CN109466958A - Transmission equipment and print media winding method - Google Patents

Abstract

The present invention provides a kind of transmission equipment, is related to printing field, comprising: tape handler and at least two driving members.Each driving member is respectively positioned on same plane.Each driving member is respectively positioned on the side of tape handler.The present invention also provides a kind of print media winding methods, can prevent print media from wrinkling in transmit process, influence print quality.

Description

Transmission equipment and print media winding method

Technical field

The present invention relates to printing field more particularly to a kind of transmission equipments and print media winding method.

Background technique

Prevent other parts from damaging, being suitable for due to that can skid automatically when V belt translation has small stable drive noise, overload Away from the advantages that transmission and structure be simple easily fabricated and installation, V belt translation is widely used each in transmission for big center between two axis Kind print media.

Existing transmission equipment is generally by the belt, or by print media being wrapped in transmission for print media placement It takes, is moved with transmission belt, to achieve the purpose that transmission.This transmission equipment is generally existing so that print media is wrinkled, The problems such as influencing print quality.

Summary of the invention

The present invention provides a kind of transmission equipment, print media can be made to wrinkle for solving existing transmission equipment, and influence is beaten The problem of printing quality.

The embodiment of the present invention provides a kind of transmission equipment, comprising:

Tape handler and at least two driving members；

Each driving member is respectively positioned on same plane；

Each driving member is respectively positioned on the side of the tape handler.

In above-described embodiment, due to being provided at least two driving members, print media is successively wrapped in these driving members On, the cornerite of print media Yu these driving members is increased, the contact area between print media and driving member is increased, is increased Frictional force between driving member and print media, the frictional force can overcome the local deformation of transmission belt to apply print media Power, therefore can prevent print media from wrinkling, improve the quality of printing.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those skilled in the art without any creative labor, can be with root Other attached drawings are obtained according to these attached drawings.

Fig. 1 is the structural schematic diagram for the transmission equipment that first embodiment of the invention provides；

Fig. 2 is the structural schematic diagram for the transmission equipment that second embodiment of the invention provides；

The assembly signal of linear motor and adjustable driving member in the transmission equipment that Fig. 3 provides for second embodiment of the invention Figure；

The assembly signal of first live-roller and transmission roller motor in the transmission equipment that Fig. 4 provides for second embodiment of the invention Figure；

The assembling schematic diagram of torque motor and reel in the transmission equipment that Fig. 5 provides for second embodiment of the invention；

Fig. 6 is the flow chart for the print media winding method that third embodiment of the invention provides；

Fig. 7 is that the print media winding method that third embodiment of the invention provides is applied to the structure after a kind of transmission equipment Schematic diagram；

The second segment of print media and transmission belt in the print media winding method that Fig. 8 provides for third embodiment of the invention The force analysis figure of the part of contact；

Fig. 9 is the flow chart for the print media winding method that fourth embodiment of the invention provides；

Figure 10 is that the print media winding method that fourth embodiment of the invention provides is applied to the knot after a kind of transmission equipment Structure schematic diagram.

Specific embodiment

In order to make the invention's purpose, features and advantages of the invention more obvious and easy to understand, below in conjunction with the present invention The attached drawing that embodiment provides, is clearly and completely described technical solution provided in an embodiment of the present invention, it is clear that described Embodiment be only a part of the embodiment of the present invention, and not all embodiments.Based on embodiment provided by the invention, this field Technical staff's every other embodiment obtained without making creative work belongs to the model that the present invention protects It encloses.

Referring to Fig. 1, Fig. 1 is the structural schematic diagram for the transmission equipment that first embodiment of the invention provides, as shown in Figure 1, The transmission equipment includes:

Tape handler 100 and at least two driving members 200, it should be noted that only include with the transmission equipment in Fig. 1 It is illustrated for two driving members 200, any restrictions not is carried out to the quantity of the driving member 200 in the transmission equipment.

Each driving member 200 is respectively positioned on the side of tape handler 100.

It should be noted that tape handler 100 includes: the first live-roller 110, the second live-roller 120 and transmission belt 130, transmission belt 130 is wrapped on the first live-roller 110 and the second live-roller 120.

Optionally, each driving member 200 is respectively positioned on the transmission belt 130 and is transported from the first live-roller 110 to the second live-roller 120 Dynamic side.

