CN109484037B - Ribbon banner printer and control system thereof - Google Patents

Abstract

The invention provides a ribbon banner printer which comprises a frame, a left machine box, a right machine box, a printing shaft, a printing head, a ribbon supply shaft for winding and supplying ribbon, a cloth releasing shaft for winding and supplying banner cloth, a ribbon winding shaft for winding waste ribbon and a cloth winding shaft for winding finished banner cloth, wherein the printing head is arranged on the printing shaft, and an anti-wrinkling flattening shaft, a cutter shaft and a cutter piece for slitting the banner cloth are arranged between the left machine box and the right machine box. The invention also provides a control system of the ribbon banner printer, which comprises a controller and a power supply, wherein the input end of the controller is connected with a printing head state detection unit, a ribbon detection unit, a banner detection unit and a temperature detection unit; the output end of the controller is respectively connected with a press printing head motor, a color ribbon receiving motor, a cloth receiving motor, a brake motor and a temperature adjusting component. According to the invention, the control of the motor is used for cutting the banner cloth, so that the temperature of the printing head can be automatically adjusted, static electricity is effectively removed, and the working efficiency is improved.

Description

Ribbon banner printer and control system thereof

Technical Field

The invention relates to the technical field of printers, in particular to a ribbon banner printer and a control system thereof.

Background

The ribbon scroll printer is a device for rapidly manufacturing scroll by transferring a special ribbon onto scroll cloth through a thermal printing head; the existing ribbon banner printer directly sends the ribbon and the banner into the printing head after converging through a through shaft, a large amount of static electricity can be generated in the printing process, the printing effect is affected, meanwhile, the printing head and other equipment are damaged, part of the printer adopts an anti-static hairbrush to prevent the damage of static electricity to the printing head, a controller and the like, and the anti-static hairbrush has poor flexibility, can not realize automatic control due to the compactness, single placement position and other reasons, and has limited static electricity removing effect;

in order to prevent the crease of the banner cloth from being wrinkled by debugging each through shaft for multiple times during printing, the banner cloth with different quality needs to be adjusted for multiple through shafts each time, which is time-consuming and labor-consuming, and particularly, when some banner cloth with poor quality is operated, how to adjust can not be completed;

for the requirement of a specific width of banner, the requirement on the size of the banner is usually realized by adopting a cutting mode after printing, so that the method is time-consuming and labor-consuming, and the working efficiency is reduced; and no dust removing structure is arranged on the existing banner printer, after the banner cloth is adhered with dirt and sent into the printing head, the printing head is damaged, and when serious, the shutdown phenomenon is caused, so that the maintenance cost is increased.

The Chinese patent with publication number CN201559363 discloses a single motor driving device of a scroll printer, a synchronous motor is arranged on a wallboard, the output end of the synchronous motor is transmitted to the end of a printing rubber roller through a synchronous wheel and a synchronous belt thereof, the printing rubber roller drives a cloth collecting roller and a color collecting belt roller through the synchronous wheel and the synchronous belt, and a damping force is generated by a cloth feeding roller and the color collecting belt roller through a friction disc and the friction belt, so that the control and the structure of the multi-motor driving device are complex; the device drives the roll shaft through the same motor, and then enables the printer to start through transmission, and the driving mode simplifies the structure, but the transmission has small delay and can have influence on printing synchronization.

Disclosure of Invention

Aiming at the defects and drawbacks existing in the prior art, the invention provides the ribbon banner printer and the control system thereof, which can avoid the banner cloth from wrinkling during printing, realize the cutting of the banner cloth by controlling the motor in the operation process, automatically adjust the temperature of the printing head, effectively remove static electricity and improve the working efficiency.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the ribbon banner printer comprises a frame, a left machine case, a right machine case, a printing shaft, a printing head, a ribbon supply shaft for winding and supplying ribbon, a cloth release shaft for winding and supplying banner cloth, a ribbon take-up shaft for winding waste ribbon and a cloth take-up shaft for winding finished banner cloth, wherein the left machine case and the right machine case are respectively and fixedly arranged on two sides of the top of the frame, the printing shaft, the ribbon supply shaft, the cloth release shaft, the ribbon take-up shaft and the cloth take-up shaft are arranged between the left machine case and the right machine case, the printing head is arranged on the printing shaft, a crease-resistant flattening shaft, a cutter shaft and a cutter piece for slitting the banner cloth are further arranged between the left machine case and the right machine case, the crease-resistant flattening shaft is in an arc shape, the crease-resistant shaft is positioned in front of the cloth release shaft, the cutter shaft is positioned at the lower front of the printing shaft, the cutter piece is positioned in front of the cutter shaft, and the cutter piece is in contact with the banner cloth. The printing shaft is provided with a printing head pressing motor, the ribbon supply shaft is connected with a brake motor through a coupler, the ribbon take-up shaft is connected with a ribbon take-up motor through a coupler, and the cloth take-up shaft is connected with a cloth receiving motor through a coupler; the bottom of the frame is provided with universal wheels.

