Abstract: The invention relates to a method for printing on a substrate by means of inkjet printing, in which method landing zones are provided on the substrate in a landing zone grid consisting of landing zone columns and landing zone rows, and the landing zones are each printed on using an individual pattern consisting of one or more drops by means of one or more print head nozzles of a print head, wherein the print head nozzles are moved over a surface of the substrate along an imaginary nozzle path during printing. The invention also relates to a device for printing on a substrate comprising a landing zone grid consisting of landing zone columns and landing zone rows by means of inkjet printing.

Abstract: The invention relates to a method for printing on a substrate by inkjet printing. The aim of the invention is to devise a method for printing on a substrate by way of inkjet printing, which method allows a substrate to be printed on efficiently and simply, with the printing result being particularly uniform and without unwanted artefacts and in particular the printed surface being free from visually noticeable different zones. According to this method, landing zones are provided on the substrate in a landing zone pattern consisting of landing zone columns and landing zone rows, and the landing zones are each printed on, using an individual pattern consisting of at least two droplets, by means of print head nozzles of at least one print head, and the print head nozzles and the surface of the substrate are moved relative to one another, in particular along an imaginary nozzle path, during printing.

Abstract: The invention relates to a method for printing on a substrate by means of inkjet printing, in which method landing zones are provided on the substrate in a landing zone grid consisting of landing zone columns and landing zone rows, and the landing zones are each printed on using an individual pattern consisting of one or more drops by means of one or more print head nozzles of a print head, wherein the print head nozzles are moved over a surface of the substrate along an imaginary nozzle path during printing. The invention also relates to a device for printing on a substrate comprising a landing zone grid consisting of landing zone columns and landing zone rows by means of inkjet printing.

Abstract: The invention relates to a method for printing on a substrate by inkjet printing. The aim of the invention is to devise a method for printing on a substrate by way of inkjet printing, which method allows a substrate to be printed on efficiently and simply, with the printing result being particularly uniform and without unwanted artefacts and in particular the printed surface being free from visually noticeable different zones. According to this method, landing zones are provided on the substrate in a landing zone pattern consisting of landing zone columns and landing zone rows, and the landing zones are each printed on, using an individual pattern consisting of at least two droplets, by means of print head nozzles of at least one print head, and the print head nozzles and the surface of the substrate are moved relative to one another, in particular along an imaginary nozzle path, during printing.

Abstract: The object of the invention, which relates to a method for printing a substrate by means of inkjet printing, is to enable precise printing of a landing point matrix, which is displaced, rotated, or distorted, particularly not linearly distorted, as compared to an ideally orthogonal landing point matrix, with less complexity. Said object is achieved in that the lateral resolution is selected to be large enough that the smallest distance between nozzle lines is less than the minimum distance between the landing zone rows, and that, with a variation, specified by the substrate, of the distance of adjacent landing zone rows between various landing zone lines (distortion), the position of the landing zones of a landing zone line is determined relative to the nozzle lines and consequently only the printhead nozzles having a nozzle line intersecting a landing zone are actuated according to a nozzle actuation scheme and the corresponding landing zone type.

Abstract: A device and system for extracting simultaneously a plurality of test tubes from one or more aligned racks is provided. The device is operably adapted to extract test tubes having a body with a first diameter and a top portion with a lip having a second larger diameter. A version of the device includes an extraction assembly including one or more longitudinal slots adapted to receive and slide over the top portion of each test tube forming the longitudinal row, each longitudinal slot comprising laterally spaced and longitudinally extending interior rims, the lateral distance between the rims being greater than the diameter of the body of the test tube and less than the diameter of the test tube top portion flared lip. Thereby, during operation the interior rims grasp and removes each test tube in the respective longitudinal row.

Abstract: A device and system for extracting simultaneously a plurality of test tubes from one or more aligned racks is provided. The device is operably adapted to extract test tubes having a body with a first diameter and a top portion with a lip having a second larger diameter. The aligned racks generally form collectively a rectangular footprint and provide opposing longitudinal shoulders.

