CN105270054A - Device for transferring coating film - Google Patents

Abstract

The invention provides a device which is provided with a replaceable box and is used for transferring a coating film. The device is provided with a transferring unit in a retainer assembly and does not easily cause a fault or a problem. The retainer assembly comprises a first component and a second component. The second component can occupy a closing position where the second component is next to the first component; and an opening position where the second component moves away from the first component through moving in a direction which is parallel with the longitudinal direction of the first component. When the second component is at the closing position, the second component is combined with the first component, thereby forming a housing. A sliding member is attached with the second component. The sliding member can occupy one position which is closer to the firsts component and the other position that is further to the first component. A refilling box can be attached with the sliding member. When the second component is at the closing position, the sliding member is far from the first component; and when the second component is at the opening position, the sliding member is close to the first component.

Description

For the device of print-on coating film

The prioity claim of related application

This application claims the priority that the application number submitted on June 12nd, 2014 is the Japanese patent application of 2014-121757, being incorporated to herein by quoting in full.

Technical field

The present invention relates to a kind of device for the coated film be arranged in releasedly on the side of band being transferred to predetermined surface.

Background technology

Device for print-on coating film drops into practical application, and described device is for being transferred to predetermined surface by the coated film be arranged in releasedly on the side of tape.Film can be the coating be such as made up of correction fluid (collectionfluid) or adhesive.Therefore, when coated film is that when altering liquid film, the device for print-on coating film is used as correction tape applicator, and when coated film is adhesive film, the device for print-on coating film is used as adhesive applicator.Other device (device be such as combined with ornamental tape or mark band) for print-on coating film also with together with multi-purpose various band uses.

The existing apparatus for print-on coating film relating to above-mentioned same target has different operating mechanisms.Some devices in these devices use replaceable units coated film being arranged band on one side thereof.

This device for print-on coating film is made up of box-like retainer assembly and the box that refills that is attached to retainer assembly removedly usually.Refill box and comprise above-mentioned tape.Be with exhaust time (that is, band side on all coated film by whole transfer printing after), from retainer assembly remove be finished refill box and more renew refill box.

Consider from economic aspect, the smallest elements typically refilling box carrying comprises the roll coil of strip and will be with some parts be suitably supplied to needed for retainer assembly.

This cost allowing user to use the single device for print-on coating film by means of only replacing refills box and reduce for refilling box within the relatively long time.

Be equipped with removable refill box, for the device of print-on coating film, there is different structures, but they refill the sharing structure that box shares two rotatable spools or roller.First volume bearing carries the band on one side thereof with coated film.After coated film is transferred to target surface, the second spool is used for packing up used band.

On the other hand, refill in working method that coated film is transferred to target surface how by box different.Some refill box and have transfer printing unit, and other refill box does not then have transfer printing unit.Transfer printing unit is such as by being compressed on the target surface and coated film being transferred to target surface.

For in the multiple device of print-on coating film, transfer printing unit is comprised in and refills in box but not be attached to retainer assembly.Therefore, as the part refilling box, transfer printing unit is " disposable (disposable) ".Output from the band of the first spool through the transfer printing unit refilling box, coated film is transferred to target surface at this and is retracted on the second spool.

On the other hand, some transfer printing unit is arranged in retainer assembly.Even if also such transfer printing unit can not be removed when removing and refilling box.Utilize this technology, transfer printing unit is for being transferred to target surface by the coated film of supply on the tape of the first spool.Then band is retracted on the second spool.The applicant of the application has employed transfer printing unit and has been arranged on structure in retainer assembly.Because transfer printing unit is non-exchange, be configured in resources conservation so this and reduce refill box in price there is advantage.

By refill box be attached to the retainer assembly with transfer printing unit or refill box from the retainer assembly removal with transfer printing unit time, there are potential problems in the box that refills with the first and second spools.

When use refills box, should tensioning through the band of the first and second spools and transfer printing unit, but the preferably no longer tension band when replacing refills box.

When tension band necessary when use refills box, be swimmingly fed to second spool from first volume beam warp by transfer printing unit for by band.On the other hand, due to band and friction between the first spool and the transfer printing unit of volume Two between centers or due to be with and transfer printing unit undesirable joint and cause and successfully can not refill box from retainer assembly removal when replacing refills box.In order to realize more easily from old the refilling box or realize more easily the new box that refills being used for changing being attached to retainer assembly of retainer assembly removal, preferably do not make the band tensioning of advancing between the first and second spools via transfer printing unit, namely will make belt sag.

The problems referred to above be there will not be for the box that refills wherein with transfer printing unit.Can change comprise transfer printing unit refill box, to enable band tensioning all the time.Friction between transfer printing unit and band or joint can not cause any problem.

For the retainer assembly with transfer printing unit, as the method solving its above-mentioned typical problem, the applicant of the application has proposed to provide a kind of movable member, in the retainer assembly of the device for print-on coating film from first volume beam warp by transfer printing unit to the process of the second spool, described movable member can be formed and contacts with band.Such as, in Japan Patent JP4603738, the applicant of the application adopts a kind of box-like retainer assembly, and described box-like retainer assembly has: two halfbodies, these two halfbodies can open and close, to make it possible to be arranged in retainer assembly by refilling box; Transfer printing unit, described transfer printing unit is used as movable member; And rack-and-pinion, it is for converting the rotary motion of transfer printing unit when retainer assembly open and close to by the rectilinear motion of retainer assembly.When operative installations by tensioning being with being with the transfer printing unit that contacts, and loosen band when replacing refills box by making transfer printing unit be separated with band.

But still there is problem to be solved in this method.

The above-mentioned technology proposed by the applicant of the application uses rack-and-pinion to convert rectilinear motion to rotary motion.Different from the simple gears with fixed axis, the tooth on the pinion pinion rack of rotation is to produce the rectilinear motion of tooth bar.Therefore rack-and-pinion is easier to the problem occurring superstructure loosening.Due to the cost in order to reduce product as much as possible and weight, the device for print-on coating film is formed from a resin usually, therefore loosens and may cause the fracture of device, damage or other problem.

As mentioned above, it is removable for refilling box, and retainer assembly then wants Long-Time Service.Relatively being difficult to reduce may Problems existing, and once go wrong, and just can not meet the basic function making its " can Long-Time Service and without the need to replacing " of assembly.

