1. A six-forward speed, one-reverse-speed automatic speed change apparatus for motor vehicles comprising:
a first shaft (100) for receiving power from a prime mover via a torque converter (10);
a second shaft (200) disposed in parallel with the first shaft (100) for transmitting the power therethrough;
a third shaft (300) provided in parallel to the second shaft (200) for delivering the power through a differential gear (40);
first and second planetary gear sets (20)(30) provided on the second shaft (200) and comprising first, second and third elements for receiving power and a fourth element for delivering power therethrough;
first, second and third drive paths for connecting the first shaft (100) to the first, second and third elements of the first and second planetary gear sets (20)(30);
first, second and third counter gear sets (1)(2)(3) providing the first, second and third drive paths, respectively, and each comprising two gears in mesh with each other;
clutches (C1)(C2)(C3) provided in the first, second and third drive paths, respectively;
brakes (B2)(B1) provided in the respective second and third drive paths for braking the respective second and third elements;
a one-way clutch (232) provided in the third drive path for braking the third element only in a direction opposite to the direction of rotation thereof in which power is input; and
a fourth counter gear set coupling the second shaft (200) to the third shaft (300),
wherein a ring gear (23) of the first planetary gear set (20) serves as the first element having the first drive path connected thereto,
wherein a planetary carrier (24) supporting planetary gears (22) in mesh with the ring gear (23) serves as the fourth element,
wherein a sun gear (21) meshing with the planetary gears (22) is joined to a sun gear (31) of the second planetary gear set (30) to provide the second element having the second drive path connected thereto,
wherein a planetary carrier (34) supporting planetary gears (32) in mesh with the sun gear (31) serves as the third element having the third drive path connected thereto,
wherein a ring gear (33) meshing with the planetary gears (32) serves as the fourth element,
wherein the planetary carrier (24) and the ring gear (23) serving as the fourth elements are joined to the second shaft (200) for transmitting power therethrough, and
wherein two of the clutches (C1)(C2)(C3) for controlling the first, second and third drive paths, the brakes (B2)(B1) and the one-way clutch (232) are selectively engaged to obtain seven speeds.
2. The six-forward-speed, one-reverse-speed automatic speed change apparatus according to claim 1,
wherein the first, second and third drive paths for coupling the first shaft (100) to the second shaft (200) are arranged in this order in the direction of the torque converter (10),
wherein the first planetary gear set (20) is disposed on the second shaft (200) between the first and second drive paths,
wherein the second planetary gear set (30) is disposed on the second shaft (200) between the second and third drive paths,
wherein the clutch (C1) provided in the first drive path and the brake (B1) and the one-way clutch (232) provided in the third drive path are arranged on the second shaft (200),
wherein the clutch (C2) and the brake (B2) provided in the second drive path and the clutch (C3) provided in the third drive path are arranged on the first shaft (100), and
wherein the fourth counter gear set coupling the second shaft (200) to the third shaft (300) is disposed closer to the torque converter (10) than the first chive path.
3. The six-forward-speed, one-reverse-speed automatic speed change apparatus according to claim 1,
wherein the ring gear (23) serving as the first element of the first planetary gear set (20) is held between the planetary carrier (24) and the counter gear (210) provided on the second shaft (200) and included in the first counter gear set (1) by a plate connected to the ring gear (23) by means of a thrust bearing,
wherein the sun gear (21) and the sun gear (31) joined together and providing the second element are integral with the counter gear (220) provided on the second shaft (200) and included in the second counter gear set (2),
wherein the planetary carrier (34) serving as the third element is supported by a bush on the second shaft (200) and connected to the counter gear (230) provided on the second shaft (200) and included in the third counter gear set (3) by a joint at an outer peripheral portion of the second planetary gear set (30),
wherein the planetary carrier (24) and the ring gear (23) serving as the fourth elements are splined to the second shaft (200) for transmitting power therethrough respectively at different positions, and
wherein a spline hub of the ring gear (33) has splined bore opposite end portions fitting around the second shaft (200) so as to be coaxial therewith.
