CN205097722U - Cut paper mechanism and use printer of this cut paper mechanism - Google Patents

Abstract

The utility model discloses a cut paper mechanism and use printer of this cut paper mechanism, wherein, cut paper mechanism is including the relative quiet sword that sets up and move the sword subassembly, moves the sword subassembly including moving sword, box to and drive assembly, moving sword movable mounting outside the box, drive assembly installs in the box, sets up the lead -over groove on the box, and drive assembly passes the lead -over groove and moves the sword and is connected, moves the sword along being close to the direction removal of perhaps keeping away from quiet sword with the drive. The utility model discloses a sword movable mounting will move in cut paper mechanism outside the box, need not set up the opening that supplies to move the sword business turn over on the box, consequently, avoided the wastepaper of cut paper in -process production, the cut paper trouble that the inside of the foreign matter getting into the such as dust in the air causes, consequently, the utility model provides a cut paper mechanism good reliability.

Description

A kind of paper cutting mechanism and use the printer of this paper cutting mechanism

Technical field

The utility model relates to a kind of paper cutting mechanism, and uses the printing mechanism of this paper cutting mechanism.

Background technology

Printer in supermarket, lottery ticket, the field such as food and drink application more and more extensive, in order to increase work efficiency, some printer is also provided with can the paper cutting mechanism of automatic paper-cutting.As shown in Figure 1, printer comprises the printing mechanism 1 ' and paper cutting mechanism 2 ' that set gradually along printing paper throughput direction, and driving mechanism (not shown).Printing mechanism 1 ' comprises and lays respectively at transfer passage both sides and the printhead 11 ' be oppositely arranged and rubber roll 12 ', printing paper passes by between printhead 11 ' and rubber roll 12 ', rubber roll 12 ' and driving mechanism are in transmission connection, around own axis under the driving of driving mechanism, driving printing paper moves, and printhead 11 ' prints on printing paper surface simultaneously, paper cutting mechanism 2 ' comprises and lays respectively at transfer passage both sides and the quiet sword 21 ' be oppositely arranged and dynamic edge assembly, wherein, quiet sword 21 ' is positioned at the top of transfer passage, dynamic edge assembly is positioned at the below of transfer passage, dynamic edge assembly comprises dynamic sword 22 ', casing 23 ', driven unit (not shown), wherein, it is inner that dynamic sword 22 ' and driven unit are all positioned at casing 23 ', casing 23 ' is fixedly mounted in the frame of printer, position relative with quiet sword 21 ' above casing 23 ' is provided with opening (not indicating in figure), driven unit drives dynamic sword 22 ' to be stretched out or retraction casing 23 ' by this opening, when printing paper is from when passing through between quiet sword 21 ' and dynamic sword 22 ', driven unit drives dynamic sword 22 ' to move relative to quiet sword 21 ', when dynamic sword 22 ' to quiet sword 21 ' near and overlapping gradually with quiet sword 21 ' time, printing paper is cut off.

The problem of the paper cutting mechanism of the printer of this class formation is, the position relative with quiet sword 21 ' due to casing 23 ' is provided with opening, the foreign matters such as the dust in the paper scrap that cut paper produces, air can be entered into the inside of casing 23 ' by the opening on casing 23 ', be deposited on driven unit, cause driven unit to break down, cause paper cutting mechanism cisco unity malfunction.

Utility model content

The purpose of this utility model is to provide a kind of paper cutting mechanism that effectively can prevent foreign matter, and the purpose of this utility model is also to provide a kind of printer using this paper cutting mechanism.

For reaching above-mentioned purpose, the utility model by the following technical solutions:

On the one hand, a kind of paper cutting mechanism is provided, comprise the quiet sword and dynamic edge assembly that are oppositely arranged, described dynamic edge assembly comprises dynamic sword, casing, and driven unit, and described dynamic sword is movably arranged on outside described casing, described driven unit is arranged in described casing, lead-over groove offered by described casing, and described driven unit is connected with described dynamic sword through described lead-over groove, moves along close or away from described quiet sword direction to drive described dynamic sword.