Target of the present invention is to provide a kind of device for print-on coating film with replaceable cartridge, and wherein, described device has transfer printing unit in its retainer assembly, and described device is not easy to initiating failure or has problems.

Summary of the invention

In order to solve the problem, the application applicant proposed following invention.

The present invention is the retainer assembly of the device for print-on coating film, and described retainer component structure becomes and refills box and be combined, described in refill box and comprise: the first spool; Tape, described tape has the coated film of arranging releasedly on one side thereof, and described roll of strip is around on the first spool; With the second spool, described second spool is used for packing up tape from the first spool after coated film is transferred to predetermined surface.

Retainer assembly comprises the first component and second component, and described second component comprises: the second component body being connected to the first component; Sliding part; Be arranged on the fixture on sliding part, described fixture is used for refilling box and is attached to sliding part removedly; And transfer printing unit; Wherein, described second component is connected to the first component, move relative to the first member parallel to enable second component, second component can occupy second component away from the open position of the first component and the second component closing position near the first component thus, wherein, can second component be attached to refill box and remove from second component in open position and refill box, can use in closed position and refill box; Transfer printing unit is arranged on and contacts with the band being supplied to the second spool from the first spool, the coated film brought is transferred to predetermined surface closer to the position of the first component than sliding part on second component body; Sliding part is connected to second component body, the direction motion being parallel to second component to enable sliding part and moving relative to the first member parallel; And when second component is in an open position, sliding part can occupy the primary importance of the spaced apart preset distance with transfer printing unit; When second component is in the close position, sliding part can occupy than primary importance more away from the second place of transfer printing unit, thus, the minimum length duration more in an open position than second component when second component is in the close position with being marched to the path that the second spool is followed by transfer printing unit from first volume beam warp.

Retainer assembly with refill the part that can form the device for print-on coating film when box is combined, just as in the conventional apparatus for print-on coating film, described in refill box and can be attached to retainer assembly removedly.

Retainer assembly has the first component and second component.Second component relative to the first member parallel motion, can have transfer printing unit, and be configured to receive attach to this refill box.Second component can parallel motion between the open and the closed positions, in described open position, second component can be attached to refilling box and remove (such as change) from second component and refill box, in described closed position, can use and refill box.Second component comprises: the second component body being connected to the first component; And sliding part, described sliding part can relative to the parallel motion of second component body.The box that refills being attached to second component in the above described manner is precisely attached to sliding part.Therefore refill box to move together with sliding part relative to second component body or the first component.Sliding part (namely refilling box) is in primary importance when second component is in an open position and is in the second place when second component is in the close position, the described second place compared with primary importance more away from transfer printing unit.

Because transfer printing unit ratio refills box more near the first component, so in an open position with second component time compared with, when second component is in the close position, the minimum length with marching to by transfer printing unit the path that the second spool is followed from first volume beam warp is longer.It is evident that according to foregoing, can use when second component is in the close position and refill box.The prolongation of the above-mentioned path minimum length realized when second component moves to closing position causes to use together with the band of tensioning with being tensioned and therefore refilling box.On the other hand, when second component is in an open position, can freely removes or be attached and refill box.The reduction of the above-mentioned path minimum length realized when second component moves to open position causes band to be relaxed in tension without any.

In the present invention, said mechanism is used for band applying tension force with from bringing release tension force.When refilling box ready for use, the band that tensioning is advanced between the first spool and the second spool via transfer printing unit.When be such as attached to change or remove refill box time, band there is no tensioning.It should be noted that the present invention does not make transfer printing unit rotate to apply tension force or from bringing release tension force to band.Which obviates the need any parts such as rack-and-pinion for rectilinear motion being converted to rotary motion.Only can realize second component with non-rotatable component and be parallel to the motion of second component relative to the parallel motion direction of the first component relative to the parallel motion of the first component and sliding part.Such as, straight trough can be formed in any one in two parts moved relative to each other, to guide another in two parts, and directed corresponding component can be formed as engaging with groove.As a result, be not easy to initiating failure according to the retainer assembly of the device for print-on coating film of the present invention or have problems.

As use alpha nerein, no matter whether film is formed by coating, and term " coated film " includes any film be arranged on a surface of tape.Coated film draws together the film that solid, liquid, semisolid or gel rubber material are formed.The a series of discontinuous film that coated film can be continuous film or separate on the surface of band.

It should be noted that the first and second components of the device of the application are interconnected amongst one another, with the first component physical separation or can not move to the first component to make exactly second component.But in this manual, in order to simplify, second component is described to " away from " the first component, to represent that second component moves to its open position in a longitudinal direction.Similarly, second component is described to " close " the first component, to represent that second component moves to its closing position in a longitudinal direction.In other words, when using in conjunction with the first and second components, term " away from " and " close " be interpreted as the relativeness that represents that motion is left each other or moved between close two components each other.

The motion of sliding part relative to second component body can be realized by any one using in suitable mechanism.Set forth below is exemplary mechanism.

Retainer assembly according to the device for print-on coating film of the present invention can also comprise: the first locking element, and it is for preventing sliding part from moving to the first component by engaging slide part and the part refilling box; With the second locking element, it leaves the first component for preventing sliding part from moving by engaging slide part and the part refilling box, wherein: when sliding part does not engage with the first blocking element or the second blocking element, sliding part moves together with second component body, and wherein: during second component moves to closing position from open position sometime, sliding part engages with the first locking element, and during second component moves to open position from closing position sometime, sliding part engages with the second locking element.

Utilize said mechanism, follow second component body and can join second component body to relative to the sliding part of the parallel motion of the first component, allow sliding part to be parallel to the direction of motion displacement of the latter relative to second component body thus.This helps avoid the quantity unnecessarily increasing movable member.

At least one in first locking element and the second locking element can be arranged on the first part or the first component.Certainly, the first locking element and the second locking element can be arranged on the first part or the first component.Even if the first and second locking elements also can not relative to the first component displacement relative to during the first member parallel motion at second component.Aforesaid operations it should be noted that the first and second locking elements can form as one with the first component, or alternatively, the parts independent of the first component can be made for, as long as can be realized.