In practical applications, on the one hand in the portion that transmission belt 130 is contacted with the first live-roller 110 or the second live-roller 120 Point, the size of the frictional force of the first live-roller 110 or the second live-roller 120 that transmission belt 130 is subject to changes and can make to be driven It is locally deformed with 130 in the part contacted with the first live-roller 110 or the second live-roller 120.On the other hand, unavoidably Ground can have foozle when manufacturing the first live-roller 110 and the second live-roller 120, when assembling tape handler 100, Also there can be rigging error.The foozle and rigging error can lead to the movement speed of transmission belt 130 everywhere in V belt translation Degree is not identical, in turn results in the local deformation of transmission belt 130.When transmitting print media using tape handler 100, The local deformation of transmission belt 130 can apply the external force of part to the print media transmitted, and the print media is caused to wrinkle.

In the present embodiment, due to being provided at least two driving members, print media is successively wrapped in these driving members On, the cornerite of print media Yu these driving members is increased, increases the contact area of print media Yu these driving members, in turn The frictional resistance force between driving member and print media is increased, which can overcome the local deformation of transmission belt to printing The power that medium applies, therefore can prevent print media from wrinkling, improve the quality of printing.

Referring to Fig. 2, Fig. 2 is the structural schematic diagram for the transmission equipment that second embodiment of the invention provides, as shown in Fig. 2, Unlike transmission equipment shown in FIG. 1, in the present embodiment:

Further, tape handler 100 includes: the first live-roller 110, the second live-roller 120, transmission belt 130.

The transmission equipment further includes extractor fan 140.

Transmission belt 130 is wrapped on the first live-roller 110 and the second live-roller 120.

Ventilation opening (not shown), 140 face of extractor fan ventilation opening, to pass through gas are provided on transmission belt 130 Pressure is adsorbed on print media on transmission belt 130, on the one hand improves the normal pressure between print media and transmission belt 130, in turn Increase the frictional force between print media and transmission belt 130, improves the transfer capability of the transmission equipment.On the other hand, pass through by Print media is adsorbed on transmission belt 130, since the contact surface of transmission belt 130 and print media is a plane, passes through printing The surface tension of medium can reduce the corrugation degree of print media.

Further, as shown in Fig. 2, the transmission equipment further includes support frame 300, first is provided on support frame 300 Guide groove 310.

At least one driving member 200 is adjustable driving member 210.

Adjustable driving member is located in the first guide groove 310.

Optionally, in conjunction with Fig. 2, which further includes transmission shaft 211, and driving member 200 passes through transmission shaft 211 and support Frame 300 connects, and one end of transmission shaft 211 is connect with adjustable driving member 210, and the other end of transmission shaft 211 is located at the first guide groove In 310.

Optionally, driving member 200 and adjustable driving member 210 can be rotated around transmission shaft 211, in driving member 200 and be passed It is provided with bearing between moving axis 211, bearing is provided between adjustable driving member 210 and transmission shaft 211, to reduce driving member The frictional dissipation between frictional dissipation and adjustable driving member 210 and driving member 211 between 200 and transmission shaft 211.

Optionally, driving member 200 and transmission shaft 211 are fixed, and adjustable driving member 210 and transmission shaft 211 are fixed.

It optionally, can also be by modes fixed conveyor part 200 and adjustable driving members 210 such as liftings, without branch is arranged Support 300 and the first guide groove 310.

Further, referring to Fig. 3, Fig. 3 is linear motor and can in the transmission equipment that provides of second embodiment of the invention The assembling schematic diagram of driving member is adjusted, in conjunction with Fig. 2 and Fig. 3, which further includes linear motor 400 and electric machine controller 500. It is additionally provided with pressure sensor (not shown) on the surface of the first live-roller 110 contacted with transmission belt 130, the pressure Sensor is connect by data line with electric machine controller 500, and the output shaft 410 of linear motor is connect with adjustable driving member 210.

Optionally, as shown in figure 3, the transmission equipment further includes transmission shaft 211, one end of transmission shaft 211 and adjustable transmission Part 210 connects, and the other end of transmission shaft 211 and the output shaft 410 of linear motor connect.