Abstract: The invention relates to a surface machining device comprising a substrate support for receiving a substrate to be machined, a machining unit which can be moved relative to the substrate support along a first and a second movement axis, a position detecting unit for ascertaining the orientation of the substrate, and a control unit for controlling the movement of the machining unit dependent on the orientation of the substrate on the substrate support. The aim of the invention is to provide a surface machining device which can be produced in a compact manner and which allows a precise machining of the surface of the substrate to be machined in an inexpensive manner regardless of the position of the substrate on the substrate support. This is achieved in that the machining unit can be pivoted relative to the substrate support, in particular about a height axis which extends perpendicularly to the plane formed by the first and second movement axis.

Abstract: A device and system for extracting simultaneously a plurality of test tubes from one or more aligned racks is provided. The device is operably adapted to extract test tubes having a body with a first diameter and a top portion with a lip having a second larger diameter. The aligned racks generally form collectively a rectangular footprint and provide opposing longitudinal shoulders.

Abstract: The object of the invention, which relates to a method for printing a substrate by means of inkjet printing, is to enable precise printing of a landing point matrix, which is displaced, rotated, or distorted, particularly not linearly distorted, as compared to an ideally orthogonal landing point matrix, with less complexity. Said object is achieved in that the lateral resolution is selected to be large enough that the smallest distance between nozzle lines is less than the minimum distance between the landing zone rows, and that, with a variation, specified by the substrate, of the distance of adjacent landing zone rows between various landing zone lines (distortion), the position of the landing zones of a landing zone line is determined relative to the nozzle lines and consequently only the printhead nozzles having a nozzle line intersecting a landing zone are actuated according to a nozzle actuation scheme and the corresponding landing zone type.

Abstract: The invention relates to a holding device for holding substrates such as printed circuit boards, metal sheets, foils or the like, comprising a suction surface, the suction surface having a plurality of suction nozzles and the suction nozzles being subjected to a negative pressure relative to the ambient pressure by means of a device providing negative pressure for providing a holding force for one or more substrates, wherein the device providing negative pressure provides negative pressure, such that the ratio of the cumulated drop in pressure of all suction nozzles to the cumulated drop in pressure of all suction nozzles and supply lines of the suction nozzles up to the device providing negative pressure is greater than 0.25%, in particular greater than 1%, preferably greater than 25%, in particular greater than 35%, preferably greater than 40%.

Abstract: Methods and systems for exchanging various forms of value, including coins, currency, credit, debit, and/or bank account funds, for prepaid cash cards, credit cards, phone cards, and the like. In one embodiment, a value exchange machine includes a coin input region, a coin sorting/counting apparatus, a card reader, and a communications facility configured to communicate with a remote computer network. In another embodiment, a value exchange system includes one or more of the value exchange machines connected to one or more remote computers via a communications link. A user wishing to purchase, for example, a prepaid cash card can visit one of the value exchange machines, select the desired transaction, and pay for the card with coins, currency, a credit card, a debit card, and/or bank account funds. After confirming payment, the value exchange machine dispenses the card to the user.

Abstract: Systems and methods for forming an insert, such as a threaded or threadable insert, within a cavity in an implant, such as a spinal spacer. According to various embodiments, a spinal interbody spacer may include a proximal end and a distal end. The interbody spacer may be manufactured using a non-threadable material, or at least a material that is difficult to thread, such as a ceramic, a glass, or a porous material. Some embodiments may comprise a silicon nitride ceramic material. A cavity may be formed in the interbody spacer, such as in the proximal end. A material having desired properties lacking in the spacer, such as a threadable insert within a non-threadable spacer, may be inserted into the cavity. The threadable material may then be threaded in order to form a female-threaded insert within the otherwise non-threadable interbody spacer.

Abstract: Methods for forming an insert, such as a threaded or threadable insert, within a cavity in an implant, such as a spinal spacer. In some implementations, an implant body comprising a first, non-threadable, may be provided. A cavity may be formed in the implant body, after which an insert may be positioned within the cavity. Preferably, the insert comprises a second material distinct from the first material, wherein the second material has physical properties distinct from the first material. A female thread may then be formed within the insert, which may allow for threading an otherwise unthreadable, or relatively unthreadable, material.