When the retainer assembly of the device for print-on coating film according to the application has the first locking element and the second locking element, and when at least one in the first locking element and the second locking element is configured to engage with the part refilling box, what will be combined with this retainer assembly refills box and can comprise at least one engaged element, described engaged element can engage with any one in the first locking element or the second locking element, and this first or second locking element is configured to engage with the part refilling box.As a result, can guarantee that sliding part is by the first locking element or the second locking element stop or by the first locking element and the second locking element stop.Engaged element is arranged on such position, in described position, and can so that the shape of above-mentioned effect can be obtained to obtain above-mentioned effect.Position and the shape of engaged element is determined for the position of the first and/or second locking element of coupling and/or shape.

First component is not specifically confined to its structure.Such as, the first component can have and is formed in the opening of end that it is positioned at the highest distance position place of distance second component, and transfer printing unit can expose from opening when second component is in the close position.As mentioned above, second component can occupy: open position, and in described open position, second component is away from the first component; And closing position, in described closed position, second component is near the first component.Utilize the second component being positioned at open position to be attached or to remove (such as changing) and refill box, then second component moves to closing position, in described closed position, refills box ready for use.For being configured to when second component is in the close position from the transfer printing unit that the opening the first component stretches out, user can by seeing that the transfer printing unit stretched out through opening judges that second component is in place in closed position.

First component and second component can be configured to encapsulate and refill box at least partially, to make when second component is in the close position outside band can not be exposed to.As mentioned above, box is refilled for the tape being furnished with coated film being on one side thereof fed to transfer printing unit and collecting used band.Preferably, the band marching to the second spool from first volume beam warp by transfer printing unit is not formed with any unexpected material and contacts.By the combination of the first and second components of the encapsulation piece at least partially or housing form for refilling box, band is protected in order to avoid outside being exposed to when second component is in the close position, and therefore, any unexpected material all can not close to band.

The applicant of the application also proposed the following device for print-on coating film, utilize described device can obtain with according to the application for the similar effect of the retainer assembly of the device of print-on coating film.

Example for the device of print-on coating film is the device for print-on coating film as described below, and it comprises: retainer assembly; Refill box with being arranged in retainer assembly, described in refill box and comprise: the first spool; Have the tape of coated film, coated film is arranged on the side of tape removedly, and described roll of strip is around on the first spool; With the second spool, described second spool is used for packing up tape from the first spool after coated film is transferred to predetermined surface.

Retainer assembly for the device of print-on coating film comprises the first component and second component, and described second component comprises: second component body, and described second component body is connected to the first component; Sliding part; Be arranged on the fixture on sliding part, be attached to sliding part removedly for box will be refilled; And transfer printing unit; Wherein, second component is connected to the first component, can move relative to the first member parallel to make second component, second component can occupy second component away from the open position of the first component and the second component closing position near the first component thus, wherein, can second component be attached to refill box and remove from second component in open position and refill box, and can use in closed position and refill box; Transfer printing unit is arranged on than sliding part closer to the position of the first component and contact to be fed to the band of the second spool from the first spool, the coated film brought is transferred to predetermined surface on second component body; Sliding part is connected to second component body, can be parallel to second component move relative to the direction of the parallel motion of the first component to make sliding part; And sliding part can occupy: primary importance, described primary importance and the spaced apart preset distance of transfer printing unit when second component is in an open position; And the second place, when second component is in the close position, the described second place than primary importance more away from transfer printing unit, thus, the minimum length duration more in an open position than second component when second component is in the close position with being marched to the path that the second spool is followed by transfer printing unit from first volume beam warp.

Accompanying drawing explanation

Fig. 1 shows according to an embodiment of the invention for the retainer assembly of the device of print-on coating film, wherein, the second component of retainer assembly is in the close position, wherein, component (a) is local transparent right side view, component (b) is upward view, component (c) is the sectional view on the plane A-A in figure (a), component (d) is plane, component (e) is the sectional view on the plane B-B in component (a), component (f) is front view, and component (g) is rearview;

Fig. 2 shows according to an embodiment of the invention for the retainer assembly of the device of print-on coating film, wherein, the second component of retainer assembly is in an open position, wherein, component (a) is local transparent right side view, component (b) is upward view, component (c) is the sectional view on the plane A-A in Fig. 2 (a), component (d) is plane, component (e) is the sectional view on the plane B-B in Fig. 2 (a), component (f) is front view, and component (g) is rearview;

Fig. 3 illustrates the retainer assembly shown in Fig. 1 and Fig. 2 and how to operate, wherein, component (a) is the right side view of retainer assembly, component (b) is that its left side view is (for the ease of understanding, flip horizontal retainer assembly), component (c) is that the left side view of second component is (for the ease of understanding, flip horizontal second component), wherein remove the lid of second component, component (d) is the plane of retainer assembly, and component (e) is the sectional view on the plane A-A in Fig. 3 (a);

Fig. 4 illustrates the retainer assembly shown in Fig. 1 and Fig. 2 and how to operate, wherein, component (a) is the right side view of retainer assembly, component (b) is that its left side view is (for the ease of understanding, flip horizontal retainer assembly), component (c) is that the left side view of second component is (for the ease of understanding, flip horizontal second component), wherein remove the lid of second component, component (d) is the plane of retainer assembly, and component (e) is the sectional view on the plane B-B in Fig. 4 (a);

Fig. 5 illustrates the retainer assembly shown in Fig. 1 and Fig. 2 and how to operate, wherein, component (a) is the right side view of retainer assembly, component (b) is that its left side view is (for the ease of understanding, flip horizontal retainer assembly), component (c) is that the left side view of second component is (for the ease of understanding, flip horizontal second component), wherein remove the lid of second component, component (d) is the plane of retainer assembly, and component (e) is the sectional view on the plane C-C in Fig. 5 (a);

Fig. 6 illustrates the retainer assembly shown in Fig. 1 and Fig. 2 and how to operate, wherein, component (a) is the right side view of retainer assembly, component (b) is that its left side view is (for the ease of understanding, flip horizontal retainer assembly), component (c) is that the left side view of second component is (for the ease of understanding, flip horizontal second component), wherein remove the lid of second component, component (d) is the plane of retainer assembly, and component (e) is the sectional view on the plane D-D in Fig. 6 (a);

Fig. 7 is the perspective view refilling box be combined with the retainer assembly shown in Fig. 1 and Fig. 2, wherein, the housing refilling box is not shown;

Fig. 8 is the decomposition diagram refilling box be combined with the retainer assembly shown in Fig. 1 and Fig. 2, wherein, the housing refilling box is not shown;

Fig. 9 schematically shows the perspective view how the retainer assembly shown in Fig. 1 and Fig. 2 to use as the device for print-on coating film with the combination that refills box; And

Figure 10 is the perspective view on the plane G-G in Fig. 5 (d).