As a kind of preferred version of paper cutting mechanism, described casing comprises holder and be located on described holder for described driven unit being enclosed in the buckle closure of the side of described holder.

As a kind of preferred version of paper cutting mechanism, described holder comprises substrate, and described dynamic sword and described driven unit are separately positioned on the both sides of described substrate.

As a kind of preferred version of paper cutting mechanism, described buckle closure comprises panel and is arranged on described panel periphery and the bending edges extended towards described holder, and when described buckle closure be located on described holder, described bending edges abuts with described substrate.

As a kind of preferred version of paper cutting mechanism, described holder also comprises base plate, and described base plate and described bending edges removably connect.

As a kind of preferred version of paper cutting mechanism, described lead-over groove is arranged on the substrate, the length of described lead-over groove extends along the direction of motion of described dynamic sword, described dynamic sword arranges dynamic sword drive pin, described dynamic sword drive pin is in transmission connection with described driven unit in described casing through after described lead-over groove, moves along the length direction of described lead-over groove to drive described dynamic sword.

As a kind of preferred version of paper cutting mechanism, also comprising at least one for moving the flexible member of sword described in bias voltage, remaining and the trend that described casing fits tightly to make described dynamic sword.

On the other hand, also provide a kind of printer, comprise printing mechanism and described paper cutting mechanism, wherein, along the throughput direction of printing paper, described paper cutting mechanism is positioned at the downstream of described printing mechanism.

As a kind of preferred version of printer, also comprising frame, the casing of described paper cutting mechanism being provided with the fixed part for being fixed on by described casing in described frame.

As a kind of preferred version of printer, the quiet sword of described paper cutting mechanism is fixedly mounted on the top of the transfer passage of described printing paper, and the dynamic edge assembly of described paper cutting mechanism is fixedly mounted on the below of described transfer passage.

The beneficial effects of the utility model: dynamic sword is movably arranged on outside casing and moves relative to quiet sword by paper cutting mechanism of the present utility model, do not need on casing, arrange the opening for dynamic sword turnover, therefore, avoid the foreign matter such as paper scrap, dust in air produced in cut paper process and enter the cut paper fault that box house causes, therefore, the paper cutting mechanism good reliability that provides of the utility model.

Accompanying drawing explanation

Fig. 1 is the section of structure of printer of the prior art.

Fig. 2 is the section of structure of the printer according to the utility model one embodiment.

Fig. 3 is the structural representation of the dynamic edge assembly of paper cutting mechanism according to the utility model one embodiment.

Fig. 4 is STRUCTURE DECOMPOSITION first schematic diagram of the dynamic edge assembly of paper cutting mechanism according to the utility model one embodiment.

Fig. 5 is STRUCTURE DECOMPOSITION second schematic diagram of the dynamic edge assembly of paper cutting mechanism according to the utility model one embodiment.

In Fig. 1:

1 ', printing mechanism; 11 ', printhead; 12 ', rubber roll; 2 ', paper cutting mechanism; 21 ', quiet sword; 22 ', dynamic sword; 23 ', casing.

In Fig. 2 to 5:

100, printing mechanism; 110, printhead; 120, rubber roll;

200, paper cutting mechanism; 1, quiet sword; 2, dynamic sword; 21, dynamic sword drive pin; 3, casing; 31, holder; 311, lead-over groove; 312, substrate; 313, the first side plate; 314, the second side plate; 315, the first fixed part; 316, base plate; 317, the second fixed part; 32, buckle closure; 321, panel; 322, the first side wall; 323, the second sidewall; 324, the 3rd sidewall; 325, the 4th sidewall; 4, driven unit; 41, motor; 5, transmission component; 51, worm screw; 52, worm gear; 53, fork drive pin; 54, rotating shaft; 55, fork; 551, the first elongated slot; 552, the second elongated slot; 6, detection components; 61, sensor; 7, flexible member;

300, transfer passage.