It should be noted that it is right by the first live-roller 110 and the second live-roller 120 to need during V belt translation Transmission belt 130 applies pretightning force, and pretightning force is bigger, and the local deformation phenomenon that transmission belt 130 generates is more serious.It is passed in order to prevent The print media corrugation sent, needs the pretightning force being subject to according to transmission belt 130 to adjust the packet of the print media Yu driving member 200 Angle.In practical applications, the pretightning force and transmission belt 130 that the first live-roller 110 applies transmission belt 130 are to the first live-roller 110 pressure active force and the reaction forces each other applied, therefore can be by the pressure sensor that is arranged on the first live-roller 110 Obtain the size data for the pretightning force that transmission belt 130 is subject to.The pressure sensor is connected by data line and electric machine controller 500 It connects, which sends the size data for the pretightning force that transmission belt 130 is subject to electric machine controller by data line 500, electric machine controller 500 according to the size data of the pretightning force received, control linear motor output shaft 410 push it is adjustable The roll shaft 211 of driving member is moved along the length direction of the first guide groove 310.Adjustable driving member 210 is with adjustable driving member Roll shaft 211 is moved along the length direction of the first guide groove 310, and the movement of adjustable driving member 210 can change beating of being transmitted The cornerite between medium and adjustable driving member 210 is printed, changes the contact area between print media and each driving member 200, in turn Change the size of the frictional force between the print media and each driving member 200.The pretightning force that transmission belt 130 is subject to is bigger, then answers The position of the adjustment is adjustable driving member 210, increases the cornerite between the print media and each driving member 200, increases printing Jie Contact area between matter and each driving member 200, to increase the frictional force between the print media and each driving member 200.

Meanwhile cornerite between driving member 200 and print media is when increasing, each driving member 200 is to the print media The size of holding power increases, and the angle between the holding power and horizontal line reduces, branch of each driving member 200 to the print media Holding force component in the horizontal direction increases, which can to the holding power of print media component in the horizontal direction To play wrinkle resistant effect.

In conclusion when increasing the cornerite between driving member 200 and print media, each driving member 200 and print media Between frictional force increase, each driving member 200 increases the holding power of print media component in the horizontal direction, which sets Standby anti-corrugation effect improves.

Further, referring to Fig. 4, Fig. 4 be in the transmission equipment that provides of second embodiment of the invention the first live-roller and It is driven the assembling schematic diagram of roller motor, in conjunction with Fig. 2 to Fig. 4, which further includes transmission roller motor 600.It needs to illustrate It is that Fig. 4 is only to the company between transmission roller motor 110 and live-roller for being driven roller motor 600 and the connection of the first live-roller 110 The relationship of connecing is illustrated, and is not limited live-roller motor 600 and is only capable of connecting with the first live-roller 110.In practical applications, it is driven Roller motor 600 can also be connect with the second live-roller 120.

Transmission roller motor 600 is connect with the first live-roller 110 or the second live-roller 120.

Optionally, the output shaft for being driven roller motor 600 is connect by shaft coupling with the roll shaft of the first live-roller 110, the It is provided with bearing between two live-rollers 120 and the roll shaft of the second live-roller 120, to reduce the second live-roller 120 and the second transmission Frictional force between the roll shaft of roller 120, and then reduce in transmit process due to the second live-roller 120 and the second live-roller 120 Energy loss caused by frictional force between roll shaft.

Optionally, pressure sensor also passes through data line and connect with transmission roller motor, is driven roller motor 600 according to by pressure Pressure and transmission belt 130 that the transmission belt 130 that sensor obtains applies the first live-roller 110 and the first live-roller 110 Contact area, obtains the maximum static friction force between the first live-roller 110 and transmission belt 130, and what transmission roller motor 600 exported turns Square is not more than the maximum static friction force, to prevent from skidding between transmission belt 130 and the first live-roller 110, extends transmission belt 130 Service life.

It should be noted that it is above-mentioned only by the first live-roller 110 with transmission roller motor 600 connect for, illustrate biography The concrete form that dynamic roller motor 600 is connect with the first live-roller 110 or the second live-roller 120, and non-limiting live-roller motor 600 It is only capable of connecting with the first live-roller 110, transmission roller motor 600 can also be connect with the second live-roller 120.

Further, referring to Fig. 5, Fig. 5 is torque motor and volume in the transmission equipment that provides of second embodiment of the invention The assembling schematic diagram of cylinder, in conjunction with Fig. 2 and Fig. 5, which further includes reel 700 and torque motor 800, torque motor 800 It is connect with reel 700, the torque that torque motor 800 exports is less than the torque that transmission roller motor 600 exports.

Reel 700 and each driving member 200 are respectively positioned on same plane, and reel 700 is located at the side of transmission belt 130.

Reel 700 and each driving member 200 are located at the opposite two sides of transmission belt 200.

The pressure sensor being arranged on the first live-roller 110 also passes through data line and connect with torque motor.