Detailed description of the invention

Describe the preferred embodiments of the present invention with reference to the accompanying drawings.

Device in the present embodiment for print-on coating film comprises retainer assembly and refills box.Refill box and can be attached to retainer assembly described later removedly.Retainer assembly and the combination refilling box attaching to this are in this article for the device of print-on coating film.

First, the retainer assembly of the device being used for print-on coating film is described.

Retainer assembly 10 is configured to as depicted in figs. 1 and 2.Fig. 1 shows retainer assembly 10, and wherein, second component is in following closing position.Fig. 2 shows retainer assembly 10, and wherein, second component is in following open position.

In each of Fig. 1 and Fig. 2, component (a) is the partial perspective right side view of retainer assembly 10, component (b) is upward view, component (c) is the sectional view on the plane A-A of retainer assembly 10 in component (a), component (d) is plane, component (e) is the sectional view on the plane B-B of retainer assembly 10 in component (a), component (f) is front view, and component (g) is rearview.

Retainer assembly 10 has the first component 100 and second component 200.

Each in first component 100 and second component 200 is all formed from a resin, to have the shape of hollow substantially.The longitudinal direction that second component 200 can be parallel to the first component 100 moves between the open position away from the first component 100 and the closing position near the first component 100.

First component 100 has the first base plate 110.First base plate 110 is general rectangular plate.The forward part 110A of the first component 100 is towards its front end convergent and have the general rectangular cross section of hollow.When using at this, term " front end " refers to an end of retainer assembly 10, and in described end, the band with coated film is exposed to outer for use, and is compressed on the target surface by transfer printing unit.In this case be convenient to statement, the position (that is, the end of device) closer to the front end of retainer assembly 10 can be called nearside, and can be called distally away from the position of front end.The cross section of the rear section 110B relative with forward part 110A has the general rectangular C shape profile of upward opening.The end face of forward part 100A is called the first top panel 120.

The first right side wall 130 extended from the right-hand member of the first base plate 110 forms the right side between forward part 100A and rear section 110B of the first component 100.The first left side wall 140 extended from the left end of the first base plate 110 forms the left side between forward part 100A and rear section 110B of the first component 100.

First right side wall 130 is approximately 1/3rd of the height at the distalmost end place at forward part 100A at the height at 110B place, rear section.Height reduces gradually towards the rear end of the first component 100.A part for the profile of the first left side wall 140 is slight curving, but the height of the first left side wall 140 is along its whole length substantially constant between the distalmost end and the distalmost end of rear section 110B of forward part 100A.In other words, the first left side wall 140 has the shape be connected as hemispherical and rectangle.Therefore, the first left side wall 140 the part of position corresponding to rear section 110B higher than the first right side wall 130 in the part of position corresponding to rear section 110B.The profile projected upwards at the top of the first left side wall 140 meets the profile of the sidepiece refilling box.As hereafter more described in detail, the top surface portion refilling box is given prominence to, and is pointed to be placed on to refill on box to allow user during convenient user's operative installations.

First component 100 has open front 100A1 at the front end place of forward part 100A.Transfer printing unit described later is stretched out outside (namely giving prominence to) to the first component 100 from the first component 100 by open front 100A1.

First base plate 110 of the first component 100 has the opening 111 being formed in wherein and being positioned at the position of the rear end of approaching device.Opening 111 is rectangular slot in the present embodiment, but is not limited thereto.When second component 200 is in the close position, opening 111 is bonded with each other for making the first component 100 and second component 200, as mentioned below.

Closure member 112 is connected to forward part 100A in the lower end of open front 100A1.When the device for print-on coating film does not use, closure member 112 is for closed open front 100A1, so that the roller hiding transfer printing unit and the band of advancing thereon, otherwise roller and band will be exposed to outside by open front 100A1.Closure member 112 is hinged to the axle that is fixed to forward part 100A and can swings as shown in the arrow X in Fig. 2 (a).When closure member 112 is in the position shown in Fig. 2 (a), open front 100A1 opens.When closure member 112 move upward cross open front 100A1 time, open front 100A1 close.

Upper guiding groove 141 and lower guiding groove 142 almost run through its length and are formed in (i.e. the inner side of the first component 100) (see Fig. 1 (e), 2 (e) and 10, especially Figure 10) in the right side of the first left side wall 140.The rear end of the first left side wall 140 should not touched in the rear end of upper guiding groove 141 and lower guiding groove 142.Upper guiding groove 141 is under shed, and lower guiding groove 142 upward opening.In the present embodiment, the width of upper guiding groove 141 and lower guiding groove 142 is equal, but is not limited thereto.Lower guiding groove 142 is positioned at immediately below guiding groove 141.

Stage portion 143 is formed on the right side of the first left side wall 140.Stage portion 143 is inside as crank stretches out.

Second component 200 has sliding part supporting member 210 and sliding part 220.Also sliding part supporting member 210 and sliding part 220 is shown in Fig. 3 to Fig. 6.

Sliding part supporting member 210 has the shape of tabular.More specifically, sliding part supporting member 210 have general rectangular supporting body 211 and from supporting body 211 towards the support arm 212 that the end of device stretches out.When device is placed on flat surfaces, support arm 212 general horizontal extends, and contacts bottom it with this flat surfaces.

