A button and pin assembly machine for producing badges and the like comprising buttons having rearwardly extending rims adapted to receive and retain respective pin structures therein, in which the buttons are sequentially supplied to a pin-forming head and supported thereat with the button rim encircling the end of such head, straight pin blanks being sequentially supplied to said head, with a portion of a pin blank being inserted into the head and rotated thereby with respect to a stationary abutment to curl an end of such blank sufficiently to enable its insertion in the rim of a button disposed thereat, said head having means for forming a bend in the portion of the pin blank inserted in such head to resiliently bias the pointed end of the pin blank toward the button.

A button assembly apparatus including a die assembly having two die members movable between an open and closed position. The die members include means for applying a covering on a button shell upon closing of the die members. Upon closing the die members a second time, selectively positionable means render the die members suitable for assembling the covered shell to a body member to complete the button.

Portions of a pin-on button are cut and assembled as a result of a plurality of operations in a machine having a vertical press. Cutter and work deforming tools are displaced by a single press ram to cut blanks and deform the blanks onto a button top placed in one of two die assemblies positioned in alignment below the work deforming tool on the lower end of the ram.

Device for forming buttons from a pin-on back plate, a front plate, and a cover over the front plate, with the device having a pair of button-forming dies alternately shiftable into operation alignment with a forming punch which on descent with the successively aligned dies cooperates with the latter to assemble the separate button parts into a button, and a cover-blanking punch and die set above the forming punch, of which the blanking die is topmost and has a die aperture open at the top and bottom and a cutting edge at the bottom of the aperture, with the blanking die being by the forming punch raised into blanking cooperation with the blanking die, and the forming punch being moved upwardly and downwardly by manually operable means.

Device for forming buttons from a pin-on back plate, a front plate, and a cover over the front plate, with the device having a pair of button-forming dies alternately shiftable into operative alignment with a forming punch which on descent into the successively aligned dies cooperates with the latter to assemble the separate button parts into a button, and a blanking punch and die set above the forming punch, of which the blanking punch is raised into cooperation with the blanking die for blanking a cover from a supply sheet, and a handlever operatively connected with the punches for simultaneously lowering the forming punch and raising the blanking punch.

Apparatus for the manufacture of a laminated button comprising a metallic backing plate having a transverse peripheral edge and an outwardly extending flange, an illustrated paper sheet and a protective acetate covering. The apparatus comprises a pneumatically operated press which receives the plate, illustrated sheet and covering, and, with a single downward movement, causes the sheet to conform to the plate and be crimped between the transverse edge and flange.

Apparatus for covering buttons operable in an automatic, semi-automatic or manual mode. The apparatus includes a rotatable table having alternately positioned shell and back receiving lower dies, means for automatically delivering the shells and backs to their respective lower dies, a reciprocating upper die synchronized for movement with the rotation of the rotatable table and engageable with the lower dies at a first station to transfer a shell and fabric covering from a shell receiving lower die to the upper die and press-fit a back from a back receiving lower die into the covered shell in the upper die to form an assembled covered button and having means permitting its use with a range of fabric cover thicknesses, and means for ejecting the assembled covered buttons.

A machine for the manufacture of buckles, buttons or the like which comprises an upper tool and a lower tool. The lower tool has an outer, spring-mounted frame and an inner core piece displaceable vertically with respect to the surrounding frame. The lower tool is adapted to support the assembled button after the opening stroke of the upper tool. A device is provided for lifting the core piece of the lower tool relative to the surrounding frame up to about the height of a transversely directed stream of blast air serving for discharging the product from the lower tool.

A button covering device having a platform with a central opening which forms a well to receive a button to be covered and the fabric for covering the button. A pair of sliding plates having contoured recesses are mounted on the platform whereby the contoured recesses may be positioned to overlap the opening to gather the fabric over the rear of the button.

