Moulded hydrodynamic structure

FIELD: printing industry.

SUBSTANCE: fluid flow-through structure of a print head comprising a monolithic moulded article, a micro device moulded in a moulded article, wherein the micro device comprises at least one electrical terminal. A conductor electrically connected to said at least one electrical terminal and embedded in the monolithic moulded article. Channel limited in the monolithic moulded article, through which the fluid flows directly to the micro device.

EFFECT: cost reduction in ink-jet printers with a print head in full width of the substrate.

14 cl, 31 dwg

 



 

Same patents:

FIELD: printing industry.

SUBSTANCE: head discharging liquid is proposed, comprising a substrate, which comprises an energy generating element for generating energy used for discharging the liquid, and a supply opening which is a through opening for supplying the liquid to the energy generating element, and a plate with openings, comprising a discharging opening for discharging the liquid. A plurality of energy generating elements is located in the first direction. The supply opening is formed between the plurality of the energy generating elements in the first direction. This supply opening is formed so that it is located near the energy generating element in the second direction perpendicular to the first direction.

EFFECT: proposed head ensures its use with high frequency of discharging ink.

10 cl, 14 dwg

FIELD: process engineering.

SUBSTANCE: proposed device comprises fluid chamber, tube to transfer fluid inside said chamber into fluid sprayer first and second elements covering said tube on both sides, and cam to register position of said first element with respect to second element. Said tube is furnished with flexible elastically deformable oblate-shaped part. Cam in first angular position arranges the first element to make clearance for portion of fluid to flow between first and second element. Cam in second position arranges said first element to make flexible part compressed by first and second elements to prohibit ingress of fluid flow.

EFFECT: decreased probability of fluid leaks from sprayer.

6 cl, 17 dwg

FIELD: process engineering.

SUBSTANCE: ink-jet printer ink ejection head has power supply conductor, hear conductor and excitation circuit conductor arranged to the left of ink feed port. Said conductors may be arranged using a portion of jumper located to separate feed ports. Besides, multiple feed ports are configured to feed ink and pressure chambers and separated by means of jumpers. Thus, ejection opening may be located on both sides of said feed ports. Conductor connected heater with poser supply conductor or excitation circuit is also located in jumper portion making a separation baffle for feed ports.

EFFECT: dense configuration of pressure chambers and ejection openings, optimum sizes of heaters.

12 cl, 49 dwg

FIELD: printing.

SUBSTANCE: reference element is formed of a material which contains a mixture of first resin and second resin, which structural formula is different from the first resin, and is moulded between the feeding element and the substrate of the ejecting element, so that is an integral part of the feeding element.

EFFECT: head for ejecting fluid and method of its manufacture provide the ability to compound the reference element and an element for supplying ink with high impermeability and low probability of delamination, ie with high affinity to each other.

19 cl, 17 dwg, 2 tbl

FIELD: printing industry.

SUBSTANCE: head for jet printing device comprises base, having inlet channel for ink, ejection outlet hole to eject ink supplied through inlet channel, flow area, which provides for fluid medium communication between inlet channel and ejection outlet hole. Additionally flow area includes the first flow formed near base and the second flow formed along the first flow at side opposite to base relative to the first flow. Width of the first flow differs from width of the second flow in plane of section perpendicular to direction of ink flow. Besides, between the first flow and the second flow there is a stepped section.

EFFECT: invention provides for structural design of head, in which channels are suitable in resistance to flow of ink, have satisfactory thickness of side walls, making it possible for neighbouring channels to eject various amounts of ink.

7 cl, 19 dwg

FIELD: machine-building.

SUBSTANCE: invention related to flowing media ejection device and to the device control electrical chain. Half-conductor system contains an undercoat, which has first surface, first insulation material, located on at least the first surface segment, and first insulation material contains many holes, which forms a route to the first surface, a first conducting material, located on the first insulation material, in a way that many holes basically are free of the first conduction material, a second insulation material, located on the first conduction material and partly on the first insulation material, in a way that many holes basically are free of the second insulation material, and second conduction material, located on the second insulation material and inside of the many holes, in a way that some part of the second conduction material, located on the second insulation material, has electrical contact with the undercoat.

EFFECT: invention has higher technical requirements at manufacturing cost decrease.

60 cl, 9 dwg

FIELD: technological processes, typography.