Optionally, each driving member 200 is located at the first side of transmission belt 130, and transmission belt 130 is in the first side by the first live-roller 110 move to the second live-roller 120, and reel 700 is located at second side of transmission belt 130, and transmission belt 130 is passed in second side by second Dynamic roller 120 is moved to the first live-roller 110.

A part of print media is contacted with transmission belt 130, and another part of the print media is wound on reel 700.

Optionally, reel 700 is fixed on support frame 300.

Optionally, reel 700 can also be fixed by way of lifting, without support frame 300 is arranged.

In practical applications, contact print media with the first segment of transmission belt 130 first, the transmission belt 130 First segment is one section that transmission belt 130 is contacted with the first live-roller 110, and the print media is then wrapped in each driving member On 200, then the print media contacted with transmission belt 130, finally the print media is wrapped on reel 700.Reel 700 is right Print media applies pulling force, so that print media is tensioned, further prevents the printing as caused by the local deformation of transmission belt 130 The corrugation of medium.Simultaneously as pressure sensor is connect by data line with the torque motor 800 of reel 700 is driven, torque electricity Machine 800 determines the pretightning force that transmission belt 130 is subject to according to the pressure size data obtained by the pressure sensor, and according to transmission The pretightning force being subject to 130 adjusts the size of output torque, and the torque that torque motor 800 exports is subject to pre- with transmission belt 130 Clamp force positive correlation can make the transmission equipment can be adapted for transmitting a variety of different materials.

Further, as shown in Fig. 2, being additionally provided with the second guide groove 320, the roller of the second live-roller on support frame 300 Axis 121 is located in the second guide groove 320.

Scale is provided on the second guide groove 320.

In practical applications, the position by adjusting the roll shaft 121 of the second live-roller in the second guide groove 320, can be with Center among the first live-roller 110 and the second live-roller 120 is adjusted away from while the situation constant in the length of transmission belt 130 Under, adjust position of the roll shaft 121 of the second live-roller in the second guide groove 320, the preload that transmission belt 130 can also be made to be subject to Power, so that transmission equipment provided in this embodiment adapts to different print media.

Again due to being provided with scale on the second guide groove 320, therefore the first live-roller 110 and second can be precisely adjusted Center between live-roller 120 is away from can also precisely adjust the preload that transmission belt 130 is subject to according to the rigidity of transmission belt 130 The size of power.

Further, as shown in Fig. 2, being additionally provided with temperature sensor (not shown) on the first live-roller 110.

The transmission equipment further includes skidding alarm controller 910, buzzer 920 and alarm lamp 930.

The temperature sensor is connect by data line with skidding alarm controller 910.

Skidding alarm controller 910 is connect with buzzer 920 and alarm lamp 930.

Skidding alarm controller 910 is also connect by data line with transmission roller motor 600.

Optionally, skidding alarm controller 910, buzzer 920 and alarm lamp 930 are fixed on support frame 300.

Optionally, which further includes temperature-compensation circuit (not shown), and the temperature-compensation circuit is for surveying The air themperature of the transmission equipment position is measured, which is connected by data line and skidding alarm controller 910 It connects, skidding alarm controller 910 passes through the temperature data and temperature-compensating electricity of the transmission belt that will be obtained by the temperature sensor The temperature data of air that road obtains subtracts each other, and can be obtained the temperature climb data of transmission belt 130, in the temperature of transmission belt 130 Rising is as caused by the dynamic friction between transmission belt 130 and the first live-roller 110.Temperature-compensation circuit in the present embodiment Structure is identical as existing known temperature compensation circuit, and details are not described herein again.

In actual use, when skidding alarm controller 910 senses that the temperature of transmission belt 130 is increased beyond preset threshold When value, illustrate that significantly opposite sliding occurs between transmission belt 130 and the first live-roller 110, that is, transmission belt 130 and first passes It skids between dynamic roller 110.At this point, skidding alarm controller 910, which controls buzzer 920, exports alarm tone, skidding alarm controller 910 control 930 output optical signals of alarm lamp.Meanwhile skidding alarm controller 910 is also passed skidding alarm signal by data line It send to transmission roller motor 600, transmission roller motor 600 reduces the torque of output in response to the skidding alarm signal, to prevent from being driven Continue to skid between band 130 and the first live-roller 110, extends the service life of transmission belt 130.

Further, for the transmission equipment for transmitting print media, each print media is successively wound in each driving member 200 On, the contact surface of driving member 200 and the print media is arc surface.