A method for fabrication of a relatively low cost display or communicative novelty button in which a consumable restrictor sheet is placed over a vacuum draw type female mold cavity. The restrictor sheet may be of cardboard and be apertured with a diameter smaller than the mold cavity diameter. A thermoplastic sheet material is then placed over the restrictor sheet, heated to reach a formable state and vacuum drawn through the restricted aperture and down so that the sheet comes into contact with and generally conforms to the desired shape defined by the mold cavity. The plastic sheet material may then be trimmed near the edge of the restrictor sheet to leave a button shell mounted on a restrictor sheet which may then be used for purposes of display. The restrictor sheet also enables fabrication with an inwardly facing peripheral groove that may be used to secure a pin fastener. An alternate form of fastener in which a portion of the remaining plastic sheet is used is also disclosed.

A fabric covered button comprising a button head having a peripheral groove for receiving a locking ring. The fabric is secured to the button head and the marginal edge thereof is retained within the groove by the locking ring.

Apparatus for assembling covered buttons in which a first die assembly including a first punch carrying a first sleeve which sequentially receives a piece of covering material and the button shell with its flange extending toward the open end of the sleeve. A second assembly including a second sleeve having a bore one end of which is formed with a first cam surface extending axially inwardly of the above. The second sleeve is spring loaded to an extended position on a supporting post having a centrally located button back fastener receiving cavity in the end thereof with a second cam surface extending inwardly from the outer edge of the end to the bottom of a recess surrounding the cavity. An annular boss at the inner edge of the recess around the cavity is elevated to allow the material and the shell flange to curl inwardly under the button back. In the retracted position of the second sleeve on the post, the second cam surface forms a continuation of the first. In operation, when the first assembly carrying the covering piece and the shell moves toward the second assembly, the first sleeve stops against the spring loaded bottom sleeve and the punch continues forcing the material down so that the material is tucked inward by the beveled or curved surface of the second sleeve. Upon continued relative movement of the assemblies, the shell flange acts on the cam surface of the second sleeve to force the sleeve to its retracted position and the shell flange is moved inwardly of the back wall under the continued action of the first post, the extent of the inward movement of the shell flange being determined by the thickness of the material of the covering piece, as well as the height of the shell and the type of back used.

A device to assemble buttons of the type having a safety pin associated with a fastening member including an outer shell having a covering. The present invention is directed to the mechanism snap-out of the finished button and a cam and bar for automatically adjusting the length of travel of the upper die.

A device is disclosed for pressing objects by lifting the objects into a waiting pressing shaft. The shaft includes a forming element at its lower end for forming the object, and the shaft is engaged by its upper end through a pivot member to an air cylinder in a manner which provides a force advantage to the air cylinder. Also, a system for pressing objects is disclosed, in which the press device is employed in conjunction with a turntable for sequential and continuous pressing operations.

A machine for automatically joining front and back parts of buttons employs a turntable with nests that are rotated through a series of stations at which the parts are placed in the nests in a desired orientation, joined, and checked for defects. Orientation of the parts is achieved by video imaging of a first part as it is randomly placed in a nest, and computer-controlled placement of the second part based on the ascertained position of the first part.

A method and apparatus for substantially automatically joining front and back parts of buttons employs a turntable with retaining means that are rotated through a series of stations at which the parts are placed in the retaining means in a desired orientation, joined, and checked for defects. A human operator places button front parts at a first station, and the remaining stations carry out the assembly and quality control steps automatically. Placement at the first station determines the alignment and orientation of the two buttons.

A punch button (32) has a central disc (36) integral with and separable from an outer peripheral annular ring (38). The disc and ring are joined by a breakaway portion (40) of reduced thickness. A pair of peel points or pilot cuts (50 and 52) may be provided on distally opposite sides of the disc, and if so, the disc is initially separable from the ring at the peel points and then rotatable about a rotation axis perpendicular to an axis through the distally opposite pilot cuts. The punch button is formed by providing a strip of material of a first thickness, placing the strip in a die, performing an inner cut with the die and partially cutting through the strip to yield first and second subpieces joined to each other by material of a second reduced thickness, and performing an outer cut with the die and cutting all the way through the strip to yield a piece composed of the first and second subpieces providing the disc and ring. The pilot cuts are performed by the die during performance of the inner cut and to a deeper depth than the inner cut. All of the cuts are performed in a singular die step operation wherein an outer punch (58) is moved toward an inner punch (66) in one axial direction to perform the inner cut, the pilot cuts, and a portion of the outer cut, and continuing movement of the outer punch in the one direction and simultaneously moving the inner punch in the same direction in unison with the outer punch to complete the outer cut.