SUBSTANCE: method for making components for jet printing head consists of the following stages: making case, with upper surface, making several apertures in the indicated upper surface, passing into the case, and an actuating structure inside each of the apertures. Each actuating structure remains fixed to the body frame during operation. The actuating component for the jet printer with formation of drops under request, has a case with an upper surface, an aperture in the upper surface, passing into the case along the axis of the aperture, a convex actuating structure inside the aperture, and electrodes, which are positioned such that, they can apply a field to the actuating structure in such a way that, the actuating structure is deformed. Electrical voltages applied to the walls do not give rise to deviation of the walls and emission of drops through the nozzle.

EFFECT: fast propulsion, without loss of accuracy and piezoelectric material settles uniformly, actuating mechanisms have same channel separation along matrix.

36 cl, 69 dwg

FIELD: production methods; jet printing.

SUBSTANCE: method of high speed creating of multicolor printings during steam processing is foreseen: providing as minimum two steam printings heads, working on high operational frequency, and the printing heads, working on high operational frequency, allow to process the ink with phase changing; providing as minimum two kinds of oil going trough them, and the passing of the base under the printing heads with the speed of 1000 foots per minute; where on the base is formed as minimum one illustration during the process of steam processing. The method of providing high speed, resistant to coloring and other surfaces under the touching of print during the process of material steam processing with using of inks with phase changing is overseen: the providing as minimum one set of printing heads, allowing to use ink with phase changing, with frequency 20kHz, the material providing; the providing of the system for transporting of the material, which allows to transportate the material under the printing heads; providing of great amount of inks with phase changing; transportation of material over the printing head sets with the speed 1000 foots/minute, ejection of ink as minimum from two printing heads to the material, for illustration forming. The method of providing high speed, resistant to coloring and other surfaces under the touching of print during the process of material steam processing with using of inks with phase changing is overseen: the providing as minimum one set of printing heads, allowing to use ink with phase changing, with frequency 20kHz, providing of porous material; providing of transportational system of material, which allows to transportate the material under the printing heads; providing of great amount of inks with phase changing; transportation of material over the printing head sets with the speed 1000 foots/minute, ejection of ink as minimum from two printing heads to the material, for illustration forming; on the stage of ejecting of inks its formed the illustration, which has up to 200 points/printing head/ liner inch.

EFFECT: under the decreasing of the costs it is decreasing the amount of trash and increased the efficiency.

33 cl, 1 dwg

FIELD: power engineering.

SUBSTANCE: device comprises housing structure that defines the central plane, a number of passages for discharging droplets that pass through the housing structure parallel to the central plane, nozzle for discharging droplets, means for generating sound wave within the passage, and collector that is extended throughout the housing structure parallel to the central plane and perpendicular to the passages. The passages passing through the central plane are shifted perpendicular to the central plane with respect to the adjacent passages. Each nozzle is in communication with the appropriate passage. The collector crosses the passage so that the reflection coefficient of the sound wave of the boundary between each passage and collector is the same for all passages. According to the second version, the device has first group of passages shifted with respect to the central plane in the first direction perpendicular to the central plane, second group of passages shifted with respect to the central plane in the second direction perpendicular to the central plane, and drives. According to the third version, the device has additional means for generation of sound wave and discharging droplet through the nozzle. The collector intersects each passage of the first group whose reflection coefficient differs from that of the second group of passages, first circuit for generating first exciting signal that excite the passages of the first group, and second exciting circuit for generating the second exciting signal that excites the passages of the second group. The first and second group of passages are excited alternatively.

EFFECT: improved design.

21 cl, 21 dwg

FIELD: typewriters, printing devices; drop precipitation components, drop precipitation plates with nozzles.

SUBSTANCE: the method for forming a component of plate contains operations: forming of the body using first material, where aforementioned body has periphery, forming of the cover using second material, around the aforementioned body, in such a way that the cover extends at least across a part of the periphery of aforementioned body, and forming of the nozzle, which passes through aforementioned body. The method for forming a plate, when the plate with nozzles is limited to the plane of plate with nozzles and contains a plate, which has at least one layer of plate with nozzles and a set of nozzles, where each nozzles passes through plastic placed within an aperture in the plate with nozzles, contains operations for forming a set of individual bodies of polymeric material, distributed across the plane of plate with nozzles, and forming of at least one metallic layer of plate with nozzles by galvanoplastic application around aforementioned bodies of polymeric material. The method for forming a component of the plate contains following operations: creation of a layer of first photo-resistive material on a substrate, selective development and removal of photo-resistive material on the substrate to form a mesh of separate bodies of first material on the substrate, creation of first metallic cover around aforementioned bodies to form metallic plate with nozzles, having apertures, each one of which contains a body of aforementioned first material, and creation of a nozzle, which passes through each body.

