US3596596A - Guide means for traveling roller in portable imprinters - Google Patents

Abstract

A portable imprinter is disclosed, the construction thereof being particularly compact. The imprinting head moves along a pair of tracks disposed at opposite sides of the print bed, the head being guided along the tracks by wheels and guide members disposed on the opposite sides of the bottom thereof to respectively minimize vertical motion of the head with respect to the print bed and rotational motion with respect to an imaginary vertical axis passing through the head. The printing plates are placed directly on the bed and appropriate means are provided for securing them to the bed. Means are also provided for securing the document over the print bed, these means becoming operative after the imprinting head has left its rest position. Also provided are means disposed within the imprinting head for adjusting the initial clearance between the roller platen and the print bed, these means being operative to move the roller platen shaft downwardly against the upwardly acting force exerted by a spring disposed within the head. Means are also disclosed for raising the roller platen upwardly from the print bed after an imprinting operation, the roller platen being lowered to its print position immediately upon its return to the rest position of the head. Means attached to the imprinting head and projecting from the front thereof are also provided for holding the document in place during the imprinting operation.

Description

United States Patent [72] lnventor Herbert G. Chillingworth Annandale, Va.

[21] Appl. No. 780,664

[22] Filed Dec. 3, 1968 [45] Patented Aug. 3, 1971 (73] Assignee Farrllgton luineae Machines Corporation Springfield, Va.

[54] GUIDE MEANS FOR TRAVELING ROLLER INPORTABLE IMPRIN'IERS 9 Claims, 14 Drawing F1 [52] U.S. Cl. 101/269 [51] Int. Cl. B411 3/20, 1341f 3/56 [50] Field 01 Search. 101/269, 274, 55, 56, 250

(56] References Cited UNITED STATES PATENTS 3,486,447 12/1969 Stocker l0l/269 Primary Examiner-William 8. Penn Attorney-Gerald .l. Ferguson. Jr.

ABSTRACT: A portable imprinter is disclosed, the construction thereof being particularly compact. The imprinting head moves along a pair of tracks disposed at opposite sides of the print bed, the head being guided along the tracks by wheels and guide members disposed on the opposite sides of the bottom thereof to respectively minimize vertical motion of the head with respect to the print bed and rotational motion with respect to an imaginary vertical axis passing through the head. The printing plates are placed directly on the bed and appropriate means are provided for securing them to the bed. Means are also provided for securing the document over the print bed, these means becoming operative after the imprinting head has left its rest position. Also provided are means disposed within the imprinting head for adjusting the initial clearance between the roller platen and the print bed, these means being operative to move the roller platen shaft downwardly against the upwardly acting force exerted by a spring disposed within the head. Means are also disclosed for raising the roller platen upwardly from the print bed after an imprinting operation, the roller platen being lowered to its print position immediately upon its return to the rest position of the head. Means attached to the imprinting head and projecting from the front thereof are also provided for holding the document in place during the imprinting operation.

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SHEET '4BF 5 PATENTED AUG312m SHEET 5BF 5 INVENTUR #596587 fi/mu/vfn afnl BY Z 7 2 ATTO E Y BACKGROUND OF THE INVENTION This invention relates to imprinters for use with credit cards and the like, and, in particular, to portable imprinters of the above type.

Although the imprinting art is well established with the use of credit cards and the like being widespread, the need for an adequate portable imprinter has not yet been met. This need has arisen in many situations such as airlines, for example, where the imprinter operator such as an airline hostess goes from customer to customer rather than the customer coming to the sales person. Further, where a deliveryman or the likes goes from one house to another is illustrative of another of the many instances where the imprinter must be taken to the person being dealt with. By its very nature, a portable imprinter must necessarily be light, compact, easily carried, while at the same time being able to effectuate high quality imprints since,

the imprinted document such as a sales ticket will in many instances, be eventually read by optical character readers which require a high quality of print to insure optimumoperation thereof.

SUMMARY OF THE INVENTION Thus, it is a primary purpose of this invention to provide an improved portable imprinter.