A universal assembly machine manufactures conventional buttons with formed backs. The machine comprises a rotatably indexable die table to which are mounted pickup and crimp dies. The die table indexes about a center column of the machine frame. A ram die is advancable and retractable in a pickup stroke and a crimp stroke by means of a handle. The ram die includes a ram outer ring that is rotatable by means of a shifter post joined to the die table. Indexing the die table causes the shifter post to rotate the ram outer ring into a pickup mode or a crimp mode to suit the ram pickup and crimp strokes, respectively. The universal assembly machine also manufactures buttons with flat backs by using a different crimp die pedestal than is used with the formed backs. An adapter on the crimp die pedestal used with formed backs allows that crimp die pedestal to also be used for manufacturing buttons with flat backs. The invention also embraces button medallions. A flat back button is loaded into the pickup die, and the die table is indexed. The ram die is advanced in a third press to form the shell frusto-conical wall of the flat back button inwardly to be flat and parallel to the flat back.

A universal assembly machine manufactures button medallions. The machine comprises a rotatably indexable die table to which are mounted pickup and crimp dies. The die table indexes about a center column of the machine frame. A ram die is advancable and retractable in a pickup stroke and a crimp stroke by means of a handle. The ram die includes a ram outer ring that is rotatable by means of a shifter post joined to the die table. Indexing the die table causes the shifter post to rotate the ram outer ring into a pickup mode or a crimp mode to suit the ram pickup and crimp strokes, respectively. The universal assembly machine also manufactures buttons with flat backs. To make a button medallion a flat back button is loaded into the pickup die. The ram die is advanced in a third press stroke to bend the shell frusto-conical wall of the flat back button inwardly to be flat and parallel to the flat back. The thin edge of the button medallion enables it to be used as an attractive embellishment on flat surfaces.

A universal assembly machine manufactures conventional buttons with formed backs. The machine comprises a rotatably indexable die table to which are mounted pickup and crimp dies. The die table indexes about a center column of the machine frame. A ram die is advancable and retractable in a pickup stroke and a crimp stroke by means of a handle. The ram die includes a ram outer ring that is rotatable by means of a shifter post joined to the die table. Indexing the die table causes the shifter post to rotate the ram outer ring into a pickup mode or a crimp mode to suit the ram pickup and crimp strokes, respectively. The universal assembly machine also manufactures buttons with flat backs by using a different crimp die pedestal than is used with the formed backs. An adapter on the crimp die pedestal used with formed backs allows that crimp die pedestal to also be used for manufacturing buttons with flat backs. The invention also embraces button medallions. A flat back button is loaded into the pickup die, and the die table is indexed. The ram die is advanced in a third press stroke to bend the shell frusto-conical wall of the flat back button inwardly to be flat and parallel to the flat back.

A button system and method of manufacturing the same are provided for identifying fiber from which an article of apparel is manufactured. Initially, an article of apparel manufactured with a predetermined fiber is identified. Next, indicia indicative of the predetermined fiber is selected. Next, at least one button is manufactured with the indicia thereon for identifying the fiber from which the article of apparel is manufactured.

An adapter enables a universal assembly machine to manufacture buttons with either flat backs or formed backs. The machine comprises a rotatably indexable die table to which are mounted pickup and crimp dies. A ram die is advancable and retractable in a pickup stroke and a crimp stroke. Indexing the die table causes a shifter post to rotate a ram outer ring into a pickup mode or a crimp mode to suit the ram pickup and crimp strokes, respectively. The universal assembly machine manufactures buttons with flat backs by using the adapter on the same crimp die pedestal as is used for manufacturing buttons with formed backs. The adapter has a top surface that is in the location relative to the ram die that suits flat back buttons. The adapter enables the same crimp die pedestal to be used for manufacturing both flat back and formed back buttons.