EFFECT: an improved method is suggested for manufacturing the component meant for usage in a device for drop precipitation.

3 cl, 12 dwg

FIELD: jet printing.

SUBSTANCE: device 100 has three column matrices 61 of drop emitters, configured for multi-pass color printing with printing resolution, having a step of carrier axis points, which is less, than step of columnar nozzles of ink drop emitters. Jet printing head has resistors of high resistance heater and effective control circuits, which are configured to compensate alteration of parasite resistance, caused by power routes (86a, 86b, 86c, 86d).

EFFECT: compactness of jet printing head with large number of ink drop emitters.

20 cl, 11 dwg

FIELD: printing devices.

SUBSTANCE: cartridge comprises compact structure of electrical connections, which includes a number pairs of matrix-columns of electrical contact areas arranged over the back side of the cartridge and connected with the droplet generators.

EFFECT: enhanced reliability.

13 cl, 18 dwg

FIELD: typewriters, printing devices; drop precipitation components, drop precipitation plates with nozzles.

SUBSTANCE: the method for forming a component of plate contains operations: forming of the body using first material, where aforementioned body has periphery, forming of the cover using second material, around the aforementioned body, in such a way that the cover extends at least across a part of the periphery of aforementioned body, and forming of the nozzle, which passes through aforementioned body. The method for forming a plate, when the plate with nozzles is limited to the plane of plate with nozzles and contains a plate, which has at least one layer of plate with nozzles and a set of nozzles, where each nozzles passes through plastic placed within an aperture in the plate with nozzles, contains operations for forming a set of individual bodies of polymeric material, distributed across the plane of plate with nozzles, and forming of at least one metallic layer of plate with nozzles by galvanoplastic application around aforementioned bodies of polymeric material. The method for forming a component of the plate contains following operations: creation of a layer of first photo-resistive material on a substrate, selective development and removal of photo-resistive material on the substrate to form a mesh of separate bodies of first material on the substrate, creation of first metallic cover around aforementioned bodies to form metallic plate with nozzles, having apertures, each one of which contains a body of aforementioned first material, and creation of a nozzle, which passes through each body.

EFFECT: an improved method is suggested for manufacturing the component meant for usage in a device for drop precipitation.

3 cl, 12 dwg

FIELD: power engineering.

SUBSTANCE: device comprises housing structure that defines the central plane, a number of passages for discharging droplets that pass through the housing structure parallel to the central plane, nozzle for discharging droplets, means for generating sound wave within the passage, and collector that is extended throughout the housing structure parallel to the central plane and perpendicular to the passages. The passages passing through the central plane are shifted perpendicular to the central plane with respect to the adjacent passages. Each nozzle is in communication with the appropriate passage. The collector crosses the passage so that the reflection coefficient of the sound wave of the boundary between each passage and collector is the same for all passages. According to the second version, the device has first group of passages shifted with respect to the central plane in the first direction perpendicular to the central plane, second group of passages shifted with respect to the central plane in the second direction perpendicular to the central plane, and drives. According to the third version, the device has additional means for generation of sound wave and discharging droplet through the nozzle. The collector intersects each passage of the first group whose reflection coefficient differs from that of the second group of passages, first circuit for generating first exciting signal that excite the passages of the first group, and second exciting circuit for generating the second exciting signal that excites the passages of the second group. The first and second group of passages are excited alternatively.

EFFECT: improved design.

21 cl, 21 dwg

FIELD: production methods; jet printing.