Further, a dust removing shaft is arranged between the left case and the right case, the dust removing shaft is positioned between the crease-resistant flattening shaft and the cloth releasing shaft, and the dust removing shaft is a rubber roll shaft.

Further, a supporting shaft, a banner cloth separating shaft and an ink ribbon separating shaft are arranged between the left case and the right case, the supporting shaft is positioned below the printing shaft and tangent to the printing shaft, the banner cloth separating shaft is positioned in front of the ink ribbon separating shaft and has a height difference between the ribbon separating shaft and the ink ribbon separating shaft, and the ink ribbon separating shaft is positioned in front of the crease-resistant flattening shaft.

Further, at least one electrostatic fan is arranged on the left chassis, and the electrostatic fans are connected in parallel; the electrostatic fan is located above the cutter shaft and in front of the printing shaft.

Further, the cutter comprises cutter roller and two or more blade components, and the interval has been reserved between two adjacent blade components, and the blade component includes adjusting sleeve, blade holder, blade and jackscrew, the blade holder sets up on the outer wall of adjusting sleeve, is provided with the recess on the blade holder, and the front end bolted connection blade of recess supplies the blade to overturn the back and places, and the cutting edge of blade faces the cutter axle, and the adjusting sleeve wears to the outer wall of cutter roller on, and adjusting sleeve and cutter roller pass through jackscrew locking.

The control system of the ribbon banner printer is arranged in a right chassis, the control system comprises a controller and a power supply, the input end of the controller is connected with a plurality of detection units, and the detection units comprise a printing head state detection unit, a ribbon detection unit, a banner detection unit and a temperature detection unit; the output end of the controller is respectively connected with a press printing head motor, a color tape collecting motor, a cloth collecting motor and a brake motor, and the controller is connected with a driving circuit with the press printing head motor, the color tape collecting motor and the cloth collecting motor; the output end of the controller is also connected with a temperature adjusting component;

the power supply comprises an AC220V power supply, the AC220V power supply is connected with a transformer and is converted into 24V voltage to be output, and the output 24V voltage is output to 5V voltage through a voltage stabilizer to supply power for the controller and the driving circuit.

Further, the print head state detection unit is used for detecting whether the state of the print head is lifting or falling; the printing head state detection unit comprises a reflective infrared photoelectric sensor which is arranged at one side of the printing shaft;

the color band detection unit is used for detecting whether color bands exist on the color band supply shaft; the color band detection unit comprises a first contrast type photoelectric sensor which is arranged at two sides of the color band supply shaft;

the banner cloth detection unit is used for detecting whether a banner cloth exists on the cloth releasing shaft; the banner cloth detection unit comprises a second comparison type photoelectric sensor, and the second comparison type photoelectric sensor is arranged on two sides of the cloth releasing shaft.

Further, the temperature detection unit includes a temperature sensor provided at one side of the print head;

the temperature adjusting component is arranged on the frame and is communicated with a circulating pipeline penetrating through the inside of the printing head; the temperature adjusting assembly is internally provided with a heating unit and a refrigerating unit, the circulating pipeline is respectively connected with the heating unit and the refrigerating unit after passing through a three-way electromagnetic valve, the heating unit comprises a heating pipe wound outside the circulating pipeline, the refrigerating unit comprises a compressor, and the circulating pipeline passing through the compressor and the circulating pipeline passing through the heating pipe are converged through a three-way valve and enter the printing head; the three-way electromagnetic valve, the heating pipe and the compressor are respectively connected with the output end of the controller.

Further, the brake motor comprises a first motor and a brake; a driving circuit is connected between the first motor and the controller, and a control circuit is connected between the brake and the controller;

the driving circuit comprises a first photoelectric coupler, and the output end of the first photoelectric coupler is connected with a triode; the triode is a bidirectional triode thyristor, the gate electrode and the first main electrode of the bidirectional triode thyristor are connected with the output end of the first photoelectric coupler, the second main electrode is connected with a printing head pressing motor, a color tape collecting motor, a cloth collecting motor or a first motor, and two ends of the printing head pressing motor, the color tape collecting motor, the cloth collecting motor and the first motor are respectively connected with a capacitor in parallel; the input end of the first photoelectric coupler is respectively connected with 5V voltage and an IO port of the singlechip; the first photoelectric coupler is a MOC3021 type photoelectric coupler;

the control circuit comprises a second photoelectric coupler and a MOSFET, wherein the input end of the second photoelectric coupler is respectively connected with 5V voltage and an IO port of the singlechip, and the output end of the second photoelectric coupler is connected with the base electrode of the MOSFET; the collector and the emitter of the MOSFET are connected with a brake; the second photocoupler comprises a light emitting diode and a phototransistor, and the MOSFET is an N-channel MOSFET.