Detailed description of the invention

The technical solution of the utility model is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.

In this application, unless limited otherwise, term " left and right directions " refers to the left and right directions of AB arrow indication in Fig. 3, and " above-below direction " refers to the above-below direction of CD arrow indication in Fig. 3; " fore-and-aft direction " refers to the fore-and-aft direction of EF arrow indication in Fig. 3, all the other directions, all using above-mentioned direction as reference benchmark.

As shown in Figures 2 and 3, paper cutting mechanism 200 of the present utility model comprises the quiet sword 1 and dynamic edge assembly that are oppositely arranged, dynamic edge assembly comprises dynamic sword 2, casing 3, and driven unit 4, dynamic sword 2 is movably arranged on outside casing 3, and driven unit 4 is arranged in casing 3, casing 3 is offered lead-over groove 311, driven unit 4 is connected with dynamic sword 2 through lead-over groove 311, moves along close or away from quiet sword 1 direction to drive dynamic sword 2.

As shown in Fig. 3 to 5, casing 3 is in rectangular shape, and the length of casing 3 extends in left-right direction, and the width of casing 3 extends along front and back, and the height of casing 3 extends along the vertical direction.

Wherein, casing 3 comprises holder 31 and be located on holder 31 for driven unit 4 being enclosed in the buckle closure 32 of the side of holder 31, holder 31 comprises substrate 312, first side plate 313 and the second side plate 314, dynamic sword 2 and driven unit 4 are separately positioned on the both sides of substrate 312, first side plate 313 and the second side plate 314 opposing parallel and to be disposed on substrate 312 and to be positioned at homonymy with dynamic sword 2, the length of the first side plate 313 and the second side plate 314 extends along the direction of motion moving sword 2, distance between first side plate 311 and the second side plate 312 and the length of dynamic sword 2 suitable.It can be the structure such as hole, axle that first side plate 313 and the second side plate 314 are provided with for the first fixed part 315, first fixed part 315 be fixed on by casing 3 in the frame of printer, and in the present embodiment, the first fixed part 315 is hole.

Lead-over groove 311 is arranged on substrate 312, and the length of lead-over groove 311 is along the direction of motion extension of dynamic sword 2, and move sword 2 and arrange dynamic sword drive pin 21 near the side of substrate 312, dynamic sword drive pin 21 is in transmission connection with driven unit 4 in casing 3 through after lead-over groove 311.Preferably, dynamic sword drive pin 21 is positioned on the lengthwise centers line of dynamic sword 2, and when driven unit 4 drives dynamic sword drive pin 21 to move, dynamic sword drive pin 21 can drive dynamic sword 2 to move relative to quiet sword 1 reposefully.Preferably, the width of lead-over groove 311 and the external diameter of dynamic sword drive pin 21 suitable, dynamic sword drive pin 21 coordinates with lead-over groove 311 grafting, and when driven unit 4 drives dynamic sword 2 to move, dynamic sword 2 can only move along the length direction of lead-over groove 311 under the restriction of lead-over groove 311.

Buckle closure 32 be located on holder 31 for driven unit 4 being enclosed in the side of holder 31, buckle closure 32 comprises panel 321 and is arranged on panel 321 periphery and the bending edges extended towards holder 31, when buckle closure 32 be located on holder 31, bending edges abuts with substrate 312.Concrete, bending edges comprises the first side wall 322, second sidewall 323, the 3rd sidewall 324 and the 4th sidewall 325, and wherein the first side wall 322 and the second sidewall 323 are positioned at the length two ends of panel 321, and both are arranged perpendicular to panel 321 relative spacing; 3rd sidewall 324 is also perpendicular to panel 321, and the 4th sidewall 325 is relative with the 3rd sidewall 324.

