Transfer printer for cups and the like

Abstract

A clamping member (16) is substantially in the form of a cylinder with a narrow strip removed. The clamping member (16) is lined with a resilient layer (136). A heating layer (138) is positioned between the clamping member (16) and the resilient layer (136). A cup (22) surrounded by a heat transfer (142) is positioned in the clamping member (16) when the clamping member (16) is in an open position. Then, the end portions (42, 44) of the clamping member (16) are moved together so that they will in turn move the clamping member (16) and its liner (136) into snug engagement with the outer surface of the cup (22). Then electrical energy is applied to the heating element layer (138) for causing a transfer of printing and/or design indicia from the transfer (142) to the outer surface of the cup (22). Swinging movement of a handle (18) between first and second positions operates a mechanism that opens and closes the clamping member (16).

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

Like reference numerals are used to designate like parts throughout the several views of the drawing, and:

FIG. 1 is a pictorial view of a cup printer embodying the present invention, such view showing a control handle in an up position, and showing the clamping member in an open position and a cup and a transfer in a spaced relationship to each other and to the clamping member;

FIG. 2 is a view like FIG. 1, but showing the cup and transfer down in the clamping member and showing an upper portion of the handle cut away;

FIG. 3 is a top plan view of the assembly shown by FIG. 2, with the handgrip portion of the handle cut away for the purpose of illustrating the components below it, and with the cup and transfer shown in broken or phantom line;

FIG. 4 is a view like FIG. 3, but showing the handle swung forwardly into a position in which linkage between the handle and the push-pull elements extend the push-pull elements and move the clamping member into a clamping position on the cup;

FIG. 5 is a fragmentary sectional view taken substantially along line 5-5 of FIG. 4, such view showing upper portions of the clamping member, the resilient liner and the heating element in section;

FIG. 6 is a view like FIG. 5 taken substantially along line 6-6 of FIG. 4, showing lower portions of the clamping member, the resilient liner and the heating element;

FIG. 7 is an enlarged scale, fragmentary side elevational view of the mechanism for opening and closing the clamp, such view showing the control handle in a somewhat upright position;

FIG. 8 is a view like FIG. 7, but showing the handle swung downwardly towards the clamp assembly;

FIG. 9 is a view like FIG. 7, but showing a portion of the adjustment screw assembly in section and another portion in side elevation;

FIG. 10 is a schematic view of the mechanism for converting rotary movement to linear movement, including a broken line showing of the control handle in the positions shown by FIG. 8;

FIG. 11 is view like FIG. 10, but including a broken line showing of the handle in the position shown by FIGS. 1 and 7; and

FIG. 12 is a fragmentary plan view of one of the control arms, with some elements in the view being shown in section.

Claims

1. A transfer printer for transferring printing from a transfer onto the outer surface of a generally cylindrical object, comprising: a thin wall clamping member adapted to substantially surround the generally cylindrical object, said member having spaced opposite end portions;push-pull elements connected to the opposite end portions of the clamping member, for moving said end portions towards and away from each other;said clamping member having an inner surface; anda heating element on the clamping member adjacent the inner surface,whereby the generally cylindrical object to receive printing can be placed within the clamping member, with a heat activated transfer positioned between the clamping member and the outer surface of the generally cylindrical object, and then the opposite end portions of the clamping member can be moved relatively together to contract the clamping member and cause it to press the heat transfer against the outer surface of the generally cylindrical object, and wherein electrical energy can be applied to the heating element for heating the transfer and causing printing on the transfer to be transferred to the outer surface of the generally cylindrical object.

2. The transfer printer of claim 1, further comprising a resilient liner carried by the clamping member inwardly of the heating element, said resilient liner being adapted to contact the transfer that is in contact with the outer surface of the cylindrical object that is to receive printing.

3. The transfer printer of claim 1, wherein the opposite end portions of the clamping member form a gap between them, and wherein the end portions of the clamping member are provided with vertical stiffening members connected to the clamping member and the push-pull elements are connected to the stiffening members.

4. The transfer printer of claim 1, wherein the push-pull elements are arcuate members having first and second ends, wherein the first ends of the arcuate members are mounted for pivotal movement about an axis, and the second ends are connected to the end portions of the clamping member, and wherein said arcuate members curve as they extend from their first ends to their second ends and are spaced outwardly from the clamping member.