Further, the input end of the controller is also connected with an electrostatic tester, and the output end of the controller is connected with an electrostatic fan;

the controller adopts an STC singlechip; the press printing head motor, the color ribbon collecting motor and the cloth collecting motor are torque motors.

The beneficial effects of the invention are as follows:

1. according to the ribbon banner printer, the anti-wrinkling flattening shaft is additionally arranged, so that the flattened printing of the banner cloth is realized by adjusting the anti-wrinkling flattening shaft when the banner cloth is wrinkled, and time and labor are saved; the supporting shaft carries out auxiliary support to the printing shaft, improves the stability of printing operation, and the banner cloth separating shaft and the ribbon separating shaft carry out auxiliary separation on the ribbon and the banner after operation, so that the ribbon and the banner are prevented from winding, the stability of equipment operation is improved, and the efficiency of equipment operation is ensured.

The cutter shaft and the cutter piece cooperate to meet the requirement of cutting the banner cloth in the printing process, so that trouble and labor are saved; the adjusting sleeves and the cutter roll shafts are locked through jackscrews, the distance between two adjacent adjusting sleeves on the cutter roll shafts can be adjusted according to the needs, and the blade assemblies can be added according to the needs, so that the cutting machine is suitable for different cutting demands, the practicability is good, and the working efficiency is improved; the cutter seat is provided with the groove, the groove is used for placing the cutter blade after overturning, when cutting is not needed, the cutter blade is placed in the groove, the cutter blade is protected, meanwhile, the damage of the cutter blade to operators is avoided, and the use safety is improved;

and meanwhile, the dust removing shaft is additionally arranged, the dust removing shaft is a rubber roll shaft, the rubber roll shaft removes dirt adhered on the banner cloth, the dirt is adhered to the dust removing shaft, the cloth cover neatness of the banner cloth is ensured, the printing effect cannot be influenced after the banner cloth is fed into the printing head, meanwhile, equipment such as the printing head is protected, and the phenomenon of shutdown is avoided.

2. The control system of the ribbon banner printer realizes the normal operation of the printing head, the ribbon and the banner during printing by controlling the voltages of the printing head motor, the ribbon receiving motor, the cloth receiving motor and the brake motor by the controller; and because the motors are torque motors, the torque of the motors can be adjusted by adjusting the voltage; after long-time printing, a large amount of static electricity is generated in the case, the static electricity is tested by the static electricity tester, and the influence of the static electricity on equipment is removed by controlling the automatic starting of the static electricity fan; and meanwhile, the temperature adjusting assembly is arranged to heat or cool the printing head in different seasons, so that the printing head is prevented from being affected by temperature.

Drawings

Fig. 1 is a schematic diagram of a ribbon banner printer.

Fig. 2 is a schematic front perspective view of a ribbon banner printer of the present invention.

Fig. 3 is a schematic rear perspective view of a ribbon banner printer of the present invention.

Fig. 4 is a schematic view of the structure of an anti-wrinkling and flattening shaft of the ink ribbon banner printer.

Fig. 5 is a schematic view of the dust removing shaft of a ribbon banner printer.

Fig. 6 is a schematic view of the cutter member of a ribbon banner printer.

Fig. 7 is a schematic view of the blade assembly of a ribbon banner printer in accordance with the present invention.

Fig. 8 is a schematic structural view of a control system of a ribbon banner printer of the present invention.

Fig. 9 is a schematic diagram of a driving circuit of a control system of a ribbon banner printer.

The reference numerals in the drawings are: 1 is a frame, 2 is a left chassis, 3 is a right chassis, 4 is a printing shaft, 5 is a printing head, 6 is a ribbon supply shaft, 7 is a cloth release shaft, 8 is a cloth collecting shaft, 9 is a ribbon collecting shaft, 10 is a crease-resistant flattening shaft, 1001 is a crease-resistant mandrel, 1002 is a supporting sleeve, 11 is a dust removing shaft, 1101 is a dust removing mandrel, 1102 is a rubber layer, 12 is a cutter shaft, 13 is a cutter piece, 1301 is a cutter roll shaft, 1302 is a blade assembly, 13021 is an adjusting sleeve, 13022 is a cutter seat, 13023 is a blade, 13024 is a jackscrew, 13025 is a groove, 14 is an electrostatic fan, 15 is a supporting shaft, 16 is a banner cloth separating shaft, 17 is a ribbon separating shaft, 18 is a temperature sensor, 19 is a controller, 20 is a universal wheel, 21 is a piezoelectric printing head motor, 22 is a cloth collecting motor, 23 is a first motor, 24 is a brake, 26 is a driving circuit, 27 is a control circuit, 28 is a temperature adjusting assembly, 29 is a heating tube, 30 is a compressor, 31 is a three-way type electrostatic detector, 32 is an electrostatic detector, 15 is a first electromagnetic valve, and 33 is a second electromagnetic valve, and a comparison type photoelectric detector is a second electromagnetic sensor 35.