Holder 31 also comprises the base plate 316 being fixedly installed on substrate 312 and deviating from the side of dynamic sword 2, and base plate 316 and bending edges removably connect.Concrete, base plate 316 is perpendicular to substrate 312, and base plate 316 matches with the 3rd sidewall 324 of buckle closure 32, base plate 316 arranges multiple second fixed part 317, for being fixedly connected with the 3rd sidewall 324 of buckle closure 32, second fixed part 317 can be the structure such as hole, axle, and in the present embodiment, the second fixed part 317 is hole.

The base plate 316 of holder 31 fits with the 3rd sidewall 324 of buckle closure 32, is fixedly connected with by securing member.After holder 31 is fixedly connected with buckle closure 32,4th sidewall 325 of buckle closure 32 abuts with the substrate 312 of holder 31, the top of casing 3 is closed, the first side wall 322 of buckle closure 32 and the second sidewall 323 all abut with the substrate 312 of holder 31, the left and right sides of casing 3 is closed, 3rd sidewall 324 of buckle closure 32 is fitted with the base plate 316 of holder 31, and now, casing 3 up and down face is all closed.

In the present embodiment, dynamic sword 2 is rectangle laminated structure, its length and the distance between the first side plate 313 of holder 31 and the inner surface both the second side plate 314 suitable, dynamic sword 2 is fitted with the substrate 312 of holder 31, limit by the first side plate 313 of holder 31 and the second side plate 314, dynamic sword 2 can only along near or direction away from quiet sword 1 move.

Further, paper cutting mechanism 200 also comprises at least one flexible member 7, moves sword 2 for bias voltage, and flexible member 7 can be the versions such as stage clip, torsion spring, leaf spring, remains to fit tightly with the substrate 312 of holder 31 to make sword 2.In the present embodiment, paper cutting mechanism 200 comprises a flexible member 7, and flexible member 7 is leaf spring, one end of flexible member 7 is connected with the substrate 312 of holder 31, the other end abuts with dynamic sword 2, under the effect of the elastic force of flexible member 7, dynamic sword 2 has the movement tendency with substrate 312 close contact all the time.

Driven unit 4 is arranged in casing 3, and driven unit 4 is connected with dynamic sword 2 through the lead-over groove 311 on the sidewall of casing 3, and dynamic sword 2 can be driven to move along lead-over groove 311, close or away from quiet sword 1.Driven unit 4 comprises motor 41 and transmission component 5, and wherein, motor 41 is fixed on panel 321.

Transmission component 5 is positioned at casing 3, gives dynamic sword 2 for the transmission of torque that exported by motor 41, thus drives dynamic sword 2 to move relative to quiet sword 1.Transmission component 5 comprises worm screw 51, worm gear 52, fork drive pin 53, rotating shaft 54 and fork 55.Wherein, worm screw 51 is fixedly connected with the output shaft of motor 41, worm gear 52 is socketed on back shaft 521, freely can rotate around back shaft 521, and back shaft 521 is vertically arranged on panel 321, worm gear 52 and worm screw 51 are connected with a joggle, and when the output shaft rotation of motor 41, worm screw 51 is rotated thereupon, and drives worm gear 52 to rotate.Fork drive pin 53 is vertically arranged on the end face of worm gear 52, is positioned at the one side of the away from deck 321 of worm gear 52, and and the center of rotation interval of worm gear 52 arrange, when worm gear 52 rotates, fork drive pin 53 rotates around the center of rotation of worm gear 52 thereupon.Rotating shaft 54 is vertically arranged on substrate 312, and the lengthwise centers line interval of substrate 312 is arranged; The first end of fork 55 is socketed with rotating shaft 54 and coordinates, make fork 55 the second end can around the shaft 54 axis oscillating.Fork 55 is provided with the first elongated slot 551 and the second elongated slot 552.Wherein, the width of the first elongated slot 551 and the external diameter of dynamic sword drive pin 21 suitable, the length of the first elongated slot 551 is greater than the external diameter of dynamic sword drive pin 21, first elongated slot 551 is socketed with dynamic sword drive pin 21 and coordinates, when fork 55 54 rotation around the shaft, first elongated slot 551 drives dynamic sword drive pin 21 to move along the length direction of the first elongated slot 551, and dynamic sword 2 is subject to the restriction of the first side plate 313 of holder 31 and the inner surface both the second side plate 314, can only move along close or away from quiet sword 1 direction; The width of the second elongated slot 552 and the external diameter of fork drive pin 53 suitable, its length is greater than the external diameter of fork drive pin 53, second elongated slot 552 is socketed with fork drive pin 53 and coordinates, when motor 41 drives worm gear 52 to rotate, fork drive pin 53 drives fork 55 54 to swing around the shaft by the second elongated slot 552, and the first elongated slot 551 on fork 55 will drive dynamic sword 2 to move relative to quiet sword 1 by dynamic sword drive pin 21.