The thickness of the top edge of supporting body 211 corresponds to the width of upper guiding groove 141, and the thickness of the lower limb of supporting body 211 corresponds to the width of lower guiding groove 142.The height of supporting body 211 corresponds to the distance between upper guiding groove 141 and lower guiding groove 142 substantially.The top edge of the supporting body 211 of sliding part supporting member 210 and lower limb are received by upper guiding groove 141 and lower guiding groove 142 respectively.Therefore, supporting body 211 (and correspondingly, sliding part supporting member 210 or second component 200) can seesaw (namely relative to the first component 100, near or away from the first component 100), wherein, respectively along top edge and the lower limb of upper guiding groove 141 and lower guiding groove 142 guide support body 211.By this way, the longitudinal direction along device between the open position that second component 200 is shown in Figure 1 and the closing position shown in Fig. 2 moves.Supporting body 211 is covered by the first left side wall 140, and outside supporting body 211 at least can not be exposed to when second component 200 is in the close position.

Transfer printing unit 230 is attached to the end of support arm 212.Transfer printing unit 230 has supporting member 231 and cylindrical roll 232, and the length of described cylindrical roll 232 is slightly longer than the width of the tape (as mentioned below) of advancing on roller 232.Supporting member 231 has rectangle C shape in perspective view seen from above, wherein, towards the side mouth in outside.In the opening of rectangle C shape, roller 232 is rotatably supported by supporting member 231 in its end.Roller 232 is for being pressed against band on target surface and supply band.

Supporting body 211 is connected to curved rear wall 213 along its far-end.Rear wall 213 extends to the right from supporting body 211.Rear wall 213 is connected to the second base plate 214 along its lower end.Second base plate 214 extends the general rectangular plate to device end.Closer to end and on the sidepiece relative with rear wall 213, tongue 215 is arranged on the end of the second base plate 214.Tongue 215 to the second base plate 214 is narrower and thinner.On the sidepiece relative with the second base plate 214, fin 216 is arranged on the end of tongue 215.Fin 216 stretches out downwards from tongue 215.

Second base plate 214 is made up of elastic resin material and is connected to rear wall 213 in side.Second base plate 214, therefore, it is possible to as " fin " on fulcrum " swing ", engages to make fin 216 with the opening 111 in the first component 100 and is separated.More specifically, when second component 200 in an open position moves to closing position, fin 216 to slide in opening 111 and engages with opening 111.Utilize the joint between fin 216 and opening 111, second component 200 in the close position is fixed to the first component 100 and can not moves backward.

Fin by means of only pressing second base plate 214 makes that fin 216 is inwardly displaced just can realize being separated of second component 200 and the first component 100.By pressing the second base plate 214, its forward part (namely having the tongue 215 of fin 216), slightly towards internal shift, is separated with opening 111 to make fin 216.Then, second component 200 can move backward away from the first component 100.

Capping unit 217 is attached to the rear end of supporting body 211.Capping unit 217 has right cover plate 217A and top blind flange 217B.Right cover plate 217A has general rectangular shape and is arranged to substantially vertical orientation.Right cover plate 217A along its lower end the right side being connected to the second base plate 214 at least partially and be connected to the right side of rear wall 213 along its rear end.Top blind flange 217B has the shape of general rectangular and is arranged to the orientation of general horizontal.Top blind flange 217B is connected to the top side of right cover plate 217A along its right-hand member and is connected to the top side of rear wall 213 along its rear end.

Supporting body opening 211A is formed in the mid portion of supporting body 211.Sliding part 220 is assemblied in (component (c) of Fig. 3 to Fig. 6) in supporting body opening 211A.

Upper notch 211A1 is formed in the lower surface (outer part) of the top edge of supporting body opening 211A.Lower recess 211A2 is formed in the upper surface (outer part) of the lower limb of supporting body opening 211A.Upper notch 211A1 and lower recess 211A2 extends along the whole length of supporting body opening 211A.Sliding part 220 has upper thin edges and lower thin edges.The upper thin edges of sliding part 220 is received by the gap between upper notch 211A1 and the first left side wall 140.Lower thin edges is received by the gap between the first left side wall 140 and lower recess 211A2.Therefore sliding part 220 can seesaw relative to supporting body 211 or sliding part supporting member 210 or second component 200 longitudinal direction along second component 200, wherein, in the corresponding gap just described, guides upper end lower limb.The different piece of sliding part 220 has different thickness.More specifically, the rear section of sliding part 220 is thicker than the remainder received by upper notch 211A1 and lower recess 211A2.Rear section (inside towards retainer assembly 10) is inwardly given prominence to, for guaranteeing that when sliding part 220 moves to its rear end in supporting body opening 211A thicker part is against above-mentioned stage portion 143.

That is the first gear 221, second gear 222 and idler gear 223 are rotatably attached to the right surface of sliding part 220 to three gears.

When refilling box and dropping in retainer assembly, the first gear 221 engages the first spool refilling box described later.First gear 221 rotates together with the first spool.Equally, the second gear 222 is meshed with the second spool refilling box and rotates together with the second spool.Idler gear 223 is between the first gear 221 and the second gear 222 and be meshed with described first gear 221 and described second gear 222.Idler gear 223 is used as idle pulley to change the direction of rotation of driven gear, thus keeps the first gear 221 identical with the direction of rotation of the second gear 222.Second gear 222 engages idler gear 223 on rear tooth surface, is comprising this rear tooth surface any attached not shown of Fig. 1 (a) and 2 (a).

The component be made up of hollow circuit cylinder axle 221B and three foliaceous elongator 221A is arranged in the right lateral surface of the first gear 221, and described three foliaceous elongator 221A extend radially outwardly from cylinder axis 221B.The axle of the first gear 221 is inserted in cylinder axis 221B, makes them coaxially to each other.Three foliaceous elongator 221A are equidistantly spaced apart around cylinder axis 221B.Foliaceous elongator 221A is used for connecting the first gear 221 and the first spool in mode described later.The axle of cylinder axis 221B and the first gear 221 can rotate relative to one another.As mentioned above, the axle co-axial interconnect of cylinder axis 221B and the first gear 221 and they rotate with identical synchronization in normal state.The power being applied to the specific size of cylinder axis 221B and the first gear 221 causes one in them to slide relative to another.As a result, the first gear 221 and the second gear 222 limited swivel and automatically regulate the rotation of the second spool.

Interlockable teeth 222A is arranged in the right lateral surface of the second tooth 222 around the axle of the second tooth 222.Interlockable teeth 222A is used for connecting the second gear 222 and the second spool in aftermentioned mode.