Detailed Description

The invention is described in further detail below with reference to the attached drawings and detailed description:

example 1: as shown in fig. 1-7, the ribbon banner printer comprises a frame 1, a left case 2, a right case 3, a printing shaft 4, a printing head 5, a ribbon supply shaft 6 for winding and supplying a ribbon, a cloth discharge shaft 7 for winding and supplying a banner, a ribbon take-up shaft 9 for winding a waste ribbon and a cloth collecting shaft 8 for collecting a finished banner, wherein the left case 2 and the right case 3 are respectively fixedly arranged on two sides of the top of the frame 1, the printing shaft 4, the ribbon supply shaft 6, the cloth discharge shaft 7, the ribbon take-up shaft 9 and the cloth collecting shaft 8 are arranged between the left case 2 and the right case 3, and the printing head 5 is arranged on the printing shaft 4;

the left machine case 2 and the right machine case 3 are also provided with an anti-wrinkling flattening shaft 10, a cutter shaft 12 and a cutter piece 13 for slitting a web, the anti-wrinkling flattening shaft 10 is arc-shaped, the anti-wrinkling flattening shaft 10 is positioned in front of the cloth placing shaft 7, the cutter shaft 12 is positioned at the front lower part of the printing shaft 4, the cutter piece 13 is positioned in front of the cutter shaft 12, the cutter piece 13 consists of a cutter roll shaft 1301 and more than two cutter assemblies 1302, a space is reserved between the two adjacent cutter assemblies 1302, the cutter assemblies 1302 comprise an adjusting sleeve 13021, a cutter seat 13022, a cutter 13023 and a jackscrew 13024, the cutter seat 13022 is arranged on the outer wall of the adjusting sleeve 13021, a groove 13025 is arranged on the cutter seat 13022, the front end of the groove 13025 is connected with the cutter 13023 in a bolt manner, the groove 13025 is placed after the cutter 13023 is overturned, the edge of the cutter 13023 faces the cutter shaft 12, the adjusting sleeve 13021 penetrates to the outer wall of the cutter roll shaft 1301, the adjusting sleeve 13021 and the cutter roll shaft is contacted with the web through the jackscrew 13024;

the printing shaft 4 is provided with a printing head pressing motor 21, the ribbon supply shaft 6 is connected with a brake motor through a coupling, the ribbon take-up shaft 9 is connected with a ribbon take-up motor 22 through a coupling, and the cloth take-up shaft 8 is connected with a cloth receiving motor 23 through a coupling; at least one electrostatic fan 14 is arranged on the left chassis 2, and the electrostatic fans 14 are connected in parallel; the electrostatic fan 14 is located above the cutter shaft 12 and in front of the printing shaft 4.

As an implementation manner, in this embodiment, the anti-wrinkling flattening shaft 10 is composed of an anti-wrinkling mandrel 1001 and a plurality of supporting sleeves 1002, the supporting sleeves 1002 are rotationally connected with the anti-wrinkling mandrel 1001 through bearings, the outer surfaces of the supporting sleeves 1002 are frosted surfaces, two ends of the anti-wrinkling mandrel 1001 are respectively in interference connection with the left case 2 and the right case 3, the anti-wrinkling mandrel 1001 is rotated through a wrench, the anti-wrinkling mandrel 1001 is rotated, the supporting sleeves 1002 rotate relative to the anti-wrinkling mandrel 1001 to convey and flatten the banner cloth, and friction force between the supporting sleeves 1002 and the banner cloth is increased through the frosted surfaces, so that the banner cloth is prevented from slipping in the printing process.

In order to optimize the product structure, a dust removing shaft 11 is arranged between the left chassis 2 and the right chassis 3 in the embodiment, the dust removing shaft 11 is fixed on the left chassis 22 and the right chassis 33 through bearing seats, the dust removing shaft 11 is positioned between the crease-resistant flattening shaft 10 and the cloth releasing shaft 7, and the dust removing shaft 11 is a rubber roll shaft; specifically, in this embodiment, the dust removing shaft 11 is composed of a dust removing mandrel 1101 and a rubber layer 1102, wherein the rubber layer 1102 is cast onto the shaft wall of the dust removing mandrel 1101, and the rubber hardness of the rubber layer 1102 is 30-35 degrees.

In order to optimize the product structure, in this embodiment, a support shaft 15, a web separating shaft 16 and a ribbon separating shaft 17 are disposed between the left chassis 2 and the right chassis 3, the support shaft 15 is located below the printing shaft 4 and tangential to the printing shaft 4, the web separating shaft 16 is located in front of the ribbon separating shaft 17 and has a height difference therebetween, and the ribbon separating shaft 17 is located in front of the wrinkle-preventing flattening shaft 10.

