopping block Impact force action under be deformed.

7th, it is hinged by rivet realization that scissors and hemisection chopping block are moved, scissors is made to connect with quiet scissors, hemisection chopping block and knife rest It connects even closer, controls the full swing space of dynamic scissors and hemisection chopping block during cutting through journey and hemisection, be beneficial to improve and cut Cut effect.

Description of the drawings

Above-mentioned is only the general introduction of technical solutions of the utility model, in order to better understand the technology hand of the utility model Section, below in conjunction with attached drawing, the utility model is described in further detail with specific embodiment.

Fig. 1, Fig. 2, Fig. 3 and Fig. 4 are the structure diagrams of the utility model cutter device different visual angles；

Fig. 5 is the structural decomposition diagram of the hemisection mechanism of the utility model cutter device；

Fig. 6 is the part-structure decomposition diagram of the Quan Qie mechanisms of the utility model cutter device；

Wherein, 1, knife rest, 2, media port, 3, knife rest floor, 4, arc chute, 5, hemisection cutter, 6, hemisection chopping block, 7, half Cut rivet, the 8, first hemisection helical gear, the 9, second hemisection helical gear, 10, damping spring, 11, third hemisection helical gear, 12, hemisection Chopping block drive gear, 13, the first sliding groove, 14, hemisection driving column, 15, antisticking device, 16, antisticking device ontology, 17, resilient strip, 18th, hemisection photoelectric sensor, 19, quiet scissors, 20, partition board, 21, dynamic scissors, 22, cut rivet entirely, 23, cut motor entirely, 24, snail Bar, 25, full clipping knife drive gear, 26, cut driving column entirely, 27, second sliding slot, 28, cut photoelectric sensor entirely, 29, hemisection electricity Machine.

Specific embodiment

Referring to shown in Fig. 1 to Fig. 4, the utility model provides a kind of cutter device, including knife rest 1, Quan Qie mechanisms and half Cut mechanism.

Coordinate shown in Fig. 5, knife rest 1 in the present embodiment is a plate knife rest, top edge and both sides of the edge be provided with by The knife rest floor 3 that flanging is formed, to enhance the structural strength of the knife rest 1, avoids it that process is being used to deform.On knife rest 1 Top is provided with media port 2.

The hemisection mechanism includes hemisection cutter 5, hemisection chopping block 6, hemisection motor 29 and hemisection transfer gear train.Hemisection cutter 5 are arranged on the top of knife rest 1 and 2 corresponding position of media port, and blade passes through hemisection cutter installing plate close to media port 2 It is fixedly connected on knife rest 1.One end of hemisection chopping block 6 is hinged on corresponding with hemisection cutter 5 on knife rest 1 by hemisection rivet 7 Position, hemisection rivet 7 can also be hinged on hemisection cutter 5 close to one end of hemisection cutter 5, certain hemisection chopping block 6, that is, pass through Hemisection cutter 5 is hinged on knife rest 1.Hemisection motor 29 is sequentially connected with hemisection transfer gear train, hemisection transfer gear train and half Chopping block 6 is cut to be sequentially connected.

Under the driving of hemisection motor 29, hemisection transfer gear train can drive hemisection chopping block 6 to be rotated along hemisection rivet 7, most It is connected to eventually on the blade of hemisection cutter 5, hemisection operation is completed so as to coordinate with hemisection cutter 5.It is fixed and connected due to hemisection cutter 5 Be connected on knife rest 1, but by hemisection chopping block 6 rotate complete hemisection operate, no matter whether hemisection chopping block 6 swings, and cuts Knife is all fixed, and label cutting line will not all occur crooked, and the straightness of label cutting line is higher, cutting effect is preferable.

