Imaging devices may perform actions on or with media. Imaging devices may print, scan, copy, or perform other actions on or with the media. Further, imaging devices may transport media throughout the imaging device, into or out of the imaging device, or from a first imaging device to a second imaging device or other device. Imaging devices may transport media of different sizes, thicknesses, or materials.
Imaging devices may perform actions on or with media, or a medium thereof. Imaging devices may print, scan, copy, or perform other actions or imaging operations on or with media. In some situations, imaging devices may perform an imaging operation in one portion of the imaging device, then transport media to another portion of the imaging device wherein the imaging device may perform another action on or with the media. As such, imaging devices may transport media throughout the imaging device, into or out of the imaging device, or from a first imaging device to a second imaging device. In some situations, it may be desirable to transport media without damaging the media, and/or without altering or affecting the quality of an imaging operation performed thereon.
In some situations an imaging device may transport different types of media, or media having different characteristics, such as different thickness, size, and/or material. Further, the imaging device may transport media after an imaging operation, such as printing for example, has been performed on or with the media. As such, the imaging device may transport media that has a varying weight and/or surface dryness, and, thus, a varying frictional resistance when transported over surfaces within the imaging device, or other sheets or pieces of media. Therefore, it may be desirable for the imaging device to have a clamp and/or media transporter, or another mechanism, to transport media having a range of weight or frictional resistance without damaging the media, or otherwise affecting an imaging operation performed thereon.
In some situations, imaging devices may include a mechanism to transport media that has a constant retaining force or clamping force. In such a situation, the constant retaining force may be sufficient to retain and transport media of a relatively lighter weight and/or a lower frictional resistance without damaging the media, but may be insufficiently strong enough to transport media having a heavier weight, and/or higher frictional resistance. In other situations, the constant retaining force may be strong enough to retain and transport media of a heavier weight, but may damage thinner media or media of a lighter weight upon the media being pulled or pushed out of the retaining mechanism at the end of the transporting of the media. Thus, in some situations, it may be desirable for the imaging device to have a media transporter with a variable retaining or clamping force, such that the imaging device may transport media of varying weight without damaging the media.
Implementations of the present disclosure provide clamps having a variable clamping force for transporting media, or a medium thereof, within or between imaging devices without damaging the media. Medium may refer to a singular piece or portion of media. Examples of clamps described herein may retain and transport media throughout a media transport path and enable the media to be removed from the clamp at a predetermined location in the media transport path without damaging the media. Further, in some implementations, examples of clamps described herein may retain and transport media with a retaining or clamping force, and may lower the retaining or clamping force before or upon reaching the end of the media transport path such that the media may more easily be removed from the clamp so as to avoid damaging the media upon the media being removed from the clamp.
Referring now to
Clamp 100, in some implementations, may be referred to as a media clamp when engaged with media, or a medium thereof. The example clamp 100 may include a chassis 102, a swingarm 104 disposed on the chassis, a clamp wheel 106 disposed on a first end of the swingarm 104 to engage with a drag portion 108 of the chassis 102, and an auxiliary bias member 110 to exert a force against the clamp wheel 106 to resist a rotation of the clamp wheel 106. In some implementations, the force may periodically increase in magnitude.
Referring now to
The clamp wheel 206 may be a rotatable component that may rotate or spin relative to the swingarm 204 and the chassis 202. The clamp wheel 206 may be disposed on, or rotatably engaged with, the swingarm 204, or, in some implementations, on a first end 214 of the swingarm 204. The clamp wheel 206 may be disposed on the swingarm 204 such that the clamp wheel 206 may contact or otherwise engage with media that may be disposed under the swingarm 204, or media that may be otherwise disposed, clamped, or retained within the clamp 200. In some implementations, the clamp wheel 206 may be a round or cylindrical component that may spin or rotate along an axis that may be transverse or lateral to a direction along which the clamp 200 may transport media. In further implementations, the clamp wheel 206 may be referred to as a tire or a clamp tire. In yet further implementations, the clamp wheel 206 may include an outer surface with a tacky, sticky, or rubbery texture, or another texture to increase a coefficient of friction of the clamp wheel 206. Such an outer surface may assist the clamp wheel 206 in holding on to or retaining media within the clamp 200.