As an alternative, in this embodiment, the bottom of the frame 1 is provided with a universal wheel 20 to facilitate movement of the ribbon banner printer.

The two ends of the banner are respectively rolled on the cloth releasing shaft 7 and the cloth collecting shaft 8, the banner passes through the banner separating shaft 16, the printing shaft 4, the anti-wrinkling flattening shaft 10, the dust removing shaft 11 and the cutter shaft 12, the cutter shaft 12 and the cloth collecting shaft 8 are matched to enable the banner to be in a tensioning state, the cutter piece 13 is convenient to cut, the anti-wrinkling flattening shaft 10 and the dust removing shaft 11 are positioned between the cloth releasing shaft 7 and the banner separating shaft 16, the banner winds from the lower part of the dust removing shaft 11 to the upper part of the anti-wrinkling flattening shaft 10, when the banner passes through the dust removing shaft 11, dirt on the surface of the banner is adhered to the surface of the dust removing shaft 11, the surface of the banner is kept clean and conveyed forwards, and the dirt adhered on the banner is prevented from being brought to the printing head 5 to damage the printing head 5; the anti-wrinkling flattening shaft 10 performs anti-wrinkling treatment on the banner cloth, namely, according to the wrinkling degree of the banner cloth, the anti-wrinkling flattening shaft 10 is rotated by a wrench, so that the angle of the anti-wrinkling flattening shaft 10 is changed, the banner cloth is flattened, the whole process is adjusted without stopping a machine, and the printing efficiency can be improved on the premise of ensuring the printing quality; the ribbon is wound on the ribbon supply shaft 6 and the ribbon take-up shaft 9 at both ends thereof, respectively, and passes between the ribbon separation shaft 17 and the printing shaft 4.

Taking out the blade 13023 from the groove 13025 in advance, fixing the blade 13023 to the front end of the groove 13025 through a bolt, sleeving the adjusting sleeves 13021 on the cutter roll shaft 1301, manually adjusting the distance between two adjacent adjusting sleeves 13021 on the cutter roll shaft 1301 according to the requirement, aligning the cutting edge part of the blade 13023 with the banner when the adjusting sleeves are adjusted to a proper position, and cutting the banner, wherein the adjusting sleeves 13021 and the cutter roll shaft 1301 are locked through jackscrews 13024 at the moment, and the adjusting sleeves 13021 do not move any more; the four independently running pressing print head motors 21, the ribbon collecting motor 22, the cloth collecting motor 23 and the brake motor work and drive the printing shaft 4, the ribbon supply shaft 6, the ribbon collecting shaft 9 and the cloth collecting shaft 8 which are in transmission connection with the printing shaft to rotate, the banner cloth is conveyed forwards, the printing head 55 prints the ribbon on the banner cloth to manufacture finished banner cloth when passing through the printing shaft 4, the knife 13023 cuts the finished banner cloth along the opening of the banner cloth when the finished banner cloth passes through the knife 13023, and the cut finished banner cloth is wound on the cloth collecting shaft 8.

Example 2: as shown in fig. 8-9, the invention provides a ribbon banner printer and a control system thereof, wherein the control system is arranged in a right chassis 3, the control system comprises a controller 19 and a power supply, the input end of the controller 19 is connected with a plurality of detection units, and the detection units comprise a printing head state detection unit, a ribbon detection unit, a banner detection unit and a temperature detection unit; the output end of the controller 19 is respectively connected with a printing head pressing motor 21, a color tape collecting motor 22, a cloth collecting motor 23 and a brake motor, and the controller 19 is connected with a driving circuit 26 with the printing head pressing motor 21, the color tape collecting motor 22 and the cloth collecting motor 23; the print head pressing motor 21, the ribbon collecting motor 22 and the cloth collecting motor 23 are torque motors.

The controller 19 adopts an STC singlechip; specifically, the model of the singlechip is STC5A16S2.

The power supply comprises an AC220V power supply, the AC220V power supply is connected with a transformer and is converted into 24V voltage to be output, and the output 24V voltage is output to 5V voltage through a voltage stabilizer to supply power for the controller 19 and the driving circuit 26.

The state detection unit of the said print head, is used for detecting the state of the print head 5 is lifting or dropping; the print head state detection unit includes a reflective infrared photoelectric sensor 33, the reflective infrared photoelectric sensor 33 being provided on one side of the print shaft 4;

the color band detecting unit is used for detecting whether color band exists on the color band supply shaft 6; the ribbon detection unit includes a first contrast type photoelectric sensor 34, the first contrast type photoelectric sensor 34 being disposed on both sides of the ribbon supply shaft 6;

the banner cloth detection unit is used for detecting whether a banner cloth exists on the cloth releasing shaft 7; the banner detection unit comprises a second comparative type photoelectric sensor 35, the second comparative type photoelectric sensor 35 being arranged on both sides of the cloth releasing shaft 7.