In practical applications, when driving member 200 can be rotated around transmission shaft 211, then driving member 200 is cylindrical body, The arc surface of the cylindrical body is contacted with the print media.

When driving member 200 is fixed on support frame 300 or driving member 200 and transmission shaft 210 are fixed, that is, driving member 200 when can not rotate, then it includes part of an arc-shaped surface that driving member 200, which is any one, and the print media with should Arc-shaped surface contact.

Further, transmission belt 130 includes the first side and second side.

In the parallel surface parallel with gravity direction, the center of circle of the center of circle of the first live-roller 110 and the second live-roller 120 Line is vertical with the direction of gravity, and first side be directed toward the second side direction it is identical as the direction of gravity.

Each driving member 200 is respectively positioned on the first side of transmission belt 130.

For ease of description, the first side is known as upside below, second side is known as downside.In practical applications, On one or several parts of transmission belt between one live-roller 110 and the second live-roller 120, in the weight of the print media itself Power effect is lower to generate reclinate elastic deformation, there is no harm in, transmission belt 130 is generated elastically-deformable part and is known as deformations Point.

Upward elastic force is generated in the deformations branch of transmission belt 130, under the action of the elastic force, increases transmission Holding power with 130 pairs of print media, therefore the maximum of the stiction between the deformation part of transmission belt 130 and print media Value is greater than the maximum value of the frictional force between the non-deformation part and print media of transmission belt 130, it is possible to lead to print media The size of frictional force between each section of transmission belt 130 is uneven, and then print media is caused to wrinkle.

When each driving member 300 is located at the upside of transmission belt 130, each driving member 300 is to the holding power of print media in weight The gravity direction of component on power direction and the print media reduces on the contrary, can overcome the gravity of the print media itself The amount of elastic deformation of the deformation part of transmission belt 130, reduce between the deformation part of transmission belt 130 and print media quiet rubs The difference between the maximum value of the frictional force between the maximum value of power and the non-deformation part and print media of transmission belt 130 is wiped, Keep the size of the frictional force between the print media and each section of transmission belt 130 more uniform, and then prevents print media from rising Wrinkle.

In the present embodiment, in a first aspect, due to being provided at least two driving members, print media is successively wrapped in this On a little driving members, the cornerite of print media Yu these driving members is increased, the contact between print media and driving member is increased Area increases the frictional force between driving member and print media, which can overcome the local deformation of transmission belt to fight each other The power that medium applies is printed, therefore can prevent print media from wrinkling, improves the quality of printing.Second aspect, due to can be according to beating Print medium is different, the size for the torque that the transmission roller motor of adjusting the first live-roller of driving or the second live-roller exports, therefore this reality The transmission equipment for applying example offer can be adapted for transmitting different print media.The third aspect, due in the first live-roller and biography The pretightning force for being provided with pressure sensor on the contact surface of dynamic band, and being provided with linear motor, therefore being subject to by transmission belt Size, the position of mobile adjustable driving member automatically adjusts the cornerite between the print media and driving member transmitted, works as transmission When the pretightning force that band is subject to increases, the cornerite being automatically increased between the print media and driving member transmitted increases printing Jie Active force between matter and driving member, therefore print media can be further prevented to wrinkle, improve the quality of printing.Fourth aspect, Since the pressure sensor is also connect with transmission roller motor, therefore can be subject to according to print media difference and transmission belt pre- The difference of clamp force, the torque of automatic adjustment transmission roller motor output, therefore transmission equipment provided in this embodiment can be fitted further For transmitting different print media.5th aspect due to being provided with reel, therefore can apply pulling force to print media, therefore can To further prevent print media to wrinkle, print quality is improved.6th aspect is led since the roll shaft of the second live-roller is located at second Into slot, and due to being additionally provided with scale on the second guide groove, therefore the first live-roller and the second transmission can be precisely adjusted Center between roller is away from or precisely adjusting the pretightning force that transmission belt is subject to, and then can make that the present embodiment provides transmission to set It is standby to be suitable for transmitting different print media.7th aspect, due to being provided with skidding alarm controller and temperature sensor, when the When slipping phenomenon occurring between one live-roller and transmission belt, buzzer and alarm lamp alarm are controlled, also control transmission roller motor subtracts The torque of small output, therefore can prevent from skidding between the first live-roller and transmission belt, and then extend the service life of transmission belt.The Eight aspects, since each driving member is located at the first side of transmission belt, each driving member is to the holding power of print media on gravity direction Component, the gravity of the print media itself can be overcome, reduce the elastic deformation of transmission belt, make print media and transmission belt The size of frictional force between each section is more uniform, therefore print media can be further prevented to wrinkle, and improves the quality of printing.