Hemisection transfer gear train is separately positioned on the opposite sides of knife rest 1 with hemisection chopping block 6 in the present embodiment.Hemisection is driven Gear train specifically includes the first hemisection helical gear 8, damping gear part, reducing gear train and hemisection chopping block drive gear 12.First Hemisection helical gear 8 is fixedly connected on the output shaft of hemisection motor 29, the first hemisection helical gear 8, damping gear part, reduction gearing System and hemisection chopping block drive gear 12 are rotatably connected on knife rest 1 and engagement connection successively.Hemisection chopping block drive gear The first sliding groove 13 is provided on 12, is provided through the arc chute of knife rest 1 on knife rest 1 with 13 corresponding position of the first sliding groove 4, one end far from hemisection rivet 7 on hemisection chopping block 6 is provided with hemisection driving column 14, one end and the hemisection anvil of hemisection driving column 14 Plate 6 is fixedly connected, and the other end is slidably connected to across arc chute 4 in the first sliding groove 13 of hemisection chopping block drive gear 12.Half 12 rotation process of chopping block drive gear is cut, hemisection driving column 14 can be driven by the first sliding groove 13 along the arc chute 4 on knife rest 1 It is mobile, so as to which hemisection chopping block 6 be driven to rotate, and coordinate with hemisection cutter 5 and complete hemisection operation.

Wherein, damping gear part includes the second hemisection helical gear 9, damping spring 10 and third hemisection helical gear 11, and the second half It cuts helical gear 9 to be rotatably connected on knife rest 1 and engage with the first hemisection helical gear 8, the second hemisection helical gear 9 and third half Helical gear 11 is cut to be coaxially disposed, between connected by damping spring 10.It is smaller by Helical gear Transmission noise, it is oblique in the second hemisection Setting damping spring 10, can reduce the impact force in 6 motion process of hemisection chopping block between gear 9 and third hemisection helical gear 11, Knife rest 1 is avoided to be deformed because the impact force between hemisection chopping block 6 and hemisection cutter 5 is excessive.Reducing gear train include three according to The gear set of secondary drive connection and individual half gear cutting machine, each gear set include a gear wheel and a pinion gear, Gear wheel and pinion gear are coaxially connected, and gear wheel is engaged with upper level gear, and pinion gear is engaged with next stage gear, so as to fulfill Reduce the purpose of rotating speed.The purpose of hemisection transfer gear train is to be driven and adjusts the rotating speed of hemisection chopping block 6, is not limited only to above-mentioned Structure, can the rotating speed according to needed for the rotating speed of hemisection motor 29 and hemisection chopping block 6 specifically adjust.

Hemisection chopping block 6 in the present embodiment includes L-shaped chopping block ontology, and an outer side edges of L-type chopping block ontology are equipped with by rolling over The chopping block portion that side is formed, L-shaped chopping block ontology are hinged on by hemisection rivet 7 on knife rest 1 close to the one end in chopping block portion, hemisection transmission Column 14 is arranged on the other end of L-shaped chopping block ontology, and the media port 2 in this implementation is sector, and chopping block portion is inserted into fan-shaped media port Interior, 6 rotation process chopping block portion of hemisection chopping block can rotate in fan-shaped media port.Another outer side edges of L-type chopping block ontology are equipped with The chopping block floor formed by flanging by setting chopping block floor that can enhance the structural strength of the hemisection chopping block 6, avoids the hemisection Chopping block 6 deforms under the action of impact force.

In addition, the hemisection mechanism further includes antisticking device 15, antisticking device 15 is arranged on knife rest 1 close to hemisection cutter 5 Position, for preventing such as label with sticking print media adhesion hemisection cutter 5.The antisticking device 15 includes anti-sticking Device body 16 and several resilient strips 17 in comb teeth shape arrangement, antisticking device ontology 16 are positioned close to 5 knife spine of hemisection cutter Position, 17 one end of resilient strip is fixedly connected with antisticking device ontology 16, and the other end is located at close to 5 blade of hemisection cutter and phase Half-and-half earnestly 5 blade of knife closer to the position of hemisection chopping block 6.6 rotation process of hemisection chopping block touches print media first, so After can touch resilient strip 17, elastic deformation, and then 6 meeting of hemisection chopping block can occur under the action of hemisection chopping block 6 for resilient strip 17 It touches hemisection cutter 5 and completes hemisection operation, hemisection chopping block 6 can rotate round about later, and printing can be situated between by resilient strip 17 The blade of matter from hemisection cutter 5 flicks, so as to avoid print media adhesion hemisection cutter 5.