The temperature detection unit includes a temperature sensor 18, the temperature sensor 18 being provided at one side of the print head 5; the output end of the controller 19 is also connected with a temperature adjusting component 28; the temperature regulating assembly 28 is arranged on the frame 1, and the temperature regulating assembly 28 is communicated with a circulating pipeline penetrating through the inside of the printing head 5; the temperature adjusting assembly 28 is internally provided with a heating unit and a refrigerating unit, the circulating pipeline is respectively connected with the heating unit and the refrigerating unit after passing through the three-way electromagnetic valve 31, the heating unit comprises a heating pipe 29 wound outside the circulating pipeline, the refrigerating unit comprises a compressor 30, and the circulating pipeline passing through the compressor 30 and the circulating pipeline passing through the heating pipe 29 are converged through the three-way valve and enter the printing head 5; the three-way electromagnetic valve 31, the heating pipe 29 and the compressor 30 are respectively connected with the output end of the controller 19.

The input end of the controller 19 is also connected with an electrostatic tester 32, and the output end of the controller 19 is connected with the electrostatic fan 14.

The brake motor comprises a first motor 24 and a brake 25; a driving circuit 26 is connected between the first motor 24 and the controller 19, and a control circuit 27 is connected between the brake 25 and the controller 19;

specifically, as shown in fig. 9, the driving circuit 26 includes a first optocoupler, and an output end of the first optocoupler is connected to a triode; the triode is a bidirectional triode thyristor, the gate electrode of the bidirectional triode thyristor and the first main electrode are connected with a first photoelectric coupler, the second main electrode is connected with a printing head pressing motor 21, a color tape collecting motor 22, a cloth collecting motor 23 or a first motor 24, and two ends of the printing head pressing motor 21, the color tape collecting motor 22, the cloth collecting motor 23 and the first motor 24 are respectively connected with a capacitor in parallel; the capacity of the capacitor is 470pF; the input end of the first photoelectric coupler is respectively connected with 5V voltage and an IO port of the controller 19; the first photoelectric coupler is a MOC3021 type photoelectric coupler; 220V alternating current is connected between a first main electrode and the photoelectric coupler in a driving circuit 26 connected with the printing head pressing motor 21, the color tape collecting motor 22 and the cloth collecting motor 23, and motor switches are respectively arranged.

Specifically, as shown in fig. 9, the control circuit 27 includes a second photocoupler and a MOSFET, where an input end of the second photocoupler is connected to the 5V voltage and the IO port of the controller 19, and an output end of the second photocoupler is connected to a base of the MOSFET; the second photoelectric coupler comprises a light emitting diode and a phototriode, and the MOSFET is an N-channel MOSFET; the collector and emitter of the MOSFET are connected to the brake 25; the controller 19 is connected with a brake signal input circuit, the brake signal input circuit comprises a second photoelectric coupler, the input end of the second photoelectric coupler is connected with a 24V power supply through a resistor, and the output end of the second photoelectric coupler is connected with an IO port of the controller 19;

as an implementation manner, in this embodiment, the print head motor 21, the ribbon collecting motor 22 and the cloth collecting motor 23 are torque motors with AC220V, the power of the print head motor 21 is 40w, the power of the cloth collecting motor 23 is 10w, and the power of the ribbon collecting motor 22 is 3w; the brake motor is manufactured by Weichuang electromechanical manufacturers and is manufactured by the brand of the Song motor, and the power is 6w.

After the banner printer is connected with an AC220V alternating current power supply, the printing head state detection unit, the ribbon detection unit and the banner detection unit are respectively started to start detection, the reflective infrared photoelectric sensor 33 emits infrared light, whether a reflected signal can be received or not, if no reflected signal exists, the printing head 5 is indicated not to fall down, if the reflected signal is detected, the printing head 5 falls down, and the signals are transmitted to a singlechip in the controller 19; the first contrast type photoelectric sensor 34 and the second contrast type photoelectric sensor 35 in the color band detection unit and the banner detection unit judge whether the color band and the banner are arranged or not through the received contrast signals, and transmit the signals to the singlechip; when the conditions that the printing head 5 falls down and the color tape and the banner are arranged are met, the singlechip controls the printing head pressing motor 21, the color tape collecting motor 22, the cloth collecting motor 23 and the first motor 24 in the printer to work, and the brake 25 does not work; when a character is printed and needs to skip white, the singlechip does not send a signal to the driving circuit 26, the printing head motor 21 is pressed to stop working and lift, the color band is not moved at the moment, and the banner cloth continues to move; meanwhile, after the brake signal input circuit receives a 24V voltage signal, the singlechip sends a control signal to the control circuit 27 connected with the brake 25, and the brake 25 works and starts to brake; the first motor 24 is stopped; and (5) finishing the skip white, and recovering printing until the printing is finished.

