Electricity: measuring and testing – Magnetic – Displacement
Reexamination Certificate
2002-02-21
2003-06-03
Patidar, Jay (Department: 2862)
Electricity: measuring and testing
Magnetic
Displacement
C324S207240
Reexamination Certificate
active
06573708
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a linear displacement detecting structure and an electronic component mounting head including the linear displacement detecting structure.
2. Description of the Related Art
There has been known various linear displacement detecting structures, each structure including a shaft hole member having a shaft hole formed thereon, a shaft supported movably in its axis direction on the shaft hole member through the shaft hole, a scale moving with the shaft united, and a sensor for detecting the scale to determine the relative position in the axis direction between the shaft and the shaft hole member.
The shaft is slidable in the shaft hole member in the axis direction with spline fitting or the like.
A non-contact sensor, such as an optical sensor or magnetic sensor, is generally employed for detecting the scale.
The scale is formed by a number of fine grooves or magnetic thin film or the like arranged in a fine pitch along the axis direction. Abrasion of the scale may cause a degradation of the detecting precision by the sensor, and sometimes a detection failure. Therefore, the scale is usually arranged apart from the shaft hole member so as not to slide on to the shaft hole member.
FIG. 10
shows an example of conventional linear displacement detecting structure.
The linear displacement detecting structure
100
includes a shaft hole member
104
having a shaft hole
102
formed thereon, a shaft
106
supported movably in its axis direction on the shaft hole member
104
through the shaft hole
102
, a scale
108
moving with the shaft
106
united, a sensor
110
for detecting the scale
108
, and a base
112
supporting the sensor
110
and the hole member
104
.
The shaft
106
projects out from the end of cylindrical base
112
coaxial with the shaft, and protrudes or retracts in the axis direction.
The scale
108
, facing the sensor
110
, is a rod disposed in parallel with the shaft
106
in the vicinity of and along the periphery of the base
112
, and has on the surface a number of fine grooves formed in the axis direction by a proper fine pitch.
One end of the scale
108
is fixed to the shaft
106
through a plate bracket
114
disposed perpendicular to (radial direction) the shaft
106
.
The bracket
114
comes close to the base
112
when the shaft
106
is at the most retracted position. With such arrangement that the scale
108
and the bracket
114
are disposed close to the base
112
, protruded amount of the scale and the like is restricted to be small-sized.
The sensor
110
, a reflection-type photo-sensor, can detect the position of the scale
108
or the shaft
106
in the axis direction, sensing the grooves on the scale
108
.
Since the sensor
110
detects the position of the shaft
106
indirectly through the scale
108
and the bracket
114
, a detection error arises due to errors in fabricating and assembling the scale
108
and the bracket
114
.
Since the scale
108
and the bracket
114
are required to be light weighted for cooperative movement with the shaft
106
, it is difficult for them to have high rigidity. Their low rigidity causes the bracket
114
to pivotally swing around the mounting spot slightly, whereby the movement of the scale
108
does not synchronize with that of the shaft
106
, resulting in a detection error of the sensor
110
.
The shaft
106
may be extended to a protrusion direction to directly attach a scale to the extended portion with a sensor disposed near the extended portion. This structure can avoid the above-described detection error, as well as prevent the abrasion of the scale.
However, this extension of the shaft
106
is not preferable in view of installation space of the device because it makes the device longer in the axis direction.
For example, as JPA 2001-3008811 discloses, an electronic component mounting head having a linear displacement detecting structure needs compact size, avoiding long size in the axis direction.
SUMMARY OF THE INVENTION
It is an object of the invention to provide a linear displacement detecting structure in smaller size with higher detecting precision, and an electronic component mounting head having the linear displacement detecting structure.
In order to achieve the object mentioned above, the invention provides for a linear displacement detecting structure and an electronic component mounting head having the detecting structure. In a structure aspect, the invention includes a shaft hole member having a shaft hole formed thereon, a shaft supported movably in its axis direction on the shaft hole member through the shaft hole, a scale moving with the shaft united, and a sensor for detecting the scale to determine the relative position in the axis direction between the shaft and the shaft hole member. The structure has a contact area where a part of the periphery of the shaft fits in/contacts the shaft hole member directly or indirectly, and a non-contact area where the other part of the periphery is spaced apart from the shaft hole member. The scale is disposed in the non-contact area, and the sensor is disposed in the vicinity of the shaft hole member.
In a preferred embodiment, the shaft fits in the shaft hole member with a ball-spline mechanism.
In a particular arrangement, the structure may further include a bearing for supporting the shaft hole member rotatable around its axis so as to rotate the shaft united with the shaft hole member.
In a mounting head aspect, the mounting head includes the shaft hole member, a cylindrical shaft supported assembly in its axis direction on the shaft hole member through the shaft hole and having a component pick-up nozzle at the near top end for absorbing the component, the bearing, the scale, and the sensor. This structure detects the relative position in the axis direction between the shaft and the shaft hole member.
According to the invention, the relative position in the axis direction between the shaft and the shaft hole member can be detected in high precision.
REFERENCES:
patent: 4914389 (1990-04-01), Juds
patent: 4951048 (1990-08-01), Ichikawa et al.
patent: 5779367 (1998-07-01), Obara
patent: HEI 1-302101 (1989-12-01), None
Hiramatsu Tooru
Iijima Kunihiko
Kazehare Hiroyuki
Juki Corporation/Tamagawa Seiki Co., Ltd.
Morgan & Finnegan , LLP
Patidar Jay
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