A machine manufactures buttons having coplanar shell flanges in a two-stroke operation. The machine comprises a crimp die having different resistances to advancement of a ram. The first resistance enables a metal shell margin to partially bend under a flat back that is placed on a first surface of the crimp die. The second resistance enables the shell wall to completely bend against a second surface of the crimp die so as to form flanges that lie in a single plane. Both round and rectangular buttons are manufacturable using the same basic machine. The rectangular machine uses a shifter cage on the ram that rotates in response to indexing a die table on which the crimp die and a pickup die are attached. The round machine uses a rotatable frame on the ram. With the rectangular machine, the shell is initially bent during a pickup stroke of the ram.

A method for forming a multi-colored cap part of a snap button including the steps of forming a design portion of the cap part of snap button using a first group of molds, which includes a first female mold, a first male mold, and a plate-shaped middle mold, and a slide-plate mold adapted to movably assembled to the first male mold and having a plurality of mold cavities for forming the design portion; removing the slide-plate mold having the design portion molded therein from the first male mold; movably positioning the slide-plate mold into a second female mold included in a second group of molds for forming a body portion of the cap part of snap button; positioning a post for the cap part of snap button in a second male mold of the second group of molds; and forming the body portion.

A button, knob or control key with an etchable support plate which is engraved on the backside with a fine symbol by laser, erosion or mechanical engraving, which only cuts into the material of the support plate, but not through the support plate. The backside of the support plate is optionally coated. A foil is applied on the laminated layer and affixed thereto. The front side of the support plate is treated with a material-removing substance. The material removal with the material-removing substance is performed until the engraving extending into the support plate is at least partially or completely exposed on the front side. Application of a protective layer to the front side of the support plate from which the material was removed. A function symbol is provided on the button such that it can be backlit. It is engraved in a fine line width providing a sharp optical definition erosion, mechanical engraving.

A button making device capable of simply exchanging a first pressed mold, a second pressed mold, and a pressing mold so as to produce buttons of different sizes; a polygonal button whose front surface plate is dome-wise curved and has its shape fixed; and such a button making device, are provided. The button making device has a sliding platform, two pressed molds, a fixed member, a pressing shaft, a pressing mold, and an operation mechanism. The pressed molds are provided on an attachment member which is removably attached to the sliding platform. The pressing mold is removably attached to a lower end of the pressing shaft using magnetic force. The present invention can be used for a button making device which can easily form a metal button by press processing which can be used as an accessory adhered to clothes or the like by a pin or the like.

The present invention relates to a button manufacturing device that is lightweight and robust, and that can be operated even at an unstable location and in a small space. A button manufacturing device comprises a base, a slide platform disposed on the base for reciprocating movement, first and second lower dies provided on both sides of the slide platform in the reciprocating directions, a press screw shaft capable of moving in the axial direction by screwing into a female screw section provided on a beam fixed to the upper part of struts, fixed on the base, an upper die provided on a lower end of the press screw shaft for joining to the first lower die or the second lower die, and an operating handle provided on an upper part of the press screw shaft.

A mounting device, for mounting a plurality of buttons on a product, includes a supporting member, a punching member, and a driving member The supporting member includes a supporting panel, a plurality of holding portions fixed on the supporting panel for supporting the product, a molding board having a plurality of molding holes a platform, and a base fixed on the platform for supporting the molding board. The punching member includes a retaining member positioned above the supporting member, and a plurality of cutters fixed to the retaining member The cutters cut the buttons off a button assembly, and couple to a vacuum generator for creating suction to hold the buttons. The driving member drives the punching member to mount the buttons on the product.