Retainer assembly 10 is described above.

Refill box 30 to be arranged on as shown in Figures 3 to 6 in retainer assembly 10, so that as the device being used for print-on coating film.

Refill box 30 and there is the housing 310 be made up of resin material.Housing 310 originates in the lacrimal crooked outline being similar to butt of narrow front end having from the perspective view viewed from sidepiece.Housing 310 broadens backward gradually, subsequently in its back-end near slightly thinning.The parts refilling box 30 are included in housing 310.Housing 310 is transparent or semitransparent, but is not limited thereto.The transparent or semitransparent user of making can observe and refill in box 30 the how many band of also residue.Housing 310 has diapire, right side wall and roof, does not have antetheca, left wall and rear wall.

Fig. 7 shows and refill box 30 except housing 310.Fig. 8 is the decomposition diagram refilling the parts of box 30 shown in Fig. 7.

Refill box and have hollow cylindrical first spool 320, tape 330 is wound on this first spool 320 before the use.Can be traditional band with 330, it has fixed width and is arranged in the coated film (not shown) on side.Coated film in the present embodiment is the coating for correcting mistakes, and is used as the replacement scheme of correction fluid when being placed on predetermined target surface.Coated film can be the coating that other material any such as adhesive or glue are formed.March to the roller 232 of transfer printing unit 230 from the first spool 320 with 330, wherein coated side is outside.

Multiple groove 321 is formed in the inner surface of the first spool 320.When box 30 will be refilled by the foliaceous elongator 221A on the first gear 221 of catch-holder assembly 10 to be arranged in retainer assembly 10, groove 321 is for connecting the first gear 221 and the first spool 320, wherein, one in each foliaceous elongator 221A engaging groove 321.After the first gear 221 is connected to the first spool 320, the first gear 221 rotates with identical rotating speed during being in normal condition with the first spool 320.If excessive power to be applied to the first gear 221 and the first spool 320, then the cylinder axis 221B with the foliaceous elongator 221A of attachment slides relative to the first gear 221.As a result, by band 330 be applied to the first spool 320 tension force keep constant.This means that band 330 is in constant tensioning state.

Refill box 30 and also there is the second spool 340.Second spool 340 for packing up used band after by transfer printing unit 230 coated film being transferred to predeterminated target surface.Second spool 340 is Rotational Symmetry by three arms 341 and three locking blades 342.Arm 341 is in their base portion place interlocking, that is, they extend from the center of the second spool 340.Locking blade 342 is in fig. 8 from the free end of respective arms 341 to downward-extension.An end (front end) with 330 is attached to one in locking blade 342.When the second spool 340 rotates, band 330 is wound on locking blade 342.When refilling box 30 and being arranged in retainer assembly 10, the inward flange of each locking blade 342 is inserted between the interlockable teeth 222A that is formed in the second gear 222, to interconnect the second gear 222 and the second spool 340.Under the second gear 222 and the intermeshing situation of the second spool 340, the second gear 222 and the second spool 340 are with the rotation of identical rotating speed and therebetween without any slip.

First spool 320 and the second spool 340 are relative to each other positioned in retainer 350, as shown in Figure 8.Retainer 350 has the first hole 351 and the second hole 352, and described first hole 351 and the second hole 352 are substantial circular.Utilize particular organization to be rotatably inserted in the first hole 351 by the upper end of the first spool 320 in Fig. 7 and Fig. 8, described particular organization is used for preventing the first spool 320 from sliding off hole 351.The upper end of the second spool 340 in Fig. 7 and Fig. 8 is rotatably inserted in the second hole 352.(because half path length in arm 341 to the second hole 352 of the second spool 340, so the second spool 340 can not be deviate from from retainer 350).Determine the relative position between the first spool 320 and the second spool 340 thus.Relative position between first spool 320 and the second spool 340 corresponds to the relative position between the first gear 221 and the second gear 222.Therefore, when refilling box 30 and dropping in retainer assembly 10, the first gear 221 and the second gear 222 can be connected respectively to the first spool 320 and the second spool 340 simultaneously.

Composition graphs 3 to Fig. 6 mainly describes retainer assembly 10 as above or the using and operating of device for print-on coating film.

In each of Fig. 3 to 6, component (a) is the right side view of retainer assembly, component (b) is that its left side view is (for the ease of understanding, flip horizontal retainer assembly), component (c) is that the left side view of second component is (for the ease of understanding, flip horizontal second component), wherein remove capping unit 27, component (d) is the plane of retainer assembly, and component (e) is the plane A-A in figure (a), the sectional view on B-B, C-C or D-D.

In order to use the device for print-on coating film, refilling box 30 and being arranged in retainer assembly 10, so as to be provided for print-on coating film, the device that comprises retainer assembly 10.

Be arranged in retainer assembly 10 to refill box 30, second component is in an open position as shown in Figure 3.And then cartridge 30 drops in retainer assembly 10.It should be noted that when second component 200 is in an open position, sliding part 220 is in the foremost position place in the supporting body opening 211A in second component 200.

Retainer assembly 10 is fixed in order to box 30 will be refilled, foliaceous elongator 221A on first gear 221 of retainer assembly 10 is inserted in the corresponding groove 321 in the first spool 320, and the inward flange of three locking blades 342 of the second spool 340 is inserted between the corresponding interlockable teeth 222A of the second gear 222 of retainer assembly 10.By this way, the first gear 221 engages the first spool 320, and the second gear 222 engages the second spool 340.

Be arranged in retainer assembly 10 in order to box 30 will be refilled, slightly pull out band 330 from the first spool 320, pass through on the roller 232 of transfer printing unit 230 to make band 330.Be easier to when making band 330 slightly relax be arranged on refilling box 30 in retainer assembly 10.After finishing the installation, to be partly wound on roller 232 at bottom margin from the band 330 of unwinding on the first spool 320 and to be stowed on the second spool 340 at top place.

Next, user's one hand keeps the first component 100 and with another hand, second component 200 is travelled forward.Therefore, second component 200 is closer to closing position.