The swingarm 204 may be a rigid or semi-rigid pivoting arm or member to engage the clamp wheel 206 with the chassis 202. In some implementations, the swingarm 204 may be pivotably disposed on the chassis 202. The swingarm 204 may include a fulcrum 212, the first end 214, and a second end 216. In some implementations, the fulcrum 212 may be disposed in between the first end 214 and the second end 216. The swingarm 204 may be hingeably engaged with the chassis 202 at the fulcrum 212 of the swingarm 204. In some implementations, the fulcrum 212 may act as a pivot between the first end 214 and second end 216, or, stated differently, an action or force exerted on the first or second end of the swingarm 204 may be transferred by the swingarm 204 through the fulcrum 212 so as to result in movement of, or force exerted by, the other end. Thus, force exerted on the second end 216, for example, may be transferred by the swingarm 204 through the fulcrum 212 to result in force being exerted by the first end 214.
In some implementations, the clamp 200 may also include a clamp bias member 218 engaged with the swingarm 204 to bias the clamp wheel 206 towards the drag portion 208. The clamp bias member 218 may be a resilient component that may be elastically deformable. In other words, the clamp bias member 218 may be able to return to its original shape and geometry after undergoing a deformation or deflection. Further, the clamp bias member 218 may exert a reactive force in response to and proportional to a deformation or deflection. In some implementations, the clamp bias member 218 may be a spring, or, more specifically, an extension or tension spring. In other implementations, the clamp bias member 218 may be a different type of spring. In some implementations, the clamp bias member 218 may be anchored to the chassis 202, or another component of the clamp 200 sufficient to fix one end of the clamp bias member 218 relative to the swingarm 204. An opposite end of the clamp bias member 218 may be attached to or engaged with the second end of the swingarm 204, in some implementations, as illustrated in
In some implementations, the drag portion 208 may be a portion of the chassis 202, or another intermediary component, that may be adjacent to the clamp wheel 206. The drag portion 208, in further implementations, may be a contact point of the clamp wheel 206, and/or may be a point at which the clamp 200 may pinch or clamp media in between the clamp wheel 206 and the chassis 202. Therefore, the clamp 200 may clamp or pinch media in between the clamp wheel 206 and the drag portion 208. Further, in some implementations, the drag portion 208 may include a material that is similar to the material of the clamp wheel 206, for example, a material with a tacky, sticky, or rubbery texture, or another suitable material that may raise a coefficient of friction of the drag portion 208. In further implementations, the drag portion 208 may be a drag wheel, a friction surface, or another component against which the clamp wheel 206 may clamp or pinch media.
The clamp 200 may also include an auxiliary bias member 210. The auxiliary bias member 210 may be engaged with the chassis 202, the swingarm 204, or another suitable component of the clamp 200 such that the auxiliary bias member 210 is positioned to exert a force against the clamp wheel 206. In some implementations, the auxiliary bias member 210 may engage with a top portion of the clamp wheel 206, as illustrated in
Referring additionally to
Referring now to
In some implementations, the media transporter 301 may include a track 338 including a transport path 320, along which the clamp 300 may move or be driven to transport media. The clamp 300 may, thus, engage with the track 338 to transport media along the transport path 320. In further implementations, the transport path 320 may be defined by the track 338, and a second track, not shown, which may oppose the first track 338, such that the first and second tracks adequately support both sides of the clamp 300. In some implementations, the clamp 300 may include a guide 322 to engage with the track 338. The guide 322 may be a post, tab, or other protrusion which may extend out from a lateral side of the clamp 300, or a chassis 302 thereof, and may be sized sufficiently and have an adequate geometry to complementarily engage with the track 320. In some implementations, the guide 322 may enable the clamp 300 to be driven along the track 338, and thus, the transport path 320. In further implementations, the clamp 300 may include multiple guides 322, or enough guides 322 to enable the effective travel of the clamp 300 along the transport path 320. For example, in some implementations, the clamp 300 may include a guide 322 disposed on either lateral side of the clamp 300, each guide to engage with one of the first track 338 or the second track. In further implementations, the clamp 300 may include two or more guides 322 on each lateral side of the clamp 300, as illustrated in
In some implementations, the media transporter 301 may include a drive system to drive or move the clamp 300 along the transport path 320. The drive system may include a drive component 342, as well as a transmission component 324, in some implementations. The drive component 342 may be engaged with a motive element, such as a motor or other element capable of transmitting torque to the drive component 342. The transmission component 324, in some implementations, may be a component capable of transmitting movement from the drive component 342 to the clamp 300. In some implementations, the drive component 342 may be a wheel or cog, and the transmission component 324 may be a transport belt, chain, or other suitable component. In further implementations, the transmission component 324 may include a drive lug 344 fixed to the transmission component 324. The drive lug 344 may be a protrusion or other suitable feature engaged with the transmission component 324 such that the drive lug 344 moves with the transmission component 324. In further implementations, the drive lug 344 may engage with a drive cradle 346 within or attached to the clamp 300, or the chassis 302 thereof. The drive lug 344 may move with the transmission component 324 and transfer such movement to the clamp 300. In other words, the transmission component 324, through the drive lug 344, may push or pull the example clamp 300 around or along the transport path 320. In further implementations, the clamp 300 may move along the transport path 320 by a transport belt.