Further, as shown in Figure 4, paper cutting mechanism 200 also comprises detection components 6, whether completes a cut paper action for detecting dynamic sword 2.Detection components 6 comprises sensor 61 and test section (not shown), and wherein, sensor 61 can be microswitch, mechanical sensor or electro-optical pickoff, is fixedly connected with casing; Test section is fixedly connected with worm gear 52, is synchronized with the movement with worm gear 52, and worm gear 52 often rotates one week (namely 360 degree), and sensor 61 can coordinate twice with test section.In the present embodiment, sensor 61 is microswitch, is fixedly connected with buckle closure 32, when buckle closure 32 is fixedly connected with holder 31, the test side of sensor 61 can with detecting portion from or contact, send corresponding detection signal.When original state, the test side of sensor 61 contacts with test section, sensor 61 sends the first detection signal, as high level, when motor 41 drives worm gear 52 to rotate, test section is separated with the test side of sensor 61, sensor 61 sends the second detection signal, as low level, along with motor 41 drives worm gear 52 to be rotated further, after worm gear 52 rotates one week, test section contacts with the test side of sensor 61 again, sensor 61 sends the first detection signal again, and controller judges that paper cutting mechanism 200 completes a cut paper process accordingly.

When paper cutting mechanism 200 starts cut paper, motor 41 drives worm gear 52 to rotate by worm screw 51, fork drive pin 53 rotates with worm gear 52, fork drive pin 53 drives fork 55 54 to swing near the direction of quiet sword 1 around the shaft, and fork 55 is driving dynamic sword drive pin 21 to drive dynamic sword 2 to move to the direction near quiet sword 1 by the first elongated slot 551 in the process swung near the direction of quiet sword 1.Along with worm gear 52 is rotated further, dynamic sword 2 constantly contacts movement with quiet sword 1, and when worm gear 52 rotates 180 degree, the complete printing paper that overlaps with quiet sword 1 of dynamic sword 2 is completely severed.

After the rotational angle of worm gear 52 is greater than 180 degree, along with worm gear 52 is rotated further, fork drive pin 53 rotates with worm gear 52, fork drive pin 53 drives fork 55 54 to swing to the direction away from quiet sword 1 around the shaft, fork 55 drives dynamic sword drive pin 21 to drive dynamic sword 2 to move to the direction away from quiet sword 1 by the first elongated slot 551 in the process swung to the direction away from quiet sword 1, after worm gear 52 rotates a circle (namely 360 degree) from initial position, dynamic sword 2 is reset to initial position, the test side of sensor 61 contacts with test section, when sensor 61 sends the first detection signal again, motor 41 stops driving worm screw 51 to rotate, paper cutting mechanism 200 completes a cut paper action.

The utility model also provides a kind of printer, as shown in Figure 2, this printer comprises printing mechanism 100 and paper cutting mechanism 200, and driving mechanism (not shown), wherein, printing mechanism 1 comprise transfer passage 300 both sides that lay respectively at printing paper and in transfer passage 300 printhead 110 of relative engagement and rubber roll 120.Rubber roll 120 and the driving mechanism of printing mechanism 100 are in transmission connection, under the driving of driving mechanism, rubber roll 120 can around own axis, printing paper is from when passing between printhead 110 and rubber roll 120, rubber roll 120 rotates to its downstream fed printing sheet under the driving of driving mechanism, meanwhile, printhead 110 prints the image or word that preset on printing paper.