When second component 200 travels forward, also therefore change the position of the sliding part 220 that supporting body 211 carries.It should be noted that sliding part 220 itself does not now move.On the contrary, the supporting body 211 that sliding part 220 only follows second component 200 at its rigging position place travels forward together.Sliding part 220 is still in its foremost position place in supporting body opening 211A.

After second component 200 travels forward to a certain degree, first right side wall 130 and first top panel 120 of the forward part 100A of front end impact first component 100 of the housing 310 refilling box 30 in second component 200.Then, the sliding part 220 (it is fixed to the first and second gears 221 and 222 being connected respectively to the first and second spools 320 and 340) refilling box 30 is connected on the forward part 100A of the first component 100.This makes sliding part 220 stop moving forward (especially, see Fig. 4 (a) and Fig. 4 (b)).The parts (such as, supporting body 211, support arm 212 and transfer printing unit 230) not being fixed to the second component 200 of sliding part 220 move on.As a result, sliding part 220 is relative to (distad) displacement backward of these parts.

As mentioned above, the sliding part 220 in the present embodiment is made to stop shifting forward by being bonded with each other of a part of the part and the first component 100 that refill box 30.But, can stop shifting forward by being bonded with each other between a part for sliding part 220 and a part for the first component 100.Such modification can be realized simply by the design revising the first component 100.

Second component 200 arrives at the closing position shown in Fig. 5.

Be less than the position of the rear end refilling box 30, when the front end of capping unit 217 bumps against when refilling the stage portion of the upper formation of box 30 (stopping), second component 200 stops travelling forward.For print-on coating film device (it is by retainer assembly 10 and refill box 30 and form) therefore along on the right side of it, left side, top and lower surface have smoothed curve profile.Design retainer assembly 10 thus and refill box 30.Except except the narrow position of the end folding band 330 of transfer printing unit 230, the band 330 marching to the second spool 340 via transfer printing unit 230 from the first spool 320 all can not be exposed to outside the device for print-on coating film.

In this case, sliding part 220 is in the complete retrieving position in supporting body opening 211A.Be fixed to the transfer printing unit 230 of supporting body 211 apart from sliding part 220 farthest (that is, compared with the position in Fig. 3, transfer printing unit 230 is positioned at more forward position).As mentioned above, the first and second spools 320 and 340 are connected to sliding part 220 respectively by the first and second gears 221 and 222.Result, the minimum length marching to via the roller 232 of transfer printing unit 230 path that second spool 340 is followed from the first spool 320 with 330 is longer than the minimum length obtained when second component 200 is in an open position, and its difference equals the twice of the distance that transfer printing unit 230 advances relative to sliding part 220.The band 330 loosened when second component 200 is in an open position is by roller 232 pushed forward and be tensioned because second component 200 moves to closing position.The roller 232 of transfer printing unit 230 stretches out from the open front 100A1 the first component 100.Except feeling except contacting with each other between the stage portion less than its rear end of the front end of capping unit 217 and the position that refills box 30, by exposing roller 232 via the open front 100A1 in the first component 100, user just can confirm that second component 200 is in place in closed position.

In this state, for the device ready for use of print-on coating film.

Upper and device is moved and the lower surface of device uses the device for print-on coating film towards the direction of motion by transfer printing unit 230 being pressed against predeterminated target surface S (such as, the surface of the scraps of paper) as shown in Figure 9.

Owing to rubbing with target surface S, device is therefore made to cause band 33 to move swimmingly around rotating roller 232 along target surface S athletic meeting.Then the coated film M on the side of 330 is with namely to be transferred to target surface S.

Because band 330 tensionings always, so the motion of band 330 causes the first and second spools 320 and 340 to rotate.By idler gear 223, first and second spools 320 to be rotated along identical direction with 340 and be connected respectively to the first and second gears 221 and 222, described first and second gears 221 and 222 keep predetermined rotating ratio, to make spool can not from corresponding gear slippage.As a result, the length always equaling the band 330 packed up on the second spool 340 from the length of the band 330 of the first spool 320 is supplied.This means when band 330 moves, band 330 can not over-tension or loosen.Be stowed on the second spool 340 along with supplying more band from the first spool 320 and being more with, radial distance between the center of the first spool 320 and the outermost layer of band wound thereon reduces, and the radial distance between the outermost layer of the center of the second spool 340 and thereon used band increases.Therefore, reduce from the rotation amount needed for the band that the first spool 320 is supplied, and band is stowed in rotation amount increase required on the second spool 340.If do not carry out any operation to compensate the change of this rotation, then the second spool 340 will be caused to pull band 330 too much.When excessive tension force is applied to band 330, can slide between cylinder axis 221B and the first gear 221.By this slip, cylinder axis 221B continues to rotate with the first spool 320 being fixed on this, and the first gear 221 of synchronous rotary and the second gear 222 are easier to due to the power applied thereon stop.Similarly, the power for making it stop the rotation also is received with the second spool 340 of the second gear 222 synchronous rotary.In brief, the first spool 320 continues to rotate, and the second spool 340 is owing to being with 330 and tend to be forced to stop the rotation.Above-mentioned slip is for compensating from the difference between rotating speed that the rotating speed of strip winding 330 and band 330 be stowed in the second spool 340 separated by the first spool 320.Therefore the increase of spool rotating speed and reduction is adapted to and the tension force be applied on band 330 recovers normal.

When for print-on coating film device along target surface S move stop time, also stop coated film M to be applied to target surface S.

When not using the device of print-on coating film, the upwards free end of quick mobile closure member 112, so that the roller 232 covering open front 100A1 with closure member 112 and stretched out by open front 100A1.This during the non-use periods of the device for print-on coating film can boundary belt 330 in order to avoid with bad.

In order to reuse the device for print-on coating film, remove closure member 112 from open front 100A1.

The device for print-on coating film can be used as mentioned above.Along with the device reused for print-on coating film, finally exhaust the band 330 on the first spool 320.Then, replacing refills box 30.

Refill box 30 to change, second component 200 motion turns back to open position.Sliding part 220 along with the motion backward of the supporting body 211 of second component 200 to backward shift.Now, sliding part 220 still remains on the complete retrieving position in supporting body opening 211A.