Abstract: The invention relates to a surface machining device comprising a substrate support for receiving a substrate to be machined, a machining unit which can be moved relative to the substrate support along a first and a second movement axis, a position detecting unit for ascertaining the orientation of the substrate, and a control unit for controlling the movement of the machining unit dependent on the orientation of the substrate on the substrate support. The aim of the invention is to provide a surface machining device which can be produced in a compact manner and which allows a precise machining of the surface of the substrate to be machined in an inexpensive manner regardless of the position of the substrate on the substrate support. This is achieved in that the machining unit can be pivoted relative to the substrate support, in particular about a height axis which extends perpendicularly to the plane formed by the first and second movement axis.

Abstract: Methods for forming an insert, such as a threaded or threadable insert, within a cavity in an implant, such as a spinal spacer. In some implementations, an implant body comprising a first, non-threadable, may be provided. A cavity may be formed in the implant body, after which an insert may be positioned within the cavity. Preferably, the insert comprises a second material distinct from the first material, wherein the second material has physical properties distinct from the first material. A female thread may then be formed within the insert, which may allow for threading an otherwise unthreadable, or relatively unthreadable, material.

Abstract: Methods and systems for exchanging various forms of value, including coins, currency, credit, debit, and/or bank account funds, for prepaid cash cards, credit cards, phone cards, and the like. In one embodiment, a value exchange machine includes a coin input region, a coin sorting/counting apparatus, a card reader, and a communications facility configured to communicate with a remote computer network. In another embodiment, a value exchange system includes one or more of the value exchange machines connected to one or more remote computers via a communications link. A user wishing to purchase, for example, a prepaid cash card can visit one of the value exchange machines, select the desired transaction, and pay for the card with coins, currency, a credit card, a debit card, and/or bank account funds. After confirming payment, the value exchange machine dispenses the card to the user.

Abstract: Methods and systems for exchanging various forms of value, including coins, currency, credit, debit, and/or bank account funds, for prepaid cash cards, credit cards, phone cards, and the like. In one embodiment, a value exchange machine includes a coin input region, a coin sorting/counting apparatus, a card reader, and a communications facility configured to communicate with a remote computer network. In another embodiment, a value exchange system includes one or more of the value exchange machines connected to one or more remote computers via a communications link. A user wishing to purchase, for example, a prepaid cash card can visit one of the value exchange machines, select the desired transaction, and pay for the card with coins, currency, a credit card, a debit card, and/or bank account funds. After confirming payment, the value exchange machine dispenses the card to the user.

Abstract: Methods and systems for exchanging various forms of value, including coins, currency, credit, debit, and/or bank account funds, for prepaid cash cards, credit cards, phone cards, and the like. In one embodiment, a value exchange machine includes a coin input region, a coin sorting/counting apparatus, a card reader, and a communications facility configured to communicate with a remote computer network. In another embodiment, a value exchange system includes one or more of the value exchange machines connected to one or more remote computers via a communications link. A user wishing to purchase, for example, a prepaid cash card can visit one of the value exchange machines, select the desired transaction, and pay for the card with coins, currency, a credit card, a debit card, and/or bank account funds. After confirming payment, the value exchange machine dispenses the card to the user.

Abstract: Methods and systems for exchanging various forms of value, including coins, currency, credit, debit, and/or bank account funds, for prepaid cash cards, credit cards, phone cards, and the like. In one embodiment, a value exchange machine includes a coin input region, a coin sorting/counting apparatus, a card reader, and a communications facility configured to communicate with a remote computer network. In another embodiment, a value exchange system includes one or more of the value exchange machines connected to one or more remote computers via a communications link. A user wishing to purchase, for example, a prepaid cash card can visit one of the value exchange machines, select the desired transaction, and pay for the card with coins, currency, a credit card, a debit card, and/or bank account funds. After confirming payment, the value exchange machine dispenses the card to the user.