Because the temperature of the printing head 5 can rise after long-time printing of the banner printer, the temperature sensor 18 detects the temperature in the printing head 5 in real time and transmits a temperature signal to the singlechip, when the temperature exceeds 40 ℃, the singlechip transmits a control signal, the three-way electromagnetic valve 31 is communicated with the contact of the compressor 30 to be communicated, and meanwhile, the singlechip controls the compressor 30 to start, so that the liquid in a circulating pipeline is cooled, and the temperature of the printing head 5 is reduced through circulation; similarly, when the temperature exceeds 10 ℃, the singlechip sends a control signal, the three-way electromagnetic valve 31 is communicated with the contact of the heating pipe 29, and meanwhile, the singlechip controls the heating pipe 29 to be electrified and started, so that the temperature of liquid in the circulating pipeline is increased, and the temperature of the printing head 5 is increased through circulation, so that the normal work of the printing head 5 is ensured.

Meanwhile, a certain amount of static electricity is generated in the printer during operation, the static electricity tester 32 is used for measuring the static electricity in the printer in real time and sending a signal to the singlechip, and the singlechip controls the opening of the static fan 14, and the static fan 14 is connected in parallel, so that the static electricity in the chassis can be simultaneously opened and removed rapidly.

The above-described embodiments are merely preferred embodiments of the present invention and are not intended to limit the scope of the present invention, so that all equivalent changes or modifications of the structure, characteristics and principles described in the claims should be included in the scope of the present invention.

Claims (8)

1. The ribbon banner printer comprises a frame (1), a left machine case (2), a right machine case (3), a printing shaft (4), a printing head (5), a ribbon supply shaft (6) for winding and supplying ribbons, a cloth unwinding shaft (7) for winding and supplying banner cloth, a ribbon winding shaft (9) for winding waste ribbons and a cloth winding shaft (8) for winding finished banner cloth, wherein the left machine case (2) and the right machine case (3) are respectively fixedly arranged on two sides of the top of the frame (1), the printing shaft (4), the ribbon supply shaft (6), the cloth unwinding shaft (7), the ribbon winding shaft (9) and the cloth winding shaft (8) are arranged between the left machine case (2) and the right machine case (3), the printing head (5) is arranged on the printing shaft (4), and the ribbon banner printer is characterized in that a crease-resistant flattening shaft (10), a cutter shaft (12) and a cloth winding piece (13) for winding the finished banner cloth are further arranged between the left machine case (2) and the right machine case (3), the crease-resistant shaft (10) is arc-shaped, the crease-resistant shaft (10) is positioned in front of the cloth unwinding shaft (7), the cutter shaft (12) is positioned in front of the cloth unwinding shaft (12) and is positioned in front of the cutter shaft (12), and is positioned in front of the cutter shaft (12) and is positioned in front of the cutter piece (13; the printing shaft (4) is provided with a printing head pressing motor (21), the ribbon supply shaft (6) is connected with a brake motor through a coupler, the ribbon take-up shaft (9) is connected with a ribbon take-up motor (22) through a coupler, and the cloth take-up shaft (8) is connected with a cloth receiving motor (23) through a coupler; the bottom of the frame (1) is provided with universal wheels (20), the left chassis (2) is provided with at least one electrostatic fan (14), and the electrostatic fans (14) are connected in parallel; the static fan (14) is located the top of cutter axle (12) and is located the place ahead of printing axle (4), cutter spare (13) are constituteed by cutter roller (1301) and blade subassembly (1302) more than two, reserve the interval between two adjacent blade subassemblies (1302), and blade subassembly (1302) are including adjusting sleeve (13021), blade holder (13022), blade (13023) and jackscrew (13024), blade holder (13022) set up on the outer wall of adjusting sleeve (13021), are provided with recess (13025) on blade holder (13022), and front end bolted connection blade (13023) of recess (13025), place after recess (13025) supply blade (13023) upset, and the cutting edge of blade (13023) faces cutter axle (12), and adjusting sleeve (13021) wear to the outer wall of cutter roller (1301), and adjusting sleeve (13021) and cutter roller (1301) are locked through jackscrew (13024).

2. The ribbon banner printer according to claim 1, wherein a dust removing shaft (11) is disposed between the left chassis (2) and the right chassis (3), the dust removing shaft (11) is disposed between the crease-resistant flattening shaft (10) and the cloth releasing shaft (7), and the dust removing shaft (11) is a glue roll shaft.