It is a further object of this invention to provide such an im printer including means for adjusting the clearance of the roller platen with respect to the print bed by means disposed within the imprinting head.

It is a further object of this invention to provide such an imprinter including means for raising the roller platen with respect to the print bed so that the roller platen will be elevated during the return stroke, the roller platen being lowered to its print position immediately upon its return to the rest position for the imprinting head.

It is a further object of this invention to provide" such an imprinter whereby the printing plate such as a credit card is placed directly onto the print bed rather than an anvil.

It is a further object of this invention to provide an imprinter of the above type including means for securing'the document over the print bed, these means becoming operative immediately after the imprinting head is moved from its rest position.

It is a further object of this invention to provide an imprinter of the above type including a means projecting from the' imprinting head for maintaining the document in place as the imprinting operation progresses.

Other objects and advantages of this invention will become apparent upon reading the appended claims in conjunction with the following detailed description and the attached drawmg.

BRIEF DESCRIPTION OF THE DRAWING FIGS. 1, 2 and 3 are respectively plan, elevation, and end views of an illustrative embodiment of the portable imprinter of this invention.

FIGS. 4 and 5 are cross-sectional views taken on the lines 4-4 and 5-5 respectively of FIG. 1.

FIG. 6 is a cross-sectional view taken on the line 6-6 of FIG. 5.

FIG. 7 is a top view of an illustrative embodiment of the imprinting head of this invention.

FIG. 8 is a cross-sectional view of an illustrative embodiment taken along the line 8-8 of FIG. 7 of the document securing means of this invention.

FIGS. 9 and 10 are cross-sectional views taken on lines 9-9 and 10-10 respectively of FIG. 1.

FIG. I l is a side view of the imprinting head in FIG. 7.

FIG. 12 is an isometric illustration of a typical yoke in accordance with this invention.

v hollow portions 1-18 and I20 as can be seen in FIGS. 4, 5 and' FIGS 13A and 13B are diagrammatic illustrations showing one aspect of the operation or this invention.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THEINVENTION standing members 110 and 112 are provided to restrict the area in which the sales document can be placed, this area being more than adequatefor most applications. In FIG. 5 it can be seen that raisedportions 114 and 116 are respectively connected to members 1l0 and 112, these raised portions rising' aboveprint bed 102. 1

As can be seen in FIG. 1, the raisedportion 116 is shaped difl'erently'from that of portion ll4,portion 116 including 9. Further, in some instances it is preferable to makeportion 116 from a plastic material having properties similar to plexiglass although a material such 'as'aluminum may also be used. These hollow portions assist in securingcards 104 and 106 in place during an imprinting operation. Generally indicated at 122 in FIGS. 1 and 9 is structure for insuring that there is minimal movement of the cards in the direction of travel of the imprinting head during the imprinting operation, this structure not being described in detail. Thecards 104 and 106 are further removably secured to thebed 102 by spring clips I24 and I26.'Clip I24 is shown in detail in FIG. 10 securing tiallyenclosed on the top thereof byextensions 136 and 138,

both of which are disposed along the entire length of the imprinter. The imprintinghead 245 includes ahousing 200 having vertically disposedsidewalls 256 and 258 upon which are mountedfour wheels or bearings 202-208 as can be seen in FIG. 7. In FIG. 5 are shownwheels 204 and'208 and, as can be seen, the extensions I36 and 138 minimize movement of these wheels together with the head in the vertical direction because the diameter of the wheels is only slightly less than the distance between the top and bottom surfaces of the enclosed portions of the track.