4. The six-forward-speed, one-reverse-speed automatic speed change apparatus according to claim 1,
wherein the counter gear (110) of the first counter gear set (1) providing the first drive path is integral with the first shaft (100), and the counter gear (210) meshing with the counter gear (110) is rotatably held by a needle roller bearing (211) on the second shaft (200),
wherein the counter gear (120) of the second counter gear set (2) providing the second drive path is rotatably held by a needle roller bearing (121) on the first shaft (100), and the counter gear (220) meshing with the counter gear (120) is rotatably held by a needle roller bearing (221) on the second shaft (200),
wherein the counter gear (130) of the third counter gear set (3) providing the third drive path is rotatably held by a needle roller bearing (131) on the first shaft (100), and the counter gear (230) meshing with the counter gear (130) is rotatably held by a needle roller bearing (231) on the spline hub integral with the ring gear of the second planetary gear set,
wherein the counter gear (110) integral with the first shaft (100) has an inner periphery thereof supported by a cylindrical roller bearing (140) on a support fixed to a housing (5) of the speed change apparatus to thereby support the first shaft (100), and the first shaft (100) is supported by a wall portion (5a) and a boss portion (5b) which are integral with the housing (5) of the speed change apparatus by means of needle roller bearings (150) and (160), and
wherein the second shaft (200) has opposite ends thereof supported respectively by tapered roller bearings (250) and (260) on a torque converter housing (4) and a rear cover (6) which are fixed to the housing (5) of the apparatus.
5. A six-forward-speed, one-reverse-speed automatic speed change apparatus according to claim 1,
wherein the clutches (C1)(C2)(C3) for controlling the respective first, second and third drive paths and the brakes (B2) (B1) are hydraulic actuators having first, second, third, fourth and fifth friction members, piston and piston return springs respectively, and the one-way clutch for controlling the third drive path is a mechanical actuator,
wherein the clutch (C1) provided on the second shaft (200) has the first friction members arranged at an outer peripheral portion of the first planetary gear set (20), a connecting-holding member welded to the counter gear (210) and holding one of the first friction members against rotation but axially movably, the first piston and the first return spring which are held by the counter gear (210), and an outer peripheral connecting portion of the ring gear (23) for holding the other first friction member against rotation but axially movably,
wherein the brake (B1) provided on the second shaft (200) has the fifth friction members arranged at an outer peripheral portion of the second planetary gear set (30), a connecting-holding member integral with the wall portion 5a of the housing 5 for holding one of the fifth friction members against rotation but axially movably, the fifth piston held by the rear cover 6 supporting the tapered roller bearing (260) and having a cutout at a portion thereof to be interfered with by the counter gear (130), the fifth return spring, and a connecting-holding member extending from the planetary carrier (34) for holding the other fifth friction member against rotation but axially movably,
wherein the one-way clutch (232) provided on the second shaft (200) having an inner race connected to the rear cover 6 holding the piston of the brake (B1) and an outer race provided by the inside of an outer peripheral portion of the counter gear (230),
wherein the clutch (C2) provided on the first shaft (100) has the second friction members arranged at the same position as the first friction members of the clutch (C1) with respect to the axial direction, a connecting-holding member welded to the counter gear (110) and holding one of the second friction members against rotation but axially movably, the second piston and the second return spring which are held by the first shaft (100) and the counter gear (110), and a connecting-holding member welded to the counter gear (120) and holding the other second friction member against rotation but axially movably,
wherein the brake (B2) provided on the first shaft (100) has the fourth friction members arranged at the same position as the fifth friction members of the brake (B1) with respect to the axial direction, a connecting-holding member of the housing (5) for holding one of the fourth friction members against rotation but axially movably, the fourth piston and the fourth return spring which are held by the boss portion (5b) and the wall portion (5a), and a connecting-holding member welded to the counter gear (120) and holding the other fourth friction member against rotation but axially movably, and
wherein the clutch (C3) provided at an end portion of the first shaft (100) has a clutch case splined to the first shaft (100), one of the third friction members held by the clutch case against rotation but axially movably, the third piston and the third return spring which are held by the clutch case, and a connecting-holding member welded to the counter gear (130) and holding the other third friction member against rotation but axially movably.