3. The ribbon banner printer according to claim 1, wherein a support shaft (15), a banner separation shaft (16) and a ribbon separation shaft (17) are disposed between the left chassis (2) and the right chassis (3), the support shaft (15) is located below the printing shaft (4) and tangential to the printing shaft (4), the banner separation shaft (16) is located in front of the ribbon separation shaft (17) with a height difference therebetween, and the ribbon separation shaft (17) is located in front of the crease-resistant flattening shaft (10).

4. A control system of a ribbon banner printer based on any one of claims 1-3, characterized in that the control system is arranged in a right chassis (3), the control system comprises a controller (19) and a power supply, the input end of the controller (19) is connected with a plurality of detection units, and the detection units comprise a print head state detection unit, a ribbon detection unit, a banner detection unit and a temperature detection unit; the output end of the controller (19) is respectively connected with a printing head pressing motor (21), a color-receiving tape motor (22), a cloth-receiving motor (23) and a brake motor, and the controller (19) is connected with a driving circuit (26) with the printing head pressing motor (21), the color-receiving tape motor (22) and the cloth-receiving motor (23); the output end of the controller (19) is also connected with a temperature adjusting component (28); the power supply comprises an AC220V power supply, the AC220V power supply is connected with a transformer and is converted into 24V voltage to be output, and the output 24V voltage is output to supply power for the controller (19) and the driving circuit (26) through a voltage stabilizer.

5. A control system of a ribbon banner printer according to claim 4, wherein the printhead status detection unit is configured to detect whether the status of the printhead (5) is raised or lowered; the print head state detection unit comprises a reflective infrared photoelectric sensor (33), and the reflective infrared photoelectric sensor (33) is arranged on one side of the printing shaft (4); the color band detection unit is used for detecting whether color bands exist on the color band supply shaft (6); the color band detection unit comprises a first contrast type photoelectric sensor (34), and the first contrast type photoelectric sensor (34) is arranged at two sides of the color band supply shaft (6); the banner cloth detection unit is used for detecting whether a banner cloth exists on the cloth releasing shaft (7); the banner cloth detection unit comprises a second comparison type photoelectric sensor (35), and the second comparison type photoelectric sensor (35) is arranged at two sides of the cloth placing shaft (7).

6. A control system of a ribbon banner printer according to claim 4, characterized in that the temperature detection unit comprises a temperature sensor (18), the temperature sensor (18) being arranged on one side of the print head (5); the temperature adjusting assembly (28) is arranged on the frame (1), and the temperature adjusting assembly (28) is communicated with a circulating pipeline penetrating through the inside of the printing head (5); the temperature adjusting assembly (28) is internally provided with a heating unit and a refrigerating unit, the circulating pipeline is respectively connected with the heating unit and the refrigerating unit after passing through a three-way electromagnetic valve (31), the heating unit comprises a heating pipe (29) wound outside the circulating pipeline, the refrigerating unit comprises a compressor (30), and the circulating pipeline passing through the compressor (30) and the circulating pipeline passing through the heating pipe (29) are converged through the three-way valve and enter the printing head (5); the three-way electromagnetic valve (31), the heating pipe (29) and the compressor (30) are respectively connected with the output end of the controller (19).

7. A control system for a ribbon banner printer in accordance with claim 4, wherein the brake motor comprises a first motor (24) and a brake (25); a driving circuit (26) is connected between the first motor (24) and the controller (19), and a control circuit (27) is connected between the brake (25) and the controller (19);

the driving circuit (26) comprises a first photoelectric coupler, and the output end of the first photoelectric coupler is connected with a triode; the triode is a bidirectional triode thyristor, a gate electrode and a first main electrode of the bidirectional triode thyristor are connected with the output end of the first photoelectric coupler, a second main electrode is connected with a printing head pressing motor (21), a color tape receiving motor (22), a cloth receiving motor (23) or a first motor (24), and two ends of the printing head pressing motor (21), the color tape receiving motor (22), the cloth receiving motor (23) and the first motor (24) are respectively connected with a capacitor in parallel; the input end of the first photoelectric coupler is respectively connected with 5V voltage and an IO port of the singlechip; the first photoelectric coupler is a MOC3021 type photoelectric coupler; the control circuit (27) comprises a second photoelectric coupler and a MOSFET, wherein the input end of the second photoelectric coupler is respectively connected with 5V voltage and an IO port of the singlechip, and the output end of the second photoelectric coupler is connected with the base electrode of the MOSFET; the collector and the emitter of the MOSFET are connected with a brake (25); the second photocoupler comprises a light emitting diode and a phototransistor, and the MOSFET is an N-channel MOSFET.

8. The control system of a ribbon banner printer according to claim 4, wherein the input end of the controller (19) is further connected with an electrostatic tester (32), and the output end of the controller (19) is connected with an electrostatic fan (14); the controller (19) adopts an STC singlechip; the printing head pressing motor (21), the color tape collecting motor (22) and the cloth collecting motor (23) are torque motors.