Means for minimizing rotational movement of the head through an imaginary axis extending vertically through the head and indicated at 222 in FIG. 7 .is minimized by appropriate means. As can be seen in FIG. 11, there is provided at the lower portion of housing 200 aguide member 210, anothersuch guide member 212 being provided at the opposite side of thehousing 200. These guides are preferably made from a material such as nylon. Theguides 210 and 212 are respectively provided with outwardly extendingprojections 214, 216, and 218, 220, as can be seen in FIG. 7. Further, shown in dashed lines are thetracks 132 and 134. It can be seenthat any tendency for the head to rotate about the imaginary vertical-axis 222 is minimized because the horizontal dimension of the tracks is only slightly greater than that of theguides 210 and 212. Further, these guide members keep the surfaces of traclts clean since they slide along these sur-A handle 250 is shown in FIGS. 1--3, this handle being snugly fitted over the head 245 as is indicated in FIG. 4. In particular, the inner sides of thehandle 250 are substantially flush with the outer sides of thehousing 200, this being indicated in FIG. 6 where the sides 252 and 254 (indicated by dashed lines) ofhandle 250 are disposed immediately adjacent thesides 256 and 258 (shown in dotted lines) of thehousing 200. As can be seen in FIG. 4 thehandle 250 includes agrooved portion 260 which permits the operator to insert her fingers therein and move the head across theprint bed 102.

Referring to FIGS. 4, 5, 6, l1, and 12, the structure necessary to effectuate an imprint is shown. Disposed between theside legs 256 and 258 ofhousing 200 areshafts 262 and 264,

the handle sides 252 and 254 maintaining these shafts in the position shown in FIG. 6 because of the flush mounting of thehandle 250 over thehead 200, as stated hereinbefore.

As can best be seen in FIG. 12, a yoke generally indicated at 266 is rotatably mounted aboutshaft 262, the yoke being rotatably mounted so as to allow theroller platen 268 to be raised from the print bed surface during the return stroke of the imprinting head to the rest position shown in FIG. 1. Theroller platen 268 is not shown in FIG. 12 for the purpose of illustrating more clearly the operation of the imprinter; however, theshaft 276 upon which the roller platen is mounted is shown.Yoke 268 has twoside legs 270 and 272, these side legs being connected together at the bottom thereof byplate 274. Mounted upon theshaft 264 is asleeve 278 having acammed surface 280, the cammed surface corresponding to a straight-edged truncation of one side of thesleeve 278. Although shown as a solid sleeve in FIG. 12, it is to be understood that this sleeve may be so formed as to provide a circularly grooved portion about the middle thereof leaving the cammed surfaces at the ends of the sleeve. Awire spring 282 is connected underneath theshaft 262 at 284, wound about theshaft 264 at 286 and connected underneath theshaft 276 at 288. Although not shown in FIG. 12, anotherspring 283 is disposed at the other side ofsleeve 278, as can be seen in FIG. 6,spring 283 performing the same function asspring 282. Theside legs 270 and 272 are provided with furtherU-shaped cuts 290 and 292 for receiving theshaft 264. Further, theside legs 270 and 272 are provided with furtherU-shaped cuts 294 and 296 for receiving theroller platen shaft 276.Shaft 262 is fixedly mounted with respect to thehousing 200 which in turn is capableof only translational motion with respect to theprint bed 102. Thus, the action ofsprings 282 and 283 is effective to hold theshaft 264 downwardly withincuts 280 and 282 andshaft 276 upwardly withincuts 294 and 296.

Disposed at the ends ofshaft 264 arefingers 298 and 300 as can be seen in FIG. 5. However,only finger 298 is shown in FIG. 12 for purposes of illustration. Also disposed on the outer sides of theextensions 110 and 112 of FIG. 1 areposts 302 308. In FIG. 12 only theposts 302 and 306 are shown in relation to thetrack 134.Shaft 264 is rotatably mounted with respect tohousing 200 and thus, when the head is in the rest position shown in FIG. 12, thefinger 298 is rotated in the direction shown at the left of FIG. 12 while after the head has traversed the printing bed, thefinger 298 is rotated to the position shown at the right of FIG. 12, the finger at thistime engaging post 306. Thefinger 298 always remains on the inside of theposts 302 and 306 as indicated in FIG. 12. That is, thefingers 298 and 300 are prevented from moving to the outer side ofposts 302 and 308 because of stops 310-316 disposed at theendl of thetracks 132 and 134 as can be seen in FIG. 1. These stops are so positioned as to prevent the head from further movement and thereby insure that thefingers 298 and 300 remain inside the posts 302-308, as indicated in FIG. 12. Also pins 311 and 313 are disposed on the inner side ofside leg 256 ofhousing 200, to prevent thefinger 298 from rotating completely about theshaft 264 upon the moment of impact with theposts 302 and 306. Thepins 311 and 313 are diagrammatically indicated in FIG. 12. Similar pins are disposed onside leg 258 ofhousing 200 but not shown.

