Patent application number | Description | Published |
20110121671 | SINGLE BEARING MOTOR WITH MAGNETIC ELEMENT - A single bearing motor comprises a fan blade set, a motor set and a fan blade base. The fan blade set has a fan blade hub to join with a spindle fitting with a bearing on the outside thereof. The motor set is attached to the fan blade base and a hollow axial seat is provided in the center of the fan blade base to receive the bearing. Further, magnetic elements are disposed at the axial seat to avoid internal clearances being created for lack of a preset pressure acting on the bearing casing and balls therein. The balls and the bearing itself can run smoothly to effectively enhance motor operation. | 05-26-2011 |
20120183680 | METHOD OF FORMING A MOTOR WATERPROOF STRUCTURE - A method of forming a motor waterproof structure includes the steps of providing a motor stator assembly; using at least a first enclosing material to cover the whole motor stator assembly therein; using a second enclosing material to cover on an outer side of the first enclosing material, and leaving at least one opening on the second enclosing material to communicate the first enclosing material with an external environment; heating and curing the second enclosing material while bringing the first enclosing material to soften, melt and flow out of the cured second enclosing material via the at least one opening left thereon; and sealing the at least one opening on the second enclosing material. The motor waterproof structure formed with the method functions to protect the motor stator assembly against accumulated heat and has reduced forming cost and weight. | 07-19-2012 |
20130011267 | HUB STRUCTURE - A hub structure includes an annular body and a flow guide unit. The annular body has a top end and a receiving space. The flow guide unit is disposed at the top end of the annular body. At least one raised section is formed on one face of the flow guide unit opposite to the receiving space. A motor set is disposed in the receiving space. When the motor set operates, the annular body and the flow guide unit are driven to rotate around the axis of a shaft rod. At this time, airflow is conducted through the raised section into the receiving space to dissipate the heat generated by the motor set. Accordingly, the temperature of the motor set can be effectively lowered to prolong the lifetime of the motor set. | 01-10-2013 |
20130170967 | FAN IMPELLER STRUCTURE - A fan impeller structure includes an annular body. The annular body has a top section and a receiving space. At least one first bending section is formed between the top section and the annular body. At least one recess is formed at the first bending section. At least one flow guide hole is formed between the first bending section and the recess in communication with the receiving space. In operation, the airflow conducted into the receiving space is increased. Moreover, no matter whether the fan impeller structure is clockwise rotated or counterclockwise rotated, the airflow can be conducted into the receiving space through the flow guide hole. Accordingly, the heat dissipation effect will not be affected by the rotational direction of the fan impeller structure. | 07-04-2013 |
20130187484 | MOTOR STATOR WITH HEAT DISSIPATION STRUCTURE - A motor stator with heat dissipation structure for fan includes a silicon steel plate assembly having a plurality of magnetic-pole columns, on each of which at least one winding is wound, and a space is defined between any two adjacent magnetic-pole columns; a covering being a heat-conducting plastic material filled in the spaces while covering the silicon steel plate assembly and the windings; and a plurality of heat pipes being extended into or through the covering filled in the spaces, so that heat produced by the silicon steel plate assembly and the windings during operation thereof can be transferred to the covering, and the heat pipes can absorb the heat from the covering and dissipate the absorbed heat into ambient air. Therefore, the silicon steel plate assembly and the windings can have lowered temperature and the cooling fan can have upgraded heat dissipation characteristic. | 07-25-2013 |
20130195637 | FAN IMPELLER STRUCTURE AND MANUFACTURING METHOD THEREOF - A fan impeller structure and a manufacturing method thereof. The fan impeller structure includes a hub and multiple securing sections. The hub has a top section, an annular section and multiple recesses. The annular section axially extends from a circumference of the top section. The annular section and the top section together define a receiving space. The recesses are formed at a junction between the top section and the annular section. The securing sections are disposed in the receiving space and formed oppositely between the recesses. By means of the manufacturing method of the fan impeller structure, the manufacturing process is simplified. Moreover, by means of the securing sections, magnetic members can be quickly connected with and secured to inner circumference of the hub to save working time. | 08-01-2013 |
20130280086 | FAN IMPELLER STRUCTURE AND MANUFACTURING METHOD THEREOF - A fan impeller structure and a manufacturing method thereof. The fan impeller structure includes a base seat, multiple blades and a ring member. Each blade has a main body made of plastic material and at least one fixing member made of metal material. The base seat and the ring member are made of metal material. The base seat and the ring member are respectively disposed on two sides of the blades. By means of the manufacturing method, the blades can be diversified and the universality of the blades is greatly increased to lower the manufacturing cost. | 10-24-2013 |
