Abstract: A downhole displacement impact method and an impact drilling tool are provided, which relates to the field of drilling tools. The downhole displacement impact drilling tool includes a flow passing sleeve, a first main shaft, an impact-bearing seat, and a second main shaft that are all formed by annular structures and are connected in sequence from top to bottom. A vibration sleeve, a vibration starting seat, and an impact head are connected in sequence from top to bottom on the impact-bearing seat. The vibration sleeve is connected and fixed to the impact head through a connecting sleeve. The vibration starting seat synchronously rotates with the impact-bearing seat through a spline connection therebetween. The vibration starting seat generates an up-down periodic displacement along an axial direction of the vibration starting seat during rotating.

Abstract: The present disclosure provides a two-stroke pumping method and oil production device, and relates to the technical field of oil production. The oil production device comprises a pump body, wherein the oil production device further comprises a central tube of a hollow structure, and the central tube is partially located in the pump body and coaxially arranged with the pump body; a traveling valve and a standing valve are arranged on the left side and the right side of the outer wall of the central tube respectively, and the traveling valve is arranged between the pump body and the central tube; the standing valve is located outside the pump body; the traveling valve and the standing valve are matched with the pump body and the central tube to form an oil pumping space; and an oil pumping assembly is further arranged in the oil pumping space.

Abstract: A downhole displacement impact method and an impact drilling tool are provided, which relates to the field of drilling tools. The downhole displacement impact drilling tool includes a flow passing sleeve, a first main shaft, an impact-bearing seat, and a second main shaft that are all formed by annular structures and are connected in sequence from top to bottom. A vibration sleeve, a vibration starting seat, and an impact head are connected in sequence from top to bottom on the impact-bearing seat. The vibration sleeve is connected and fixed to the impact head through a connecting sleeve. The vibration starting seat synchronously rotates with the impact-bearing seat through a spline connection therebetween. The vibration starting seat generates an up-down periodic displacement along an axial direction of the vibration starting seat during rotating.

Abstract: An anti-counterfeiting pattern having an optically variable structure, comprising lithographic lines and gravure blind embossed relief lines printed on a carrier. The lithographic lines are a set of lithographic curve lines having a curvature, the widths of the lithographic curve lines changing from thick to thin, or thin to thick. The gravure blind embossed relief lines are a set of curve lines corresponding to the lithographic lines, and having the same curvature. The relief lines are overprinted on the lithographic lines with a width variation identical to that of said lithographic lines. Accurate overprinting of the two printing types forms a curved relief structure wherein the width of the lines changes continuously. When a printed product is rotated and observed, a continuously variable optical effect will be seen, which is visual, readily to identify, anti-copying and difficult to forgery.

Abstract: An anti-counterfeiting pattern having an optically variable structure, comprising lithographic lines and gravure blind embossed relief lines printed on a carrier. The lithographic lines are a set of lithographic curve lines having a curvature, the widths of the lithographic curve lines changing from thick to thin, or thin to thick. The gravure blind embossed relief lines are a set of curve lines corresponding to the lithographic lines, and having the same curvature. The relief lines are overprinted on the lithographic lines with a width variation identical to that of said lithographic lines. Accurate overprinting of the two printing types forms a curved relief structure wherein the width of the lines changes continuously. When a printed product is rotated and observed, a continuously variable optical effect will be seen, which is visual, readily to identify, anti-copying and difficult to forgery.

Abstract: An enhanced dynamic optically variable anti-counterfeiting effect and a preparation method thereof, comprises a full-page colored print form and a colored print form having high narrow stereoscopic lines, the colored print form having high narrow stereoscopic lines is overprinted on the full-page colored print form; the colored print form having high narrow stereoscopic lines has a shape of combined lines, comprising a curve line, a straight line, a dot matrix or a combination thereof; the interval of the lines is 100-300% times of the width of the lines, and the height of the lines is 10-100% times of the width of the lines; the color of the colored print form having high narrow stereoscopic lines is a complementary color of the color of the full-page colored print form in a color gamut space, or is visually significant different with the color of the full-page colored print form.

Abstract: An anti-counterfeiting pattern having an optically variable structure, comprising lithographic lines and gravure blind embossed relief lines printed on a carrier. The lithographic lines are a set of lithographic curve lines having a curvature, the widths of the lithographic curve lines changing from thick to thin, or thin to thick. The gravure blind embossed relief lines are a set of curve lines corresponding to the lithographic lines, and having the same curvature. The relief lines are overprinted on the lithographic lines with a width variation identical to that of said lithographic lines. Accurate overprinting of the two printing types forms a curved relief structure wherein the width of the lines changes continuously. When a printed product is rotated and observed, a continuously variable optical effect will be seen, which is visual, readily to identify, anti-copying and difficult to forgery.

Abstract: A method and apparatus for manufacturing a split antenna RFID tag, comprises: S1, driving, by a drive shaft and a drive shaft in a first conveying mechanism, the conveying of a carrier tape adhered with aluminum foil at a speed V1; and, letting an adhesive tape combine with the carrier tape, and cutting by a circular antenna die cutter to form aluminum foil antennas; S2, letting a base tape with RFID units convey at a variable speed, separating the RFID units from the base tape, and pasting the RFTD units onto the corresponding aluminum foil antennas on the carrier tape to form tag modules; S3, cutting, by a circular PET film die cutter, a PET film with back glue under the drive of the drive shaft to form PET films, and covering the PET films on the corresponding tag modules on the carrier tape to form semi-finished products.

Abstract: The invention relates to a fabric matrix RFID tag and a method for manufacturing the same. The method comprises the following steps: S1. manufacturing a plastically encapsulated RFID unit; S2. spinning or sewing a coupling antenna on a fabric matrix sheet by using metal wire yarns; and, S3. fixing the plastically encapsulated RFID unit in a position where a coupling portion of the coupling antenna is disposed on the fabric matrix sheet to form an RFID tag. In the invention, a coupling antenna is formed on the fabric matrix material by sewing and then the coupling antenna together with the plastically encapsulated RFID unit forms a fabric matrix RFID tag, thus breaking through restrictions on the application of the traditional RFID tags. The fabric matrix RFID tag obtained according to the method may be washed with water, dry-cleaned and randomly rubbed and kneaded, and acid and alkali resistant.