Fig. 6 and Fig. 7 are please referred to, Fig. 6 is the flow chart for the print media winding method that third embodiment of the invention provides, figure 7 are applied to the structural schematic diagram after a kind of transmission equipment, knot for the print media winding method that third embodiment of the invention provides Fig. 6 and Fig. 7 is closed, which is applied to a kind of transmission equipment, which includes:

Tape transport 100 and at least two driving members 200.

Tape handler 100 includes the first live-roller 110, the second live-roller 120 and transmission belt 130.

The print media winding method includes:

S301, the first segment that print media is bypassed to transmission belt, the first segment are what transmission belt was contacted with the first live-roller Part.

Specifically, print media 1000 bypasses the first segment of transmission belt 130, while the print media also applies the first segment Plus-pressure moves the first segment of transmission belt 130 by frictional force drives print media 1000.

S302, the part that print media is laid out by the first segment of transmission belt is bypassed into each driving member according to preset order, and Direction after the print media is laid out by the last one driving member is identical as the direction of motion of transmission belt.

Specifically, after the print media 1000 is around the first segment of transmission belt 130, by print media 1000 by transmission belt The part that 130 first segment is laid out bypasses each driving member 200 according to preset order.

On the one hand in the part that transmission belt 130 is contacted with the first live-roller 110 or the second live-roller 120, transmission belt 130 by To the first live-roller 110 or the second live-roller 120 frictional force size change can make transmission belt 130 with first pass The part of dynamic roller 110 or the contact of the second live-roller 120 is locally deformed with.On the other hand, inevitably, passed in manufacture first There can be foozle when dynamic roller 110 and the second live-roller 120, when assembling tape handler 100, can also have assembly and miss Difference.The foozle and rigging error can lead to the movement velocity everywhere of transmission belt 130 and non-fully phase in V belt translation Together, the local deformation of transmission belt 130 is in turn resulted in.When transmitting print media using tape handler 100, transmission belt 130 Local deformation can apply the external force of part to the print media transmitted, and the print media is caused to wrinkle.

Print media 1000 is bypassed each transmission according to preset order by the method for print media winding provided in this embodiment Part can increase the cornerite between print media 1000 and each driving member 200, increase print media 1000 and each driving member Contact area between 200, increases the active force between each driving member 200 and print media 1000, which can overcome It due to the power that 130 local deformation of transmission belt applies print media 1000, therefore can prevent print media from wrinkling, improve printing Quality.

S303, lay out print media by the last one driving member after part contacted with the second segment of transmission belt, should Second segment is neither contacted with the first live-roller nor is contacted with the second live-roller.

Specifically, the part and the second of transmission belt 130 after print media 1000 is laid out by the last one driving member 200 Section contact, the second segment refer to that transmission belt 130 is neither contacted with the first live-roller 110 and do not contact with the second live-roller 120 Part.

It should be noted that in a first aspect, print media winding method provided in this embodiment, reduces print media 1000 and first live-roller 110 contact area, alleviate the corrugation degree of print media 1000.

Second aspect, the active force that each driving member 200 applies print media 1000 can be prevented due to print media The size of frictional force between 1000 and each section of transmission belt 130 unevenly caused by print media 1000 corrugation.

Referring to Fig. 8, print media and transmission in the print media winding method that Fig. 8 provides for third embodiment of the invention The force analysis figure of the part of the second segment contact of band.

It should be noted that in order to illustrate more clearly of Fig. 8 is with the second segment with transmission belt 130 of print media 1000 The part of contact includes first part 1000A and second part 1000B, and the first part 1000A and transmission belt of print media Frictional force between the second part 1000B and transmission belt 130 of frictional force and print media between 130 is respectively the first friction For power F2 and the second frictional force F3 to the corrugation principle of print media 1000 and to transmission equipment put corrugated principle into Row explanation, not carries out any restriction to the force-bearing situation of print media.

As shown in figure 8, each driving member 200 is fought each other on the direction opposite with the direction of motion of the second segment of transmission belt 130 The component for printing the active force of medium 1000 is wrinkle resistant resistance F1, which includes each driving member 200 and print media Frictional force and each driving member 200 between 1000 to the holding power of print media the second segment with transmission belt 130 movement Component on contrary direction.