20130301964 | BEARING RETAINING STRUCTURE - A bearing retaining structure includes a base, a stator assembly and a bearing. The base has a bearing cup projected from one side thereof, and the bearing cup internally defines a receiving space and has a fixed end connected to the base and an opposite free end. The bearing is disposed in the receiving space of the bearing cup. The stator assembly has an axially extended central opening and a retaining portion radially inward protruded from an inner wall surface of the central opening. The stator assembly is externally mounted around the bearing cup with the retaining portion tightly fitted around the free end of the bearing cup to narrow the receiving space, so that an inner wall surface of the receiving space is in tight contact with an outer wall surface of the bearing, and the bearing is stably retained in the bearing cup. | 11-14-2013 |
20130309086 | FAN BEARING RETAINING STRUCTURE - A fan bearing retaining structure includes a base and a ring member. The base has a bearing cup projected from one side thereof, and the bearing cup internally defines an axial bore for receiving a bearing therein. The ring member is fitted around an outer side of the bearing cup and defines an opening, such that an inner side of the opening tightly contacts with the outer side of the bearing cup to apply a radially inward compression toward the axial bore. With these arrangements, a portion of the axial bore corresponding to the ring member fitted around the bearing cup has a reduced inner diameter to thereby effectively retain the bearing in the bearing cup, enabling a fan to be manufactured at reduced cost. | 11-21-2013 |
20140112807 | MOTOR PROTECTION STRUCTURE - A motor protection structure includes a stator assembly, a casing and a filling material. The stator assembly is coated with a coating and fitted on one side of the casing. The casing has a receiving space for receiving a circuit board. The filling material is filled in the receiving space to enclose the circuit board. The filling material is connected to the coating to fully seal the stator assembly and the casing so as to lower manufacturing cost and shorten working time. | 04-24-2014 |
20140112810 | FAN AND BEARING COOLING STRUCTURE THEREOF - A bearing cooling structure includes a metal base seat and a plastic bearing cup. The metal base seat has a raised section and an extension section. The plastic bearing cup encloses the raised section and has an inner circumference defining a bearing hole. The extension section horizontally extends from the raised section toward a center of the plastic bearing cup. The extension section has a free end and an upper surface positioned in the bearing hole. A bearing is received in the bearing hole and disposed on the extension section. A bottom face of the bearing is in contact with the upper surface of the extension section. Accordingly, the heat of the bearing can be transferred (conducted) through the extension section to the metal base seat to be dissipated. A fan with the bearing cooling structure is also disclosed. | 04-24-2014 |
20140175923 | WATERPROOF MOTOR STATOR STRUCTURE - A waterproof motor stator structure includes a circuit board; a stator mounted on one face of the circuit board; a lower shell forming an open-topped annular recess for receiving the circuit board therein and having an central opening communicable with the annular recess; an upper shell fitted around an outer side of the stator; and a protective layer formed in the annular recess of the lower shell to encapsulate the circuit board and an open lower end of the upper shell, so that the lower shell and the upper shell are joined into an integral unit. With these arrangements, the stator located in between the lower and upper shells can be effectively protected against external moisture and salt spray with reduced time, labor and material costs while enabling extended service life a fan using same. | 06-26-2014 |
20140178184 | FAN AND MOTOR BEARING HEAT DISSIPATION STRUCTURE THEREOF - A motor bearing heat dissipation structure includes a metal base, a heat conducting element connected to the metal base and including a wall portion and an extended portion, and a plastic bearing cup located around an outer side of the wall portion of the heat conducting element and fixed to the metal base. The plastic bearing cup internally defines a bearing receiving hole. The extended portion is horizontally extended from an upper end of the wall portion toward a center of the plastic bearing cup. A bearing is received in the bearing receiving hole and seated on the extended portion, so that heat produced by the bearing when it rotates along with a rotary shaft of a motor is transferred from the extended portion of the heat conducting element to the metal base for dissipation. A fan using such motor bearing heat dissipation structure is also disclosed. | 06-26-2014 |
20150084569 | INTEGRATED SYSTEM OF CIRCUITS FOR SERIAL FAN STRUCTURE - An integrated system of circuits for serial fan structure includes a first and a second fan connected back to back. A first driving unit and a first control unit for the first fan and a second driving unit and a second control unit for the second fan are sequentially electrically connected to a circuit board in the second fan. Further, a first coil assembly of the first fan and a second coil assemble of the second fan are also electrically connected to the circuit board in the second fan; and some low-use-rate electronic circuits are included in a common circuit unit of the first and the second fan. Therefore, the serial fan structure can save one circuit board and some low-use-rate electronic circuits from the first fan to achieve the purpose of reducing the manufacturing cost of the serial fan structure. | 03-26-2015 |