Along printing paper throughput direction, paper cutting mechanism 200 is arranged on the downstream of printing mechanism 100, wherein the quiet sword 1 of paper cutting mechanism 200 is fixedly mounted on the top of transfer passage 300, dynamic edge assembly is fixedly mounted on the below of transfer passage 300, quiet sword 1 is relative with the dynamic sword 2 in dynamic edge assembly, and the printing paper exported by printing mechanism 100 is from passing through between the two.When printing paper by between the printhead 110 of printing mechanism 100 and rubber roll 120 through time, printhead 110 is at printing paper printout surface image or word, rubber roll 120 drives printing paper to move to paper cutting mechanism 200 place, the dynamic sword 2 of dynamic edge assembly moves to quiet sword 1, when dynamic sword 2 overlaps with quiet sword 1, printing paper is cut off, and the printing paper after cut-out is sent to printer outside.

It is to be appreciated that term " first ", " second ", " the 3rd ", " the 4th " only for describing object, and can not be interpreted as instruction or hint relative importance or the implicit quantity indicating indicated technical characteristic.Thus, be limited with " first ", " second ", " the 3rd ", " the 4th " feature can express or impliedly comprise one or more these features.

Claims (10)

1. a paper cutting mechanism, comprise the quiet sword and dynamic edge assembly that are oppositely arranged, described dynamic edge assembly comprises dynamic sword, casing, and driven unit, it is characterized in that, described dynamic sword is movably arranged on outside described casing, described driven unit is arranged in described casing, lead-over groove offered by described casing, and described driven unit is connected with described dynamic sword through described lead-over groove, moves along close or away from described quiet sword direction to drive described dynamic sword.

2. paper cutting mechanism according to claim 1, is characterized in that, described casing comprises holder and be located on described holder for described driven unit being enclosed in the buckle closure of the side of described holder.

3. paper cutting mechanism according to claim 2, is characterized in that, described holder comprises substrate, and described dynamic sword and described driven unit are separately positioned on the both sides of described substrate.

4. paper cutting mechanism according to claim 3, it is characterized in that, described buckle closure comprises panel and is arranged on described panel periphery and the bending edges extended towards described holder, and when described buckle closure be located on described holder, described bending edges abuts with described substrate.

5. paper cutting mechanism according to claim 4, is characterized in that, described holder also comprises base plate, and described base plate and described bending edges removably connect.

6. paper cutting mechanism according to claim 3, it is characterized in that, described lead-over groove is arranged on the substrate, the length of described lead-over groove extends along the direction of motion of described dynamic sword, described dynamic sword arranges dynamic sword drive pin, described dynamic sword drive pin is in transmission connection with described driven unit in described casing through after described lead-over groove, moves along the length direction of described lead-over groove to drive described dynamic sword.

7. paper cutting mechanism according to claim 1, is characterized in that, also comprising at least one for moving the flexible member of sword described in bias voltage, remaining and the trend that described casing fits tightly to make described dynamic sword.

8. a printer, comprises printing mechanism, it is characterized in that, also comprises the paper cutting mechanism as described in any one of claim 1 to 7, and wherein, along the throughput direction of printing paper, described paper cutting mechanism is positioned at the downstream of described printing mechanism.

9. printer according to claim 8, is characterized in that, also comprises frame, the casing of described paper cutting mechanism is provided with the fixed part for being fixed on by described casing in described frame.

10. printer according to claim 8, is characterized in that, the quiet sword of described paper cutting mechanism is fixedly mounted on the top of the transfer passage of described printing paper, and the dynamic edge assembly of described paper cutting mechanism is fixedly mounted on the below of described transfer passage.