Gender specific synthetic nutritional compositions for female or male infants up to 1 month of age wherein, the concentration of alanine, and/or histidine, and/or isoleucine, and/or proline, and/or valine is adapted based on that found in HM produced for an infant of the same gender and age, and nutritional systems comprising them.

A nutritional supplement powder and method of supplementing the nutritional value of a food or beverage is provided. The nutritional supplement powder includes a protein system, vitamins, minerals, and fiber. The protein system has a water solubility of at least about 70% at room temperature. The nutritional supplement powder is essentially free of divalent ions of copper, iron, and zinc, and is also essentially free of vitamin C. When added to a food or beverage, the nutritional supplement powder does not substantially change the organoleptic properties of the food or beverage.

The present invention relates to a plant-based wrapping paper for wrapping food. The plants (raw materials) may be fruits, herbs, medicinal plants, tea, vegetables and/or spices. The invention further relates to a method for producing said wrapping paper, its use for wrapping food or its use as packaging material.

Gender specific synthetic nutritional compositions for infants up to 1 month of age wherein, the total protein content is adapted based on that found in HM produced for infants of the same gender and age, and nutritional systems comprising them.

Disclosed herein is a nutrient delivery system that provides a nutritional formula for consumption. The nutrient delivery system includes a pod and a nutritional powder comprising at least one phospholipid. The nutritional formula has improved characteristics, such as decreased foaming.

A torque-exerting device includes a clutch arranged between a handle and an axle. The handle includes a chamber defined therein by a wall. The clutch includes a movable element, a rotatable element, recesses and balls. The movable element is placed in the chamber in an axially movable manner. The rotatable element is placed in the chamber in a rotatable manner and secured to the axle. The rotatable element is in releasable engagement with the movable element. The recesses are defined in the movable element or the wall of the chamber of the handle. Each of the balls is partially placed in a respective one of the recesses and in contact with the wall of the chamber of the handle or the movable element.

A device that automatically actuates the reversing lever of a ratchet mechanism when the radial direction of the motor is changed. The auto-shift mechanism includes a worm gear that rotates with the motor, and a disc coupled to the worm gear that moves laterally as the worm gear rotates. Axial movement of the disc actuates a reversing lever of a ratchet mechanism by either pulling or pushing the reversing lever. A lost-motion mechanism can absorb an initial amount of torque so that the auto-shift mechanism can run its course prior to applying the torque to a fastener.

A method and a device for cutting at least an upper thread of a sewing machine provided with a fabric clamping member (20), wherein a length of the thread consumed for a cut can be set within a predetermined interval. The method for cutting at least the upper thread (4) of a sewing machine (1) includes the steps: feeding a predetermined length x of said upper thread (4) utilizing a thread feeder (15), pulling out the upper thread (4) said predetermined length utilizing a displacement of said fabric clamping member (20) from a current position to a second position executing by means of a sewing machine processor (C) program sequences stored in a memory (M) for controlling a thread cutter (10) to perform a cut of at least said upper thread (4).

An apparatus includes a processor and a memory. The memory is configured to store computer-readable instructions that, when executed by the processor, instruct the processor to perform processes including acquiring pattern data, specifying an outline of the embroidery pattern based on the pattern data, creating hole data for causing the sewing machine to form a plurality of holes including one or more first holes and one or more second holes, creating first stitch data for causing the sewing machine to sew one or more stitches for the one or more first holes, and creating embroidery data for causing the sewing machine to form one or more first holes, and sew the one or more stitches for the one or more first holes, and causing the sewing machine to form the one or more second holes, before causing the sewing machine to sew an outline pattern.

A thread cutting mechanism is mounted on a sewing machine which includes a sewing platform. The thread cutting mechanism includes a driver assembly and a thread cutting assembly. The driver assembly includes a stepping motor, a swing lever pivotally connected to the stepping motor, and a pushing rod connected to the stepping motor and swing lever and driven jointly with the swing lever by the stepping motor to perform a back-and-forth process. The thread cutting mechanism is disposed on the sewing platform, and includes a thread hooking blade connected to and driven by the swing lever to move back-and-forth along a thread hooking path and to hook back a sewing thread, and a thread cutting blade disposed on the thread hooking path and for cutting the sewing thread when the thread hooking blade hooks back the sewing thread.