When wrinkle resistant resistance F1 is not present, and the first frictional force F2 is greater than the second frictional force F3, the fortune of first part 1000A Dynamic speed is greater than second part, since print media 1000 is flexible material, at this point, first part 1000A and second part Relative motion occurs between 1000B, print media 1000 is caused to wrinkle.When there are wrinkle resistant resistance F1, but the first frictional force F2 is big In wrinkle resistant resistance F1 and when the first frictional force F2 is greater than the second frictional force F3, between first part 1000A and second part 1000B Or relative motion occurs, print media still can wrinkle.When wrinkle resistant resistance F1 be greater than the first frictional force F2 and wrinkle resistant resistance it is big When the second frictional force F3, when only the resultant force of the second frictional force F2 and third frictional force F3 are greater than wrinkle resistant resistance F1, first Divide 1000A and second part 1000B that can move simultaneously, at this point, print media 1000 will not wrinkle.

Cornerite between print media 1000 and each driving member 200 is bigger, between each driving member 200 and print media 1000 Contact area increase, frictional force between each driving member 200 and print media 1000 increases, meanwhile, each driving member 200 is fought each other It prints component of the holding power of medium on the direction opposite with the direction of motion of the second segment of transmission belt 130 also to increase, therefore prints Cornerite between medium 1000 and each driving member 200 is bigger, and wrinkle resistant resistance F1 is bigger, prevents the corrugated effect of print media 1000 Better.

In practical applications, the cornerite between print media 1000 and each driving member 200 is not the bigger the better, because in addition to In view of preventing outside the corrugated effect of print media 1000, it is also necessary to consider that transmission belt 130 drives print media 1000 to move Ability, print media 1000 bear the factors such as the ability of tensile stress and the ability of roller bearing bending moment of driving member 200, Cornerite needs between print media 1000 and each driving member 200 are adjusted according to the progress of the material of different print media is corresponding Whole, meeting the processing of the cornerite of print media 1000 and each driving member 200 prevents outside the corrugated effect of print media 1000, moreover it is possible to Other efficiency of transmission print media 1000 are enough taken into account, which includes but is not limited to: the transmission efficiency of V belt translation, printing The amount of deflection of the roll shaft of the amount of elastic deformation and driving member 200 of medium 1000.

In the present embodiment, due to being provided at least two driving members, print media is successively wrapped in these driving members On, the cornerite of print media Yu these driving members is increased, the contact area between print media and driving member is increased, is increased Frictional force between driving member and print media, the frictional force can overcome the local deformation of transmission belt to apply print media Power, therefore can prevent print media from wrinkling, improve the quality of printing.

Fig. 9 and Figure 10 are please referred to, Fig. 9 is the flow chart for the print media winding method that fourth embodiment of the invention provides, Figure 10 is that the print media winding method that fourth embodiment of the invention provides is applied to the structural schematic diagram after a kind of transmission equipment.

The print media winding method is applied to a kind of transmission equipment, and the transmission equipment and transmission equipment shown in fig. 6 are not With the transmission equipment further includes reel 700, then, which includes:

S401, the first segment that print media is bypassed to transmission belt, the first segment are what transmission belt was contacted with the first live-roller Part.

S402, the part that print media is laid out by the first segment of transmission belt is bypassed into each driving member according to preset order, and Direction after the print media is laid out by the last one driving member is identical as the direction of motion of transmission belt.

S403, lay out print media by the last one driving member after part contacted with the second segment of transmission belt, should Second segment is neither contacted with the first live-roller nor is contacted with the second live-roller.

S404, the part winding for laying out print media by the second segment of transmission belt on reel.

Specifically, print media 1000 moves together with transmission belt 130, when transmission belt 130 moves to and the second transmission When roller 120 contacts, print media 1000 and transmission belt 130 are detached from, and print media 1000 is laid out by the second segment of transmission belt 130. Print media 1000 is wound on reel 700 by the part that the second segment of transmission belt 130 is laid out.

Optionally, reel 700 is spring spool, electric reel or pneumatic reel, and reel 700 can be to print media 1000 apply pulling force, which can further prevent print media 1000 to wrinkle, improve the quality of printing.

In the present embodiment, in a first aspect, due to being provided at least two driving members, print media is successively wrapped in this On a little driving members, the cornerite of print media Yu these driving members is increased, the effect between driving member and print media is increased Power, the power which can overcome the local deformation of transmission belt to apply print media, therefore can prevent print media from wrinkling, Improve the quality of printing.Second aspect is wrapped on the roller due to being provided with roller, and by print media, and roller can be right The print media applies pulling force, therefore the print media can be further prevented to wrinkle, and improves the quality of printing.