When thefinger 298 is positioned as indicated at the left of FIG. 12, the cammed sleeve is positioned with respect to theplate 274 ofyoke 266 as shown in FIG. 13A where the crossmarks indicate the locations ofshafts 262, 264 and 276. When in this position, theroller platen 268 is lowered toward theprint bed 102 because theyoke 266 is rotated aboutshaft 267. The platen is lowered against the force ofspring 282 as a result of the action of thecammed surface 280 against the upper surface ofplate 274 ofyoke 266, the cammed surface having been rotated as thefinger 298 was rotated.

Normally spring 282biases yoke 266 against the underside ofhousing 200 as is indicated in FIG. 5. This is the situation whichexists when thefinger 298 is in the position shown to the right of FIG. 12. When so positioned, thecammed portion 280 ofsleeve 278 will be flush against the upper surface ofplate 270 as can be seen in FIG. 133. However, when theimprinting head 200 is returned to its initial position thefinger 298 will be rotated to the position indicated at the left of FIG. 12 bypost 302 to thereby cause thesleeve 278 to rotate to the position shown in FIG. 13A and thereby lower theplate 274 ofyoke 266 and thus position theroller platen 268 as shown with respect toprint bed 102. The cammed sleeve is preferably made from casehardened cobalt steel. A brass plate indicated at 263 in FIG. 6 (but not shown in FIG. 12) is preferably mounted onplate 274 in order to provide a bearing surface for the cammed sleeve thereby increasing the working life thereof.

In summary, the action is one where when the head is in its rest position, the roller platen is lowered preparatory to an imprinting operation, this lowering occurring immediately upon the return of the head to the rest position-that is, as soon asfinger 298 is rotated to the position indicated at FIG. 13A. This operation contrasts with respect to most imprinters in that the lowering operation usually occurs not at the time the head is returned to its rest position, but rather immediately prior to the next imprinting operation as the head is being moved away from its rest position and toward the print bed. Because of the technique employed to lower the head in this invention, the resulting structure is significantly simplified and thus rendered most appropriate for a portable imprinter.

Another feature of the invention which lends itself to portable imprinters is the fact that the initial clearance between the roller platen and the print bed is established by means solely disposed within the imprinting head. This is contrary to the usual way this is done whereby shims are provided to adjust the height of an anvil which supports this printing plate. There is no anvil in the portable imprinter of this invention. Rather, as has been described hereinbefore, theprinting plates 104 and 106 are placed directly on theprint bed 102. In order to more fully understand the technique employed in this invention to adjust the position of theroller platen 268 with respect to the bed, reference should be made to FIGS. 5 and 12. As can be seen in FIG. 12 appropriate means such as Allen screws 310 and 312 are disposed insideside legs 270 and 272 ofyoke 266, these screws projecting through an opening which extends through the legs to the top ofshaft 276 as also indicated in FIG. 5. These screws may be employed to lower theshaft 276 against the action of thesprings 282 and 283 which tend to maintain the shaft in the uppermost possible position within thecuts 294 and 296. Hence, it can be seen that the adjustment for establishing the initial clearance of theroller platen 268 with respect to theprint bed 102 is indeed quite simple and compatible with the requirements of a portable imprinter.

