IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0185053
(2005-07-20)
|
등록번호 |
US-7669305
(2010-04-21)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
18 |
초록
▼
A method and article for designing dual-mode adapters in a joint press kit. A plurality of ball joints for use with the adapters are selected. An adapter design is created by defining a first variable representative of a physical characteristic of the adapter design; defining a second variable repre
A method and article for designing dual-mode adapters in a joint press kit. A plurality of ball joints for use with the adapters are selected. An adapter design is created by defining a first variable representative of a physical characteristic of the adapter design; defining a second variable representing a quantity of ball joints that are not compatible with the adapter design in a second operational mode; generating data sets including the first and second variables; and utilizing the data sets to determine a value for a characteristic of the adapter.
대표청구항
▼
The invention claimed is: 1. A method for designing at least one dual-mode adapter for use with a ball joint press, the method comprising: selecting a plurality of ball joints for use with the ball joint press, creating an adapter design, wherein the step of creating comprises defining a first vari
The invention claimed is: 1. A method for designing at least one dual-mode adapter for use with a ball joint press, the method comprising: selecting a plurality of ball joints for use with the ball joint press, creating an adapter design, wherein the step of creating comprises defining a first variable as an inner diameter (ID) of the adapter design, generating a first data set that includes defining, for each of the plurality of ball joints, a minimum ID (MIN) and a maximum ID (MAX) of the adapter design sufficient to allow the adapter design to work as a push adapter and calculating, for each of the plurality of ball joints, a midpoint (MID) between MIN and MAX, sorting the first data set in ascending order by MID value, defining a second variable representing a quantity of ball joints that are not compatible with the adapter design in a second operational mode, defining a plurality of hypothetical values of the first variable, generating a second data set including a value of the second variable for each hypothetical value of the first variable, utilizing the first data set to determine a design value for the first variable, comprising the steps of: establishing predetermined design criteria, electing a number (1 . . . n) of ball joints, computing an average value (AVE) of MID for the n ball joints, calculating the standard deviation (SDEV) between AVE and the MID of the next ball joint (n+1) in the first data set, dividing the MID of the last ball joint selected by a numerical factor established in the predetermined design criteria to obtain a quotient, and if SDEV is greater than or equal to the quotient, setting the design value to AVE, comparing the design value to the second data set to determine whether or not to change the design value to increase the number of ball joints that will function with the adapter design in the second operational mode, and changing the adapter design value in response to an affirmative determination that the design value should be changed to increase the number of ball joints that will function with the adapter design; and manufacturing the dual-mode adapter according to the adapter design. 2. A method for designing at least one dual-mode adapter for use with a ball joint press, the method comprising: selecting a plurality of ball joints for use with the ball joint press, creating an adapter design, wherein the step of creating comprises defining a first variable representative of a physical characteristic of the adapter design, generating a first data set that includes a value of the first variable, for each of the plurality of ball joints, that is sufficient to allow the adapter design to work with the respective ball joint in a first operational mode, defining a second variable to represent a number of ball joints with which the adapter design will not function as a receiver, defining a plurality of hypothetical values of the first variable, generating a second data set including a value of the second variable for each hypothetical value of the first variable, comprising: defining the first variable as an inner diameter (ID) of the ball joint adapter design, determining for each predetermined value of the first variable, the number of ball joints (RECFAIL) with which the adapter design will not function as a receiver, and sorting the second data set, in ascending order, by ID, utilizing the first data set to determine a design value for the first variable, comparing the design value to the second data set to determine whether or not to change the design value to increase the number of ball joints that will function with the adapter design in the second operational mode, and changing the adapter design value in response to an affirmative determination that the design value should be changed to increase the number of ball joints that will function with the adapter design; and manufacturing the dual-mode adapter according to the adapter design. 3. The method of claim 2, wherein the step of utilizing the second data set comprises: scanning the second data set, in ascending order until a predetermined value greater than the design value is located, determining whether RECFAIL for the predetermined value greater than the design value is located, changing the design value to the predetermined value greater than the design value if RECFAIL for the predetermined value greater than the design value is less than RECFAIL, for the predetermined value immediately previous in the second data set. 4. The method of claim 3, further comprising: verifying that adapter design will function in the first operational mode for the plurality of ball joints.
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