SUBSTANCE: method of high speed creating of multicolor printings during steam processing is foreseen: providing as minimum two steam printings heads, working on high operational frequency, and the printing heads, working on high operational frequency, allow to process the ink with phase changing; providing as minimum two kinds of oil going trough them, and the passing of the base under the printing heads with the speed of 1000 foots per minute; where on the base is formed as minimum one illustration during the process of steam processing. The method of providing high speed, resistant to coloring and other surfaces under the touching of print during the process of material steam processing with using of inks with phase changing is overseen: the providing as minimum one set of printing heads, allowing to use ink with phase changing, with frequency 20kHz, the material providing; the providing of the system for transporting of the material, which allows to transportate the material under the printing heads; providing of great amount of inks with phase changing; transportation of material over the printing head sets with the speed 1000 foots/minute, ejection of ink as minimum from two printing heads to the material, for illustration forming. The method of providing high speed, resistant to coloring and other surfaces under the touching of print during the process of material steam processing with using of inks with phase changing is overseen: the providing as minimum one set of printing heads, allowing to use ink with phase changing, with frequency 20kHz, providing of porous material; providing of transportational system of material, which allows to transportate the material under the printing heads; providing of great amount of inks with phase changing; transportation of material over the printing head sets with the speed 1000 foots/minute, ejection of ink as minimum from two printing heads to the material, for illustration forming; on the stage of ejecting of inks its formed the illustration, which has up to 200 points/printing head/ liner inch.

EFFECT: under the decreasing of the costs it is decreasing the amount of trash and increased the efficiency.

33 cl, 1 dwg

FIELD: technological processes, typography.

SUBSTANCE: method for making components for jet printing head consists of the following stages: making case, with upper surface, making several apertures in the indicated upper surface, passing into the case, and an actuating structure inside each of the apertures. Each actuating structure remains fixed to the body frame during operation. The actuating component for the jet printer with formation of drops under request, has a case with an upper surface, an aperture in the upper surface, passing into the case along the axis of the aperture, a convex actuating structure inside the aperture, and electrodes, which are positioned such that, they can apply a field to the actuating structure in such a way that, the actuating structure is deformed. Electrical voltages applied to the walls do not give rise to deviation of the walls and emission of drops through the nozzle.

EFFECT: fast propulsion, without loss of accuracy and piezoelectric material settles uniformly, actuating mechanisms have same channel separation along matrix.

36 cl, 69 dwg

FIELD: machine-building.

SUBSTANCE: invention related to flowing media ejection device and to the device control electrical chain. Half-conductor system contains an undercoat, which has first surface, first insulation material, located on at least the first surface segment, and first insulation material contains many holes, which forms a route to the first surface, a first conducting material, located on the first insulation material, in a way that many holes basically are free of the first conduction material, a second insulation material, located on the first conduction material and partly on the first insulation material, in a way that many holes basically are free of the second insulation material, and second conduction material, located on the second insulation material and inside of the many holes, in a way that some part of the second conduction material, located on the second insulation material, has electrical contact with the undercoat.

EFFECT: invention has higher technical requirements at manufacturing cost decrease.

60 cl, 9 dwg

FIELD: printing industry.

SUBSTANCE: head for jet printing device comprises base, having inlet channel for ink, ejection outlet hole to eject ink supplied through inlet channel, flow area, which provides for fluid medium communication between inlet channel and ejection outlet hole. Additionally flow area includes the first flow formed near base and the second flow formed along the first flow at side opposite to base relative to the first flow. Width of the first flow differs from width of the second flow in plane of section perpendicular to direction of ink flow. Besides, between the first flow and the second flow there is a stepped section.

EFFECT: invention provides for structural design of head, in which channels are suitable in resistance to flow of ink, have satisfactory thickness of side walls, making it possible for neighbouring channels to eject various amounts of ink.

7 cl, 19 dwg

FIELD: printing.

SUBSTANCE: reference element is formed of a material which contains a mixture of first resin and second resin, which structural formula is different from the first resin, and is moulded between the feeding element and the substrate of the ejecting element, so that is an integral part of the feeding element.

EFFECT: head for ejecting fluid and method of its manufacture provide the ability to compound the reference element and an element for supplying ink with high impermeability and low probability of delamination, ie with high affinity to each other.

19 cl, 17 dwg, 2 tbl

FIELD: process engineering.

SUBSTANCE: ink-jet printer ink ejection head has power supply conductor, hear conductor and excitation circuit conductor arranged to the left of ink feed port. Said conductors may be arranged using a portion of jumper located to separate feed ports. Besides, multiple feed ports are configured to feed ink and pressure chambers and separated by means of jumpers. Thus, ejection opening may be located on both sides of said feed ports. Conductor connected heater with poser supply conductor or excitation circuit is also located in jumper portion making a separation baffle for feed ports.

EFFECT: dense configuration of pressure chambers and ejection openings, optimum sizes of heaters.

12 cl, 49 dwg

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