Another feature of the invention is the means provided for releasably securing thedocument 108 over theprint bed 102. Referring to FIGS. 6, 8, and 9 there are shown two document securing means 314 and 316. As is indicated in FIGS. 5 and 7, a member generally indicated at 320 which coacts with document-securing means 314 and 316 and which is fixedly mounted ontohousing 200 has a downwardly projectingfinger 322 for keeping the document in place as the head traverses the print bed during the imprinting operation. The lowest point of thefinger 322 should be so positioned above thebed 102 so as to minimize any tendency of the document to raise from the print bed as an imprinting operation occurs; however, this lowerpoint should not be so low as to engage the document whenever the document is lying smoothly on the print bed.Further member 320 includes two horizontallyconnec'ting members 324 and 326, which are connected to downwardly extendingportions 323 and 336 respectively. Theportions 326 and 330 include horizontally extendingfingers 332 and 334 respectively, these fingers being respectively disposed immediately above the document-securing means 314 and 316 when the head is in its rest position as can best be seen in FIG. 5. Briefly,fingers 332 and 334 actuate the document-securing means 314 and 316 when the head is in its rest position so as to permit the edge of the document to be inserted into the document-securing means. When the head is moved away from its rest position to effectuate an imprinting operation, thefingers 332 and 334 will be moved away from the document-securing means 314 and 316 thereby permitting means 314 and 316 to secure the inserted document at the edge thereof so as to prevent longitudinal movement thereof during the imprinting operation.

Referring to FIGS. 6 and I there is shown in detail document-securingmeans 316. Astationary member 336 is secured to ra'ned portion 114 as indicated in FIG. 5. Pivoted aroundshaft 338 is adocument clasping member 340,shaft 338 passing through the sides ofmember 336 and a hollow aperture portion 342. The claspingmember 340 is disposed within hollow aperture portion 342. The hollow aperture portion 342 opens at at the bottom of thestationary member 336 to permit the clasping member to engage thedocument 108, this being illustrated in FIG. 8 which shows the documentsecuring means alter the imprinting head has left its start positioa. Aspring 344 engaging one end of the claspingmember 340 rotates themember 340 about the shaft 333 thereby effeetuating the document clasping and securing operation. The lower end ofspring 344 is disposed against the raised portion 114 throughaperture 346 instationary member 336. Reference should be made to FIG. 9 for an illustration of how thespring 344 is depressed under the action offinger 334 to thereby raise the claspingmember 340 away from the bottom opening instationary member 336 to thereby establish a clearance for the insertion ofdocument 106 preparatory to an imprinting operation.

Numerous modifications of the invention will become apparent to one of ordinary skill in the art upon reading the foregoing disclosure. During such a reading it will be evident that this invention provides a unique portable imprinter for accomplishing the objects and advantages herein stated.

I claim:

1. A portable imprinter comprising:

a base member having a print bed disposed on. the top thereof and tracks extending along opposite sides thereof, said tracks having inner surfaces and being substantially enclosed at the top and bottom along the length thereof;

an imprinting'head disposed over said print bed for movement thereover to effect imprinting, said imprinting head including a roller platen and at least a pair of guide means having respective outer surfaces disposed at each side thereof. each said pair of guide means being respectively disposed in said tracks. the distance across said print bed between the inner surfaces of said tracks being related to the distance across said print bed between the outer surfaces of said guide means so as to minimize rotational movement of said head about an imaginary vertical axis extending therethrough approximately at the center thereof;

a pair of wheels disposed at said each side of said imprinting head, each said pair of wheels also respectively disposed in said traclts to permit movement of said head along said tracks and the diameter of each of said wheels being slightly less than the distance between the top and bottom of said tracks to thereby minimize vertical movement of said head with respect to said print bed; I said portable imprinter effecting an imprlntmg of data from printing plates placed on said print bed to documents placed over said print bed whenever said imprinting head is moved over said print bed.

2. Apparatus as in claim 1 where said imprinting head includes means for establishing the initial clearance of the roller platen of said imprinting head with respect to said print bed.

3. Apparatus as in claim 2 including means disposed on said print bed for securing the edge of said document to said print bed during the imprinting operation.

4. Apparatus as in claim 3 where said base member includes a rest position disposed approximately at one end thereof for said imprinting head and where said imprinting head includes means acting upon said document-securing means when the head is moved to its rest position to thereby permit a document to be inserted into said document-securing means preparatory to the next imprinting operation.