Turn damage hemisection cutter 5 for hemisection chopping block 6 is avoided to cross, which further includes what is be electrically connected with hemisection motor 29 Hemisection photoelectric sensor 18, hemisection photoelectric sensor 18 are used to identifying the rotation angle of hemisection chopping block drive gear 12, and according to The rotation angle control hemisection motor 29 of hemisection chopping block drive gear 12.It is set on hemisection chopping block drive gear 12 in the present embodiment Occlusion part is equipped with, when hemisection chopping block drive gear 12 rotates to extreme angles, occlusion part can shelter from hemisection photoelectric sensor 18 Light path, rotated round about so as to trigger photoelectric sensor control hemisection motor 29.

Coordinate shown in Fig. 6, Quan Qie mechanisms include quiet scissors 19, dynamic scissors 21, cut transfer gear train entirely and cut motor 23 entirely. Quiet scissors 19 is also disposed at 1 top of knife rest and 2 corresponding position of media port in the present embodiment, but far from half on knife rest 1 The side of knife 5 earnestly.Quiet scissors 19 is fixedly connected on by partition board 20 on knife rest 1, moves scissors 21 with quiet scissors 19 by cutting entirely Rivet 22 is hinged.Full motor 23 of cutting cuts transfer gear train drive connection with complete, cuts transfer gear train entirely and is driven with dynamic scissors 21 Connection, cutting motor 23 entirely can be rotated, and complete to cut entirely with the cooperation of quiet scissors 19 by cutting the dynamic scissors 21 of transfer gear train driving entirely Operation.

Full helical gear, the second full gear cutting machine, the full gear cutting machine of third, the are cut specifically, cutting transfer gear train entirely and including first Four full gear cutting machines, the 5th full gear cutting machine and full clipping knife drive gear 25, cutting motor 23 and first entirely, cutting helical gear passes through snail entirely Bar 24 is sequentially connected, and the second full gear cutting machine and the first full helical gear of cutting are coaxially disposed, the second full gear cutting machine and the full gear cutting machine of third Engagement connection, the 4th full gear cutting machine and the 5th full gear cutting machine coaxial arrangement, the full gear cutting machine of third engage company with the 4th full gear cutting machine It connects, the 5th full gear cutting machine engages connection with full clipping knife drive gear 25.The end face of full clipping knife drive gear 25 is equipped with complete Cut driving column 26, second sliding slot 27 be equipped with far from the position for cutting rivet 22 entirely on dynamic scissors 21, cut full one end of driving column 26 with Full clipping knife drive gear 25 is fixedly connected, and the other end is slidably connected in the second sliding slot 27 on dynamic scissors 21.Full clipping knife Drive gear 25 rotates under the driving for cutting motor 23 entirely, so as to by second sliding slot 27 and entirely cut 26 mating band of driving column Dynamic scissors 21 rotates, and dynamic scissors 21 is completed to cut operation entirely with the cooperation of quiet scissors 19.Full transfer gear train purpose is cut to be to be driven With the rotating speed of the dynamic scissors 21 of adjustment, above structure is not limited only to, it can be according to the rotating speed needed for the rotating speed of motor and dynamic scissors 21 Adjustment.

In addition, Quan Qie mechanisms further include with cut that motor 23 is electrically connected entirely it is complete cut photoelectric sensor 28, cut photoelectric sensing entirely Device 28 is used to identify the rotation angle of full clipping knife drive gear 25, and according to the rotation angle control of full clipping knife drive gear 25 System cuts motor 23 entirely, and dynamic scissors 21 is avoided to cross transduction and causes device damage.

The utility model additionally provides a kind of printer, including such as above-mentioned cutter device.

The cutter device of the utility model and its printer is applied, hemisection cutter is set as fixed, and will half It cuts chopping block and is set as rotatable, turning to hemisection cutter by hemisection chopping block completes hemisection operation, and no matter whether hemisection chopping block occurs It swings, the cutting line of print media will not all occur crooked, and the straightness of print media cutting line is higher, and cutting effect is preferable.

