摘要:
A computerized system and method for managing parts shortages is disclosed. The computerized system and method analyzes inventory and production demand data over a period of time to whether the parts in inventory are sufficient to meet production demand. The projections allow a logistics provider to determine when parts shortages are likely to occur and the nature of the potential shortages. Information about the type and time of potential parts shortages allow the logistics provider to take action to prevent shortages entirely or minimize their impact on production. Some shortages may be covered by requesting delivery of parts from various locations within the site inventory or by locating parts within the site inventory. Other shortages may be covered by ordering more parts from suppliers. The ability to detect various types of shortages and take mitigating actions allow a logistics provider to maintain a flow of parts to production.
摘要:
A computerized automated demand-based parts delivery management system and method is disclosed. Parts for use in a production facility are received at a warehouse and housed in storage inventory areas such as trailers parked in a yard. Data about the parts in storage inventory areas and their locations as well as an inventory of parts in the warehouse are stored in a database. A “demand pegging” operation is performed by viewing current delivery inventory levels within the warehouse and applying them to production demand data to determine when parts will be depleted from delivery inventory areas. The operation further identifies storage inventory areas that have the needed parts. Process times for transporting parts between locations are considered in determining task times for transporting parts from storage inventory areas to delivery inventory areas so parts are replenished in advance of the deplete time determined by the demand pegging operation.
摘要:
A parts delivery management system and method that synchronizes production line side parts deliveries with a production schedule to facilitate delivering the right part to the right production line location at the right time. A consolidation center for receiving parts from suppliers is co-located with an assembly plant. Parts are received in returnable containers and organized for line side delivery according to the manufacturer's production schedule. Parts are delivered to production line locations using multi-cart “trains” that transport parts to the locations. Trains made of multiple carts are assembled throughout the production day and loaded with containers holding the parts that are then delivered line side. A delivery management system application executing on a computer receives production schedule data as well as part and container data to determine which parts are needed throughout the day at the various production line side locations and when they are needed.
摘要:
Exemplary embodiments provide a grasping and lifting device for moving a plurality of different-sized containers. The device contains a set of clamps which securely attach to a plurality of different-sized containers and allow them to be quickly lifted and relocated by an operator. A toggle device may also be used to hold the clamps in the open position for added security and efficiency. A hoisting device with a translating mechanism provides lift and motion assistance to the operator so that the risk of repetitive motion injury is reduced.
摘要:
Exemplary embodiments provide a grasping and lifting device for moving a plurality of different-sized containers. The dimensions of the grasping device do not have to be adjusted prior to engaging a container which allows an operator to move a variety of different-sized containers in a short period of time. A hoisting device with a counter weight provides lift and motion assistance to the operator so that the risk of repetitive motion injury is reduced.
摘要:
The invention provides a battery management system which can reliably and easily manage a power unit of an electric vehicle. The power unit includes a plurality of battery modules. The battery management system includes: a power source for a motor, the power source being constituted by a plurality of battery modules having battery cells; battery module status sensors mounted on the battery modules on the one to one basis, detecting voltages and temperatures of the battery modules; and a control unit judging statuses of the battery modules on the basis of data detected by the battery module status sensors. The battery module status sensors are mutually connected in series by a communication line for transmitting numbering data, and each battery module status sensor assigning itself with an ID code on the basis of ID information received from an upstream battery module status sensor, and transmitting the ID information as well as the ID code to a downstream battery module status sensor. The control unit is connected to the battery module status sensors via the communication line for transmitting the numbering data and a communication line for transmitting various data except for the numbering data, and locates an abnormal battery module on the basis of detection information received via the communication line for transmitting the numbering data and the communication line for transmitting various data except for the numbering data.
摘要:
A single flare tube, and a joint structure of the single flare tube makes a flare of the single flare tube hardly deformed plastically. Additionally, a tensile stress remains lower and is lower when the single flare tube is fastened. A joint structure of the single flare tube coupled with a union includes a single flare tube having a tube and a flare, a flare nut having a thread and a through-hole that receives the tube of the single flare tube, and a union having a thread for coupling with the thread of the flare nut. A width of a narrow inner circumferential groove of a radially outward extending part of the flare is substantially zero and stays substantially zero when the single flare tube is pushed against and coupled with the union by fastening the threads of the flare nut and the union together. Additionally, an internal diameter of the inner circumferential groove preferably is smaller than an external diameter of the tube. Furthermore, a curvature at a radially outer side of an outer corner of the single flare tube (where the tube is connected with the flare) is larger than a curvature at a radially inner side of the outer corner of the single flare tube along a longitudinal cut section of the single flare tube.
摘要:
A internal reforming type molten carbonate fuel cell is provided in which the process or flow direction of the reforming reaction of a raw fuel gas in the reforming reaction section is countercurrent to the flow direction of the oxidant gas in the cell reaction section. Therefore, a temperature difference in the fuel cell can be suppressed.
摘要:
Provided is technology which can prevent plunger deformation and further stabilize an intraocular lens insertion operation, even when an insertion tube section of an intraocular lens insertion apparatus has been further reduced in terms of the diameter thereof and has been made flatter. The intraocular lens insertion apparatus includes: a tip end region where a plunger comes into contact with an intraocular lens main body and an intraocular lens holding section; and a bar-shaped section extending from the rear end of this tip end region to the rear of the plunger. The bar-shaped section has a fixed thickness in the direction of the optical axis of the intraocular lens, and has an increasing thickness in a portion where the distance from the tip end of the tip end region is equal to or greater than a predetermined distance in a direction perpendicular to the optical axis direction and perpendicular to the plunger advancement direction.
摘要:
A semiconductor module includes: a semiconductor element (13) having a working unit (11) and a guard ring unit (12); and heat radiation members (15, 14) arranged on an upper surface and a lower surface of the semiconductor element for cooling the semiconductor element. A passivation film (20) covers the guard ring but does not cover the working unit. The upper heat radiation member (15) is made of a flat metal plate connected to the working unit without contact with the passivation film. The upper heat radiation member is connected to the lower heat radiation member (14) in the thermo-conducting way.