Abstract: An electric stirrer and charging base, wherein electric stirrer comprises a stirrer body and a stirring component, the stirring component is provided at the bottom end of stirrer body, and a supporting part is provided on the bottom of stirrer body; the charging base comprises a charging base body. A bearing part is provided in charging base body, and the stirrer body is supported on bearing part of charging base body through the supporting part, so that stirring component is located below stirrer body and suspended. While avoiding the risk of any liquid flowing into stirrer body to damage the internal circuitry or motor, the technical solution of the present invention prevents the stirring component from contacting any other item to avoid the contamination risk of stirring component. In addition, stirrer body can be placed, charged and taken for use conveniently, and in a normal gesture without any excess motion.

Abstract: An autonomous robotic exploration method based on a reduced approximated generalized Voronoi graph, the method including: 1) constructing a reduced approximated generalized Voronoi topological map based on a morphological method; 2) obtaining an Next-Best-View and planning a global path from the robot to the Next-Best-View; and 3) navigating to the Next-Best-View along the global path R={r0, r1, r2, . . . , pNBV} based on a visual force field (VFF) algorithm.

Abstract: A method, including: 1) inputting a multi-story point cloud, and segmenting a story and an inter-story connection region based on an elevation histogram of the point cloud in a vertical direction; 2) segmenting rooms for each story based on a grid map projected onto an XOY plane respectively, wherein the XOY plane is parallel to a flooring; 3) segmenting indoor space cells for each story based on a vector wall line respectively; constructing a vector indoor plan based on superimposition of the vector and the grid for each story respectively; and 5) establishing a three-dimensional model of a multi-story structure by deleting an overlapping surface between the story and the connection region according to the Boolean intersection.

Abstract: The present application belongs to the field of biotechnology, and particularly relates to preparation and use of soluble Tim-3 recombinant protein and a mutant protein thereof. The soluble Tim-3 recombinant protein is used to prepare a drug with the function of regulating monocytes or a drug with the function of enhancing tumor immune response, and the amino acid sequence of the soluble Tim-3 recombinant protein is as shown in SEQ ID NO: 1. In addition, the present application further provides the mutant proteins of the sTim-3 recombinant protein and preparation and use of the mutant protein. The mutant recombinant protein is obtained by screening through a directed evolutionary technology, with the function of regulating monocytes or the function of enhancing tumor immune response, and combines with a host codon optimization method to improve the expression efficiency.

Abstract: An autonomous robotic exploration method based on a reduced approximated generalized Voronoi graph, the method including: 1) constructing a reduced approximated generalized Voronoi topological map based on a morphological method; 2) obtaining an Next-Best-View and planning a global path from the robot to the Next-Best-View; and 3) navigating to the Next-Best-View along the global path R={r0, r1, r2, . . . , pNBV} based on a visual force field (VFF) algorithm.

Abstract: A method, including: 1) inputting a multi-story point cloud, and segmenting a story and an inter-story connection region based on an elevation histogram of the point cloud in a vertical direction; 2) segmenting rooms for each story based on a grid map projected onto an XOY plane respectively, wherein the XOY plane is parallel to a flooring; 3) segmenting indoor space cells for each story based on a vector wall line respectively; constructing a vector indoor plan based on superimposition of the vector and the grid for each story respectively; and 5) establishing a three-dimensional model of a multi-story structure by deleting an overlapping surface between the story and the connection region according to the Boolean intersection.

Abstract: The present invention relates to the field of sleeve type bottle openers, in particular to a sleeve type bottle opener suitable for bottle stoppers of different sizes. The sleeve type bottle opener comprises a cylindrical sleeve body and a bottle mouth guide part, wherein the bottle mouth guide part is arranged at a lower end of the sleeve body. According to the present invention, rigid claws fixed to rigid walls as well as elastic claws fixed to elastic walls are arranged on an inner wall of the sleeve type bottle opener; the diameter of an inscribed circle corresponding to the elastic claws can vary with the stretching of the elastic walls, so that the sleeve type bottle opener can be applied to bottle stoppers of different sizes.

Abstract: The present invention relates to the field of sleeve type bottle openers, in particular to a sleeve type bottle opener suitable for bottle stoppers of different sizes. The sleeve type bottle opener comprises a cylindrical sleeve body and a bottle mouth guide part, wherein the bottle mouth guide part is arranged at a lower end of the sleeve body. According to the present invention, rigid claws fixed to rigid walls as well as elastic claws fixed to elastic walls are arranged on an inner wall of the sleeve type bottle opener; the diameter of an inscribed circle corresponding to the elastic claws can vary with the stretching of the elastic walls, so that the sleeve type bottle opener can be applied to bottle stoppers of different sizes.

Abstract: The present utility model discloses an electric tinfoil-cutting device for automatic corkscrews, which comprises a reduction gearbox, a driving motor, a movable support and a blade assembly comprising a blade-mounting carrier and blade-mounting blocks, wherein the movable support are provided with support limit projections which are embedded in mounting carrier limit notches of the blade-mounting carrier, each of the blade-mounting blocks comprises a horizontal mounting block portion and a vertical mounting block portion, and a tinfoil-cutting blade is mounted on the vertical mounting block portion. The electric tinfoil-cutting device of the present utility model can achieve an automatic tinfoil-cutting function and has the advantages of novel structural design, high degree of automation, and convenience in use.