A method for manufacturing a strap ring (1), made from a material woven with warp threads (3) and at least one weft thread (4) extending between the warp threads (3). The woven material is a tubular fabric (11) whose warp threads (3) extend parallel to the axis of extension of the tubular fabric (11), the strap ring (1) being made from an axial section (16) of the tubular fabric (11) which is axially cut up by cutting the warp threads (3).

The memory stores computer-readable instructions causing the sewing machine to perform operations including: extracting feature points of a design based on a captured image; extracting feature points of a unit design; generating feature points of a symmetrical design; cross-checking the extracted feature points of the design and the generated feature points of the symmetrical design; determining an arrangement of an embroidery pattern with respect to the symmetrical design; and causing a sewing portion to sew the embroidery pattern.

A device includes a processor and a memory. The memory is configured to store a plurality of group information pieces, the number of thread colors to be used in embroidery sewing and computer-readable instructions. Each of the group information pieces is associated with one more thread colors among a plurality of thread colors. The computer-readable instructions cause the processor, when executed, to perform processes that includes acquiring image data including pixels, replacing a color of each of the pixels with a thread color from the thread colors, calculating a frequency of using each of the thread colors, selecting, until the number of thread colors selected from the thread colors is equal the number of thread colors to be used stored in the memory, one thread color from each of the group information pieces sequentially, based on the group information pieces stored in the memory and on the calculated frequency.

A digitizer is operably coupled to a quilting machine controller, wherein an operator can input free hand or traced patterns for regulating operation of a sewing head. The digitizer can be an X-Y encoder wherein the encoder includes a transparent or translucent sensing zone which provides for the operator to input a pattern while simultaneously viewing a portion of a textile, which can itself include a pattern.

An embroidery data processor includes a color information acquiring unit configured to acquire color information of a workpiece cloth on which an embroidery pattern composed of a plurality of color-based pattern portions is sewn, a color storage unit configured to store data of defined colors, an assignment unit configured to randomly extract colors from the colors stored by the color storage unit for every color-based pattern portion, the extracted colors being used as thread color data specifying colors of the color-based pattern portions respectively, the assignment unit assigning the extracted colors to the respective color-based pattern portions, and a setting unit configured to set a predetermined extraction range containing a similar color or a contrast color based on the color information acquired by the acquiring unit. The assignment unit is configured to extract the color stored by the color storage unit in the set extraction range.

A non-transitory computer-readable medium storing computer-readable instructions that, when executed by a processor of a device, cause the device to acquire pieces of thread color data, acquire image data representing an image, arrange line segments based on the image data, calculate a ratio of a first area occupied by a specific object with respect to the image, identify one or more pieces of first thread color data based on the ratio, identify one or more pieces of second thread color data based on the image data, allocate, to one or more of first line segments corresponding to the first area, first specific thread color data among the first thread color data, allocate, to one or more of second line segments corresponding to the second area, second specific thread color data among the first thread color data and the second thread color data, connect the line segments, and create embroidery data.

An active anvil assembly for use in forming a looped suture is provided. The active anvil assembly includes an anvil member, a first sensor operably connected to the anvil member, and a control assembly. The first sensor is configured for measuring at least one of force, torque, and distance feedback. Also provided are systems and methods for forming a looped suture including an active anvil assembly.

Disclosed is a liquid processing apparatus capable of accurately determining a holding state of a substrate without being influenced by, for example, material or surface condition of a substrate. The liquid processing apparatus includes a substrate holding unit that holds a substrate, a camera that photographs a region where a peripheral edge portion of substrate is present when substrate is properly held by the substrate holding unit, and a control unit that determines a holding state of the substrate held by the substrate holding unit based on an image photographed by the camera.