After second component 200 moves backward and acquires a certain degree, the stage portion 143 of the first left side wall 140 of rear-end collision first component 100 of sliding part 220.This makes sliding part 220 stop moving backward, but the parts not being fixed to the second component 200 of sliding component 220 continue to move backward.As a result, sliding part 220 is relative to these parts (proximad) mobile (Fig. 6) forward.

Second component 200 further backward movement cause the state of the device for print-on coating film shown in Fig. 3.As mentioned above, this state corresponds to second component 200 state in an open position.In addition, as mentioned above, sliding part 220 is in the foremost position in supporting body opening 211A.Because sliding part 220 is in the foremost position in supporting body opening 211A, so the minimum length that band 330 marches to via the roller 232 of transfer printing unit 230 path that second spool 340 is followed from the first spool 320 is less than the minimum length obtained when second component 200 is in closing position as shown in Figure 5.Be relaxed certain amount with 330, this certain amount corresponds to the decrease of the minimum length being with followed path of advancing.Therefore, when user remove refill box 30 time, transfer printing unit 230 can not catch band 330.

After removing from retainer assembly 10 and refilling box 30, put into retainer assembly 10 with by the new box that refills.Program is described above.

As mentioned above, by being bonded with each other between the part of sliding part 220 and a part for the first component 100, the sliding part 220 in the present embodiment is stopped to backward shift.But, also can by refilling being bonded with each other and stopping between a part for box 30 and a part for the first component 100 to backward shift.Such modification can be realized simply by the design revising the first component 100 or refill box 30 or the first component 100 and refill box 30.

Claims (7)

1., for a retainer assembly for the device of print-on coating film, described retainer component structure becomes and refills box and be combined, described in refill box and comprise: the first spool; Tape, described tape has the coated film be arranged in releasedly on the side of tape, and described roll of strip is around on described first spool; With the second spool, described second spool is used for packing up tape from described first spool after coated film is transferred to predetermined surface, and described retainer assembly comprises:

First component; With

Second component, described second component comprises:

Second component body, described second component body is connected to described first component;

Sliding part;

Fixture, described fixture is arranged on described sliding part, for the described box that refills is attached to described sliding part removedly; With

Transfer printing unit; Wherein

Described second component is connected to described first component, to enable described second component relative to described first member parallel motion, described second component can occupy thus: open position, and in described open position, described second component is away from described first component; And closing position, in described closed position, described second component is near described first component, wherein, the described box that refills can be attached to described second component and refill box described in removing from described second component in described open position, described in can using in described closed position, refill box;

Described transfer printing unit is arranged on and contacts, the coated film brought is transferred to predetermined surface with the band being supplied to described second spool from described first spool closer to the position of described first component than described sliding part on described second component body;

Described sliding part is connected to described second component body, is parallel to the direction motion of described second component relative to described first member parallel motion to enable described sliding part; And

When described second component is in described open position, described sliding part can occupy the primary importance with the spaced apart preset distance of described transfer printing unit, and when described second component is in described closing position, described sliding part can occupy the second place, the described second place than described primary importance more away from described transfer printing unit, thus, the minimum length being marched to the path that described second spool is followed by described transfer printing unit from described first volume beam warp is with to be in described open position duration when described second component is in described closing position than described second component.

2. retainer assembly according to claim 1, also comprises:

First locking element, described first locking element is used for incompatiblely preventing described sliding part from moving to described first component by connecting with described sliding part and the described part refilling box; With

Second locking element, described second locking element is used for incompatiblely preventing from described sliding part from moving leaving described first component by connecting with described sliding part and the described part refilling box, wherein:

When described sliding part does not engage with described first blocking element or described second blocking element, described sliding part is shifted together with described second component, and wherein:

Between described second component is from described open position to described closing position moving period sometime, described sliding part engages with described first locking element, and between described second component is from described closing position to described open position moving period sometime, described sliding part engages with described second locking element.

3. retainer assembly according to claim 2, wherein, at least one in described first locking element and described second locking element is arranged on described first component or in described first component.

4. retainer assembly according to claim 1, wherein, described first component has the opening being formed in its end, described end is positioned at apart from described second component position farthest, and when described second component is in described closing position, described transfer printing unit exposes from described opening.

5. retainer assembly according to claim 1, wherein, described first component and described second component are configured to refill box at least partially described in encapsulating, to make when described second component is in described closing position, outside band is not exposed to.

6., for a device for print-on coating film, comprising:

Retainer assembly; With

Refill box, described in refill box and be arranged in described retainer assembly, described in refill box and comprise: the first spool; Tape, described tape has the coated film be arranged in releasedly on the side of tape, and described roll of strip is around on described first spool; With the second spool, described second spool is used for packing up tape from described first spool after coated film is transferred to predetermined surface, and described retainer assembly comprises:

First component; With

Second component, described second component comprises:

Second component body, described second component body is connected to described first component;

Sliding part;

Fixture, described fixture is arranged on described sliding part, for the described box that refills is attached to described sliding part removedly; With

Transfer printing unit; Wherein

Described second component is connected to described first component, to enable described second component relative to described first member parallel motion, described second component can occupy thus: open position, and in described open position, described second component is away from described first component; And closing position, in described closed position, described second component is near described first component, wherein, the described box that refills can be attached to described second component and refill box described in removing from described second component in described open position, described in can using in described closed position, refill box;

Described transfer printing unit is arranged on and contacts, the coated film brought is transferred to predetermined surface with the band being supplied to described second spool from described first spool closer to the position of described first component than described sliding part on described second component body;

Described sliding part is connected to described second component body, is parallel to the direction motion of described second component relative to described first member parallel motion to enable described sliding part; And

When described second component is in described open position, described sliding part can occupy the primary importance with the spaced apart preset distance of described transfer printing unit, and when described second component is in described closing position, described sliding part can occupy the second place, the described second place than described primary importance more away from described transfer printing unit, thus, the minimum length being marched to the path that described second spool is followed by described transfer printing unit from described first volume beam warp is with to be in described open position duration when described second component is in described closing position than described second component.

7. one kind refills box for what be combined with retainer assembly according to claim 2, wherein, at least one in described first locking element and described second locking element is configured to engage with the described part refilling box, described in refill box and comprise:

At least one engaged element, at least one engaged element described can engage with in described first locking element or described second locking element, and this first locking element or the second locking element are configured to engage with the described part refilling box.