The above descriptions are merely preferred embodiments of the present invention, and not the utility model is made in any form Limitation, those skilled in the art make a little simple modification, equivalent variations or modification using the technology contents of the disclosure above, It falls within the protection scope of the present utility model.

Claims (10)

1. a kind of cutter device, Quan Qie mechanisms and hemisection mechanism including knife rest and on the knife rest, which is characterized in that The hemisection mechanism includes hemisection cutter, hemisection chopping block, hemisection motor and hemisection transfer gear train, and the hemisection cutter, which is fixed, to be connected Be connected on the knife rest, the hemisection chopping block be hinged on the knife rest with the corresponding position of hemisection cutter, described half Motor to be cut to be sequentially connected with the hemisection transfer gear train, the hemisection transfer gear train is sequentially connected with the hemisection chopping block, The hemisection motor is used to the hemisection chopping block be driven to rotate by the hemisection transfer gear train.

2. cutter device according to claim 1, which is characterized in that it is oblique that the hemisection transfer gear train includes the first hemisection Gear, damping gear part, reducing gear train and hemisection chopping block drive gear, the first hemisection helical gear are fixedly connected on described On the output shaft of hemisection motor, the first hemisection helical gear, damping gear part, reducing gear train and hemisection chopping block drive gear It is rotatably connected on the knife rest and engagement connection successively, the hemisection chopping block drive gear is passed with the hemisection chopping block Dynamic connection.

3. cutter device according to claim 2, which is characterized in that the hemisection transfer gear train and the hemisection chopping block Be separately positioned on the opposite sides of the knife rest, the hemisection chopping block drive gear is equipped with the first sliding groove, on the knife rest with The corresponding position of the first sliding groove is provided through the arc chute of the knife rest, far from hinge position on the hemisection chopping block The one end put is provided with hemisection driving column, and one end of the hemisection driving column is fixedly connected with the hemisection chopping block, and the other end is worn The arc chute is crossed to be slidably connected in the first sliding groove of the hemisection chopping block drive gear.

4. cutter device according to claim 2, which is characterized in that the damping gear part includes the second hemisection helical teeth Wheel, damping spring and third hemisection helical gear, the second hemisection helical gear be rotatably connected on the knife rest and with it is described First hemisection helical gear engages, and the second hemisection helical gear and third hemisection helical gear are coaxially disposed and pass through resistance between it Buddhist nun's spring connects.

5. according to claim 1-4 any one of them cutter devices, which is characterized in that the hemisection mechanism further includes anti-sticking dress It puts, the antisticking device is used to prevent with hemisection cutter described in sticking print media adhesion.

6. cutter device according to claim 5, which is characterized in that if the antisticking device include antisticking device ontology and The dry resilient strip in comb teeth shape arrangement, the antisticking device ontology are set close to the knife spine of the hemisection cutter, the resilient strip One end be fixedly connected with the antisticking device ontology, the other end be located at close to the hemisection cutter blade and relative to institute State position of the blade closer to the hemisection chopping block of hemisection cutter.

7. cutter device according to claim 6, which is characterized in that the knife rest is plate knife rest, is set on the knife rest It is equipped with knife rest floor.

8. according to claim 1-4 any one of them cutter devices, which is characterized in that the Quan Qie mechanisms include quiet scissors, Dynamic scissors cuts transfer gear train and cuts motor entirely entirely, and the quiet scissors is fixedly connected on the knife rest, the dynamic scissors and institute Quiet scissors is stated to be hinged, it is described it is complete cut motor with it is described it is complete cut transfer gear train drive connection, it is described it is complete cut transfer gear train with The dynamic scissors is sequentially connected, and the full motor of cutting is used to the quiet scissors be driven to rotate by the full transfer gear train of cutting.

9. cutter device according to claim 8, which is characterized in that the hemisection chopping block is hinged on the knife by rivet On frame, the dynamic scissors is hinged by rivet and the quiet scissors.

10. a kind of printer, which is characterized in that including such as claim 1-9 any one of them cutter device.