In the above-described embodiments, it all emphasizes particularly on different fields to the description of each embodiment, there is no the portion being described in detail in some embodiment Point, it may refer to the associated description of other embodiments.

The above are the descriptions to transmission equipment provided by the present invention and print media winding method, for the skill of this field Art personnel, thought according to an embodiment of the present invention can in specific implementation method and application range

There is change place, to sum up, the contents of this specification are not to be construed as limiting the invention.

Claims (10)

1. a kind of transmission equipment characterized by comprising

Tape handler and at least two driving members；

Each driving member is respectively positioned on same plane；

Each driving member is respectively positioned on the side of the tape handler.

2. transmission equipment as described in claim 1, which is characterized in that for being driven print media；

The tape handler includes: the first live-roller, the second live-roller and transmission belt；

The transmission equipment includes extractor fan；

The transmission belt is wrapped on first live-roller and the second live-roller；

Ventilation opening, ventilation opening described in the extractor fan face are provided on the transmission belt；

The print media is successively wrapped on each driving member, and the contact surface of the driving member and the print media is circular arc Face；

The transmission belt includes the first side and second side；

In the plane parallel with gravity direction, the line in the center of circle of the center of circle of first live-roller and second live-roller It is vertical with the direction of gravity, and first side be directed toward described second side direction it is identical as the direction of gravity；

Each driving member is respectively positioned on the first side of the transmission belt.

3. transmission equipment as claimed in claim 2, which is characterized in that the transmission equipment further includes support frame, in the branch The first guide groove is provided on support；

At least one described driving member is adjustable driving member；

The roll shaft of the adjustable driving member is located in first guide groove.

4. transmission equipment as claimed in claim 3, which is characterized in that the transmission equipment further includes linear motor and motor control Device processed；

Pressure sensor, the pressure sensor are additionally provided on the surface that first live-roller is contacted with the transmission belt It is connect by data line with the electric machine controller, the electric machine controller is connect with the linear motor, the linear motor Output shaft connect with the adjustable driving member.

5. transmission equipment as claimed in claim 4, which is characterized in that the transmission equipment further includes transmission roller motor；

The transmission roller motor is connect with first live-roller or the second live-roller；

The pressure sensor also passes through data line and connect with the transmission roller motor.

6. transmission equipment as claimed in claim 5, which is characterized in that the transmission equipment further includes reel and torque motor, The torque motor is connect with the reel；

The reel and each driving member are respectively positioned on same plane, and the reel is located at the side of the transmission belt；

The reel and each driving member are located at the opposite two sides of the transmission belt；

A part of print media is contacted with the transmission belt, and another part of the print media is wound on the reel；

The pressure sensor is connect by data line with the torque motor.

7. transmission equipment as claimed in claim 6, which is characterized in that be additionally provided with the second guide groove, institute on support frame as described above The roll shaft for stating the second live-roller is located in second guide groove；

Scale is provided on second guide groove.

8. transmission equipment as claimed in claim 7, which is characterized in that in being contacted with the transmission belt for first live-roller Surface on be additionally provided with temperature sensor；

The transmission equipment further includes skidding alarm controller, buzzer and alarm lamp；

The temperature sensor is connect by data line with the skidding alarm controller；

The skidding alarm controller is connect with the buzzer and the alarm lamp；

The skidding alarm controller also passes through data line and connect with the transmission roller motor.

9. a kind of print media winding method, it is applied to a kind of transmission equipment, which is characterized in that the transmission equipment includes:

Tape handler and at least two driving members；

The tape handler includes the first live-roller, the second live-roller and conveyer belt；

The print media winding method includes:

The print media is bypassed to the first segment of the conveyer belt, the first segment is the conveyer belt and first transmission The part of roller contact；

The print media is bypassed into each driving member according to preset order by the part that the first segment of the conveyer belt is laid out, And the direction that the print media is laid out by driving member described in the last one is identical as the direction of motion of the conveyer belt；

The second segment of part and the conveyer belt after laying out the print media by the last one described described driving member connects Touching, the second segment are neither contacted with first live-roller nor are contacted with second live-roller.

10. print media winding method as claimed in claim 9, which is characterized in that the transmission equipment further includes reel；

Then it is described lay out the print media by the last one described described driving member after part and the conveyer belt the Two sections of contacts, later further include:

The print media is wound on the reel by the part that the second segment of the conveyer belt is laid out.