5. Apparatus as inclaim 4 where said document-securing means includes means for securing the edge of said document to said print bed immediately after said head is moved from its rest position to effectuate an imprinting operation.

6. Apparatus as in claim 3 including means projecting from the front of said imprinting head for keeping the surface of said document adjacent said print bed as said imprinting operation occurs.

7. Apparatus as in claim 1 where said imprinting head includes at least one actuating linger rotatably connected thereto and where the roller platen is rotatably mounted with respect to said imprinting head and connected to said actuating finger and where said base includes posts projecting into said tracks and disposed at opposite ends thereof, said actuating fingers ett'ectuating the rotation oi said roller platen in response to the engagement of said actuating fingers by said posts;

said apparatus including means for raising said roller platen from said print bed when the imprinting head reaches the end of its imprinting stroke and said apparatus including means for lowering said roller assembly to its print position immediately upon the return of said imprinting head to its rest position.

8. Apparatus as in claim 2 where said printing plates are disposed directly on said print bed, said bed including means for securing said plates to said bed.

9. Apparatus as in claim 1 where said distance between the inner surfaces of said tracks is slightly greater than the said distance between the outer surface of said guide means.

Claims (9)

1. A portable imprinter comprising: a base member having a print bed disposed on the top thereof and tracks extending along opposite sides thereof, said tracks having inner surfaces and being substantially enclosed at the top and bottom along the length thereof; an imprinting head disposed over said print bed for movement thereover to effect imprinting, said imprinting head including a roller platen and at least a pair of guide means having respective outer surfaces disposed at each side thereof, each said pair of guide means being respectively disposed in said tracks, the distance across said print bed between the inner surfaces of said tracks being related to the distance across said print bed between the outer surfaces of said guide means so as to minimize rotational movement of said head about an imaginary vertical axis extending therethrough approximately at the center thereof; a pair of wheels disposed at said each side of said imprinting head, each said pair of wheels also respectively disposed in said tracks to permit movement of said head along said tracks and the diameter of each of said wheels being slightly less than the distance between the top and bottom of said tracks to thereby minimize vertical movement of said head with respect to said print bed; said portable imprinter effecting an imprinting of data from printing plates placed on said print bed to documents placed over said print bed whenever said imprinting head is moved over said print bed.

2. Apparatus as in claim 1 where said imprinting head includes means for establishing the initial clearance of the roller platen of said imprinting head with respect to said print bed.

3. Apparatus as in claim 2 including means disposed on said print bed for securing the edge of said document to said print bed during the imprinting operation.

4. Apparatus as in claim 3 where said base member includes a rest position disposed approximately at one end thereof for said imprinting head and where said imprinting head includes means acting upon said document-securing means when the head is moved to its rest position to thereby permit a document to be inserted into said document-securing means preparatory to the next imprinting operation.

5. Apparatus as in claim 4 where said document-securing means includes means for securing the edge of said document to said print bed immediately after said head is moved from its rest position to effectuate an imprinting operation.

6. Apparatus as in claiM 3 including means projecting from the front of said imprinting head for keeping the surface of said document adjacent said print bed as said imprinting operation occurs.

7. Apparatus as in claim 1 where said imprinting head includes at least one actuating finger rotatably connected thereto and where the roller platen is rotatably mounted with respect to said imprinting head and connected to said actuating finger and where said base includes posts projecting into said tracks and disposed at opposite ends thereof, said actuating fingers effectuating the rotation of said roller platen in response to the engagement of said actuating fingers by said posts; said apparatus including means for raising said roller platen from said print bed when the imprinting head reaches the end of its imprinting stroke and said apparatus including means for lowering said roller assembly to its print position immediately upon the return of said imprinting head to its rest position.

8. Apparatus as in claim 2 where said printing plates are disposed directly on said print bed, said bed including means for securing said plates to said bed.

9. Apparatus as in claim 1 where said distance between the inner surfaces of said tracks is slightly greater than the said distance between the outer surface of said guide means.

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