5. The transfer printer of claim 4, comprising first and second control arms, said arms having first ends connected to intermediate portions of the arcuate members, and are adapted to be retracted for swinging the second ends of the arcuate members apart, for pulling the end portions of the clamping member apart, and are adapted to be extended for swinging the arcuate members together, for pushing the end portions of the clamping member together and contracting the clamping member.

6. The transfer printer of claim 5, wherein the first and second control arms include compression springs, that are adapted to compress when the control arms are extended and expand when the control arms are retracted.

7. The transfer printer of claim 1, comprising first push-pull elements connected to the clamping member and second push-pull elements connected to the clamping member at a location spaced from the first push-pull elements.

8. The transfer printer of claim 7, wherein the push-pull elements are arcuate members having first and second ends, wherein the first ends of the arcuate members are mounted for pivotal movement about an axis, the second ends are connected to the end portions of the clamping member, and said arcuate members curve as they extend from their first ends to their second ends and are spaced outwardly from the clamping member.

9. The transfer printer of claim 8, comprising first and second control arms, said arms having first ends connected to intermediate portions of the arcuate members, and adapted to be retracted for swinging the second ends of the arcuate members apart and pulling the end portions of the clamping member apart, and adapted to be extended for swinging the arcuate members together, for pushing the end portions of the clamping member together, for contracting the clamping member.

10. The transfer printer of claim 1, wherein the printer is adapted to print on a cup that includes a handle, and the opposite end portions of the clamping member are spaced apart at least the width of the cup handle when the clamping member is contracted around the cup, and wherein said handle is positioned between the opposite ends of the clamping member.

11. The transfer printer of claim 1, comprising a handle having a first position and a second position and linkage between the handle and the push-pull elements, wherein the handle and linkage are adapted to extend the push-pull elements when the handle is swung from its first position to its second position, and to retract the push-pull elements when the handle is swung from its second position to its first position.

12. The transfer printer of claim 11, further comprising a resilient liner carried by the clamping member inwardly of the heating element, said resilient liner being adapted to contact the transfer that is in contact with the outer surface of the cylindrical object that is to receive printing.

13. The transfer printer of claim 11, wherein the opposite end portions of the clamping member form a gap between them, and wherein the end portions of the clamping member are provided with vertical stiffening members connected to the clamping member and the push-pull elements are connected to the stiffening member.

14. The transfer printer of claim 13, wherein the push-pull elements are arcuate members having first and second ends, wherein the first ends of the arcuate members are mounted for pivotal movement about an axis and the second ends are connected to the end portions of the clamping member, and wherein said arcuate members curve as they extend from their first ends to their second ends and are spaced outwardly from the clamping member.

15. The transfer printer of claim 13, comprising first and second control arms, said arms having first ends connected to intermediate portions of the arcuate members, and are adapted to be retracted for swinging the second hands of the arcuate members apart, for pulling the end portions of clamping member apart, and are adapted to be extended for swinging the arcuate members together, for pulling the end portions of the clamping members apart and contracting the clamping member.

16. The transfer printer of claim 15, wherein the first and second control arms include compression springs that are adapted to compress when the control arms are extended and expand when the control arms are retracted.

17. The transfer printer of claim 11, comprising first push-pull elements connected to the clamping member and second push-pull elements connected to the clamping member at a location spaced from the first push-pull elements.

18. The transfer printer of claim 1, comprising a rotatable shaft, a handle connected to the shaft, said handle being swingable from a first position into a second position for rotating the shaft, at least one crank extending radially from said shaft to an outer end, a slide member guided for back and forth linear sliding movement, a connecting link tubally connected at one end to the outer end of the crank and pivotally connected at its other end to the slide member, and a connector connecting the connecting member to the push-pull elements, wherein a swinging movement of the handle in a first direction will operate the crank and the connecting member to move the slide member and the push-pull elements for pushing the push-pull elements, and a swinging movement of the handle in the opposite direction will move the crank, the connecting member and the sliding member in the opposite direction for pulling the push-pull elements.