6. A six-forward-speed, one-reverse-speed automatic speed change apparatus according to claim 1,
wherein the reduction gear ratios of the respective counter gear sets (1)(2)(3) providing the first, second and third drive paths obtained by dividing the numbers of teeth of the counter gears (21O)(220)(230) on the second shaft (200) by the respective numbers of teeth of the counter gears (110)(120)(130) on the first shaft (100) and meshing therewith are so determined that the counter gear set (1) and the counter gear set (2) are the same or different in reduction gear ratio, and the counter gear set (3) is smaller than the counter gear sets (1)(2) in reduction gear ratio.
7. A six-forward-speed, one-reverse-speed automatic speed change apparatus according to claim 1,
wherein inlets to the first shaft (100) of first and second oil channels (401)(402) for guiding a hydraulic oil to the clutches (C2)(C3) on the first shaft (100) are formed by circumferential grooves in an outer periphery of the first shaft (100) and three rotating seal rings around the outer periphery and in contact with an inner peripheral portion of the support fixed to the housing (5),
wherein an inlet to the first shaft (100) of an third oil channel (403) for guiding a supply oil of low pressure to bearings, etc. arranged for the first shaft (100) is formed in side portions of the support (7) and the gear (110) by one rotating seal ring in contact with an inner peripheral portion of the counter gear (110) and disposed around the support (7) for the cylindrical roller bearing (140), a circumferential groove formed in the outer periphery of the first shaft (100) and a rotating seal ring adjacent to said one rotating seal ring, and
wherein an inlet to the second shaft (200) of an fourth oil channel (404) for guiding a hydraulic oil to the clutch (C1) on the first shaft (100) and an inlet to the second shaft (200) of an fifth oil channel (405) for guiding a supply oil of low pressure to bearings, etc. arranged for the second shaft (200) are formed in a stepped bore formed in the second shaft (200) at one end thereof where the tapered roller bearing (250) is positioned, the inlets being defined by two rotating seal rings which are provided around an outer periphery of stepped portion of a channel-attached member fastened to the torque converter housing (4) and which are in contact with respective two portions, having different diameters, of an inner periphery of the shaft end defining the stepped bore, the inlets being formed in an upper part of the stepped bore and in the center of the stepped bore.
8. Automatic speed change apparatus for motor vehicles as recited in claim 1,
wherein said fourth counter gear set has a counter gear (340) on the third shaft (300) and is provided with a parking gear (341).
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A system that facilitates background searching across a plurality of data sources, comprising:
a background processor that analyzes a current user input to at least one application in real time to automatically determine terms for potential queries of interest from the current user input and constructs an implicit query from the terms, the determination of terms is based at least on a frequency of occurrence of the terms in the application;
an implicit query interface associated with the application, the implicit query interface presents results retrieved upon a search employing the constructed queries to a user; and
at least one model for estimating a value of the results of the constructed implicit query, so that a rendering of the results is suppressed when the value of the results falls below a threshold of value,
wherein the threshold value is dynamically computed based on a user’s context.
2. The system of claim 1, further comprising a context component to facilitate determination of the potential queries of interest.
3. The system of claim 2, context component employs at least one of a calendar, a detected application activity, detected application content, a log of previous activities, an explicit profile, a microphone, a camera, a face recognizer, and phone activity, to determine a user’s current context.
4. The system of claim 1, further comprising a component to present alternative queries to a user.
5. The system of claim 1, further comprising a component to allow the user to select a different query from the potential queries of interest.
6. The system of claim 1, further comprising a component that predicts a value of alternative queries based upon data gathered from user logs.
7. The system of claim 1, further comprising a component to adjust a query interface from a user’s data log.
8. The system of claim 1, further comprising a component that groups similar results together for display.
9. The system of claim 1, further comprising a component that processes content from at least one other application or from interaction history between applications.
10. The system of claim 1, further comprising a component that stores results of background queries and provides summaries available for review by users at future times.