Abstract: The present utility model discloses an electric tinfoil-cutting device for automatic corkscrews, which comprises a reduction gearbox, a driving motor, a movable support and a blade assembly comprising a blade-mounting carrier and blade-mounting blocks, wherein the movable support are provided with support limit projections which are embedded in mounting carrier limit notches of the blade-mounting carrier, each of the blade-mounting blocks comprises a horizontal mounting block portion and a vertical mounting block portion, and a tinfoil-cutting blade is mounted on the vertical mounting block portion. The electric tinfoil-cutting device of the present utility model can achieve an automatic tinfoil-cutting function and has the advantages of novel structural design, high degree of automation, and convenience in use.

Abstract: One or more techniques and/or systems are disclosed for increasing compressed air efficiency in a pump that utilizes an air efficiency device in order to optimize the amount of a compressed air in the pump. The air efficiency device may allow for controlling the operation of the air operated diaphragm pump by reducing the flow of compressed air supplied to the pump as the pump moves between first and second diaphragm positions. A sensor may be used to monitor velocity of the diaphragm assemblies. In turn, full position feedback is possible so that the pump self-adjusts to determine the optimum, or close to optimum, turndown point of the diaphragm assemblies. As such, air savings are achieved by minimizing the amount of required compressed air.

Abstract: One or more techniques and/or systems are disclosed for increasing compressed air efficiency in a pump utilizes an air efficiency device in order to optimize the amount of a compressed air in a pump. The air efficiency device may allow for controlling the operation of the air operated diaphragm pump by reducing the flow of compressed air supplied to the pump as the pump moves between first and second diaphragm positions. A sensor may be used to monitor velocity of the diaphragm assemblies. In turn, full position feedback is possible so that the pump self-adjusts to determine the optimum, or close to optimum, turndown point of the diaphragm assemblies. As such, air savings is achieved by minimizing the amount of required compressed air.

Abstract: One or more techniques and/or systems are disclosed for increasing compressed air efficiency in a pump that utilizes an air efficiency device in order to optimize the amount of a compressed air in the pump. The air efficiency device may allow for controlling the operation of the air operated diaphragm pump by reducing the flow of compressed air supplied to the pump as the pump moves between first and second diaphragm positions. A sensor may be used to monitor velocity of the diaphragm assemblies. In turn, full position feedback is possible so that the pump self-adjusts to determine the optimum, or close to optimum, turndown point of the diaphragm assemblies. As such, air savings are achieved by minimizing the amount of required compressed air.

Abstract: One or more techniques and/or systems are disclosed for increasing compressed air efficiency in a pump utilizes an air efficiency device in order to optimize the amount of a compressed air in a pump. The air efficiency device may allow for controlling the operation of the air operated diaphragm pump by reducing the flow of compressed air supplied to the pump as the pump moves between first and second diaphragm positions. A sensor may be used to monitor velocity of the diaphragm assemblies. In turn, full position feedback is possible so that the pump self-adjusts to determine the optimum, or close to optimum, turndown point of the diaphragm assemblies. As such, air savings is achieved by minimizing the amount of required compressed air.

Abstract: One or more techniques and/or systems are disclosed for increasing compressed air efficiency in a pump utilizes an air efficiency device in order to optimize the amount of a compressed air in a pump. The air efficiency device may allow for controlling the operation of the air operated diaphragm pump by reducing the flow of compressed air supplied to the pump as the pump moves between first and second diaphragm positions. A sensor may be used to monitor velocity of the diaphragm assemblies. In turn, full position feedback is possible so that the pump self-adjusts to determine the optimum, or close to optimum, turndown point of the diaphragm assemblies. As such, air savings is achieved by minimizing the amount of required compressed air.

Abstract: One or more techniques and/or systems are disclosed for increasing compressed air efficiency in a pump utilizes an air efficiency device in order to optimize the amount of a compressed air in a pump. The air efficiency device may allow for controlling the operation of the air operated diaphragm pump by reducing the flow of compressed air supplied to the pump as the pump moves between first and second diaphragm positions. A sensor may be used to monitor velocity of the diaphragm assemblies. In turn, full position feedback is possible so that the pump self-adjusts to determine the optimum, or close to optimum, turndown point of the diaphragm assemblies. As such, air savings is achieved by minimizing the amount of required compressed air.

Abstract: A method for increasing compressed air efficiency in a pump utilizes an air efficiency device in order to optimize the amount of a compressed air in a pump. The air efficiency device may allow for controlling the operation of the air operated diaphragm pump by reducing the flow of compressed air supplied to the pump as the pump moves between first and second diaphragm positions. A sensor may be used to monitor velocity of the diaphragm assemblies. In turn, full position feedback is possible so that the pump self adjusts to determine the optimum, or close to optimum, turndown point of the diaphragm assemblies. As such, air savings is achieved by minimizing the amount of required compressed air.

Abstract: In one embodiment, a method for providing correlation of billing entries for a mobile communications network is provided. A correlating network element in a bearer path determines a plurality of billing entries for a flow. One or more of the billing entries may be received from other network elements and includes traffic altering information for a flow. The correlating network element correlates the plurality of billing entries using state information included in the billing entries. The state information is used to determine information in billing entries that may be related, such as billing entries for a single flow. Also, the correlating network element uses the traffic altering information to determine a data volume sent for the flow. A correlated billing entry may then be generated using the data volume for the flow. The correlated billing entry is then sent to a billing system from the correlating network element.

Abstract: A method for increasing compressed air efficiency in a pump utilizes an air efficiency device in order to optimize the amount of a compressed air in a pump. The air efficiency device may allow for controlling the operation of the air operated diaphragm pump by reducing the flow of compressed air supplied to the pump as the pump moves between first and second diaphragm positions. A sensor may be used to monitor velocity of the diaphragm assemblies. In turn, full position feedback is possible so that the pump self adjusts to determine the optimum, or close to optimum, turndown point of the diaphragm assemblies. As such, air savings is achieved by minimizing the amount of required compressed air.