Referring now to
Referring now to
The drag wheel 308 may sometimes be referred to as a drag tire, and may be of similar structure to that of the clamp wheel 306, in some implementations. In other implementations, the drag wheel 308 may be a wheel, cylinder, or another component that may be rotatably engaged with the clamp 300. The drag wheel 308 may be disposed on the chassis 302 of the clamp 300, adjacent to the clamp wheel 306. In further implementations, the clamp 300 may further include a drag bias member 334. The drag bias member 334 may be similar in structure and/or function to the clamp bias member, or other bias members described above, in some implementations. In further implementations, the drag bias member 334 may be an extension or tension spring, and may be anchored on one end to the chassis 302, or another suitable component of the clamp 300. In yet further implementations, an opposite end of the drag bias member 334 may be engaged with the drag wheel 308, such that the drag bias member 334 is stretched between the drag wheel 308 and the anchor point, and thereby exerts a reactive pulling force on the drag wheel 308, represented by arrow 311, so as to exert an inward torque, represented by arrow 309, on the drag wheel 308 to lock the drag wheel 308 against a lock face 348. The torque 309 may resist, inhibit, or prevent an outward rotation of the drag wheel 308, which may be in a direction opposite to arrow 309.
Similarly, the clamp 300 may also include a clamp bias member, not shown, to resist, inhibit, or prevent an outward rotation of the clamp wheel 306, represented by arrow 303, by exerting a pulling force on a swingarm 314, upon which the clamp wheel 306 may be disposed. Therefore, the clamp bias member and the drag bias member 334 may each resist the media 340 moving in an outward direction 317. In further implementations, the drag bias member 334 may be engaged with the drag wheel 308 through an intermediary member, for example, a ball link 336, wherein tension or pulling force in the drag bias member 334 is transferred to the drag wheel 308 through the ball link 336.
In some implementations, in order to transport media 340 along the transport path 320, the swingarm 314 may be moved in an opening direction to receive the media 340, and then in a closing direction to clamp or pinch the media in between the clamp wheel 306 and the drag wheel 308. The opening direction and closing directions may be represented by bidirectional arrow 319 in
In some implementations, the track 338 may include a rib 332 in a predetermined location, or in multiple predetermined locations along the transport path 320. Therefore, as the clamp 300 transports the media 340 along the transport path 320, the auxiliary bias member 310, or an outer arm or arms thereof, may come into contact with, or engage with the rib 332. Upon the auxiliary bias member 310 engaging with the rib 332, the rib 332 may deflect, or further deflect, in some implementations, the contacting portions of the auxiliary bias member 310, as illustrated by arrow 305 in
Accordingly, the clamp 300 may lower the retaining or clamping force exerted on the media 340, or lower the necessary pullout force, prior to the media 340 contacting a stationary component in order to be removed from the clamp 300, or at other predetermined intervals or locations along the transport path 320. Increasing the necessary pullout force may enable the clamp 300 to transport media 340 having varying weights, thicknesses, or frictional surfaces, while lowering the necessary pullout force may avoid damage occurring to the media 340 when being pulled or pushed out of the clamp 300.
Filing Document | Filing Date | Country | Kind |
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PCT/US2016/051044 | 9/9/2016 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2018/048421 | 3/15/2018 | WO | A |
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20190202196 A1 | Jul 2019 | US |