11. The system of claim 10, further comprising a component that associates results of background queries with one or more aspects of the past focus of attention or user activities that occurred during or near the time that the results were generated, as labels for assisting users with recall of a context.
12. The system of claim 1, further comprising a plug-in component that analyzes what a user is reading or composing and automatically finds related items in an index of personal or shared information, which includes mail, calendar appointments, web pages, files, IM messages, database entries.
13. The system of claim 12, further comprising a wrapper to analyze context from other applications and to retrieve information from at least one other data source.
14. The system of claim 1, further comprising a peripheral display such as a sidebar attached to a current application which allows users to maintain their task focus and receive peripherally-presented suggestions.
15. The system of claim 14, further comprising quick links to related people or topics.
16. The system of claim 14, further comprising a component to control presentation parameters for display of results.
17. The system of claim 14, further comprising a feedback and logging component to asses the quality of returned search results.
18. The system of claim 15, further comprising a feedback and logging component that asses the quality of returned search results, consider at least one of a context, a query, properties relating to a list of results, and user interaction with the list of results.
19. The system of claim 18, further employing procedures for building logical or statistical models from logged data from one or more users that can be used to predict the quality of returned search results.
20. The system of claim 18, further comprising at least one interface to a content indexer or search engine to retrieve the search results.
21. The system of claim 1, further comprising a component to display an implicit query.
22. The system of claim 21, further comprising a method for displaying and selecting alternative suggestions.
23. The system of claim 21, further comprising a component for the user to modify the implicit query.
24. A computer readable medium having computer readable instructions stored thereon for implementing the components of claim 1.
25. A computer implemented information retrieval system, comprising the following computer components stored at least in a computer readable medium:
means for performing a background analysis for content of at least one application;
means for automatically determining relevant terms from a current user input based at least on a frequency of occurrence of the relevant terms in the application;
means for constructing an implicit query from the determined terms,
wherein the terms are determined based at least on their frequency of occurrence within the content of the application;
means for retrieving information based at least in part on the implicit query;
means for displaying the retrieved information;
means for estimating a value of the information retrieved in response to the implicit query; and
means for suppressing the retrieved information when the value falls below a threshold value,
wherein the threshold value is dynamically computed based on a user’s context.
26. A method for performing automated information retrieval, implemented at least in part by a computing device, comprising:
analyzing a user’s input to at least one application in real time;
determining expressions of interest from the user’s input within the application;
automatically ranking the expressions based at least on a frequency of occurrence of the expressions in the application;
performing a search in accordance with an implicit query created from the ranked expressions;
retrieving results relevant to the implicit query;
estimating a value of the result retrieved in response to the implicit query;
dynamically computing a threshold value for the retrieved results based at least on a user’s context; and
suppressing a display of the retrieved results if the estimated value of the retrieved results falls below the threshold value.
27. The method of claim 26, further comprising adding or deleting words from the potential queries as the user interacts with the application.
28. The method of claim 26, further comprising counting a number of words in an application.
29. The method of claim 28, further comprising performing a look up on how many different documents in which a word occurs.
30. The method of claim 29, further comprising querying based upon a default number of words.
31. The method of claim 30, further comprising employing a probabilistic matching algorithm to determine a search result.
32. The method of claim 26, further comprising adding words to a query based on a score for query words computed as a function of the frequency of the terms in relevant activity-based content and the frequency of the term in a larger corpora under consideration.
33. The method of claim 26, further comprising adding words to a query based on a score for query words computed as proportional to the frequency of the terms in relevant activity-based content and inversely proportional to the frequency of the terms in a larger corpora under consideration.
34. The method of claim 26, further comprising adding words to a query based on a score for query words computed as being proportional to a monotonic increasing function of the frequency of the term in the document and inversely proportional to a monotonic-increasing function of the frequency of the term in a larger corpora under consideration.
35. The method of claim 26, further comprising at least one of allowing names of all or a subset of people involved in an application to be explicitly added as query terms; explicitly adding a subject of an application as query terms; and providing policies to exclude or include selected search criteria.