Roller pair assembly usable in image forming apparatus

A roller pair assembly for a pair of registration rollers which accelerates a sheet along an image receiving path. A compression spring positioned between a clip and a retainer provides a force at each end of the rollers urging them together. The retainer includes a nest for receiving the compression spring and a bearing surface for engaging a bearing housing for one of the rollers. The clip includes a projection for engaging the compression spring and a pair of resilient arms with detents engaging detents in an outside surface of a housing for the other roller.

This invention relates to a pressure applying structure for a pair of 
rollers particularly usable as the registration rollers for a sheet on 
which an image is to be formed. 
Copiers and printers, for example, apparatus using electrophotographic, 
inkjet, thermal or other technologies for forming images on sheets, 
require proper orientation of a sheet when it is receiving the image. U.S. 
Pat. No. 4,821,066 to Foote et al, issued Apr. 11, 1989, shows an image 
forming apparatus in which a sheet is periodically fed to a transfer 
station to receive an image. The sheet is fed from a supply of sheets to a 
pair of stopped registration rollers. The nip of the registration rollers 
removes some of any skew in the sheet and holds it until a timing signal 
is received. Upon receipt of the timing signal, the rollers are rapidly 
accelerated, accelerating the sheet toward the transfer station with 
appropriate timing to receive an image properly registered on the sheet. 
Accurate timing of the signal to the registration rollers and accurate 
acceleration of the rollers provides good "intrack" registration of the 
sheet while the rollers themselves remove some of any skew in the sheet. 
It is important that the rollers be urged together with an appropriate 
amount of force and that that force be relatively evenly distributed 
across the rollers. Among other problems that may occur from less than 
even distribution of this loading force, is a tendency for the rollers 
themselves to add some skew to the sheet as they accelerate the sheet 
along its path. Any skew in the sheet shows up as a skew in the ultimate 
image placement on the sheet and is quite noticeable as a defect. 
An inexpensive approach presently in use is to apply a force to the bearing 
housings at each end of the rollers using a W-shaped metal clip. The 
W-shaped clip has detents at the ends of its outside arms which are 
retained by appropriate detents in outwardly facing walls on a roller 
housing. A lower roller bearing housing is nested in the roller housing. 
The joining section of the W clip has an arcuate portion which engages the 
bearing housing for the other roller with the overall resilience of the 
clip maintaining the force urging the rollers together. A clip is 
positioned at each end of the roller pair. While this W clip is quite 
inexpensive and easy to assemble, the force it applies is variable and 
difficult to adjust. 
SUMMARY OF THE INVENTION 
It is an object of the invention to provide a roller pair assembly for use 
as the registration rollers in an image forming apparatus, which assembly 
has a structure for applying a force urging the rollers together with a 
force that is less variable than prior structures but which structure is 
simple and inexpensive. 
This and other objects are accomplished by a roller pair assembly which 
includes first and second rollers and a roller housing for holding the 
first roller. The housing has housing detents on opposite walls facing 
away from the first roller. The second roller is journaled in a second 
roller bearing housing. A force for urging the rollers together is 
supplied by a compression spring which is positioned between a U-shaped 
clip and a retainer. The retainer has a bearing surface for engaging the 
second roller bearing housing and a compression spring nest opposite the 
bearing surface. It also has a pair of slots. The U-shaped clip has a 
joining section and a pair of resilient arms which fit in the retainer 
slots. Each of the arms has a clip detent for engaging one of the housing 
detents. The joining section has a projection for receiving the 
compression spring to hold it firmly in the compression spring nest in the 
retainer with the compression spring providing the force urging the 
rollers together. 
This structure combines the advantages of the reliable, easily controlled 
force of the compression spring with the ease of mounting using the 
resilient arms and detents of the clip. 
According to a preferred embodiment, the bearing surface of the retainer is 
arcuately shaped to fit a cylindrical bearing housing and the retainer has 
retaining ears on opposite sides of the bearing surface for engaging 
opposite sides of the bearing housing to hold the retainer and the clip 
fixed with respect to movement parallel to the axis of rotation of the 
rollers.

DETAILED DESCRIPTION OF THE INVENTION 
The invention is usable in any type of image forming apparatus. According 
to FIG. 1, image forming apparatus 1 is electrophotographic. However, it 
also could be an inkjet printer or other similar apparatus. 
An image member 3 is trained about a series of rollers, including a roller 
5 for movement through an endless path during which a series of toner 
images are formed on image member 3. The toner images are transferred to a 
receiving sheet at a transfer station which includes a transfer drum 18 
and a backing roller 20. The receiving sheet is fed from a receiving sheet 
supply (not shown) to a pair of registration rollers 7 and 9. When the 
sheets arrive at the registration rollers 7 and 9, they are stopped. The 
logic and control of the apparatus provides an appropriate signal to a 
motor 23 which accelerates the rollers to accelerate the sheet toward a 
nip 16 between the transfer roller 18 and the image member 3. After 
transfer of a toner image to the receiving sheet, the sheet is separated 
from image member 3 at roller 5 and transported on to a fuser (not shown) 
by a sheet transport 21. 
The proper acceleration and timing of the drive of registration rollers 7 
and 9 provides accurate intrack registration between the receiving sheet 
and the image. The nip of registration rollers 7 and 9 also has a tendency 
to reduce any skew in the sheet when it arrives. To avoid the addition of 
skew during the sheet acceleration function, it is important that the 
rollers have even "linear" pressure the length of the nip. This is 
provided by a roller pair assembly 17 shown in FIGS. 2 and 3. 
According to FIG. 2, roller pair assembly 17 includes first or lower roller 
7 and second or upper roller 9, both shown in phantom. Upper roller 9 
includes a shaft 14 and a bearing housing 13 at each of its ends. Lower 
roller 7 includes a bearing housing 11 at one end, while the other end is 
connected to motor 23 and may not have a bearing housing. A roller housing 
25 includes a nest 27 for receiving the lower roller 7. As shown in FIG. 
2, lower roller bearing housing 11 fits in nest 27. Nest 27 could 
alteratively support a portion of the housing for the motor 23. Housing 25 
also has a pair of housing detents 28 in outer walls facing away from 
lower roller 7. 
A force urging the rollers together is supplied by a compression spring 38 
which is held between a U-shaped or horseshoe-shaped clip 29 and a 
retainer 39. 
The retainer 39 is best seen in FIG. 3. It includes an arcuate bearing 
surface 45 which rests on the upper roller bearing housing 13 and a 
compression spring nest 43 opposite the bearing surface 45. A pair of 
slots 41 are formed in ends of retainer 39. A pair of ears 47 extend below 
arcuate bearing surface 45. The retainer rests on the top of bearing 
housing 13 with ears 47 extending below the top of the housing to maintain 
the axial location of the retainer. 
The clip 29 has a joining section 35 connecting two resilient arms 31, 
which arms fit in slots 41 in retainer 39. The arms 31 have clip detents 
33 which engage the housing detents 28 on housing 25 to hold the clip in 
place. A tooth or projection 37 extends from the joining section 35 into 
compression spring 38 while the joining section urges the compression 
spring toward the retainer 39. Thus, the nest 43 and the projection 37 
hold the compression spring in place. The compression spring then urges 
the retainer and the clip apart which applies a force urging the rollers 7 
and 9 together. 
This structure provides an accurate force at each end of the rollers urging 
them together. This structure is free from occasional excess in the force 
that occurred with prior W-shaped clips, but still maintains the 
simplicity and ease of assembly afforded by the detent structures in the 
clip arms. With applicants' structure, compression springs having rates as 
low as 17-18 pounds per inch are effective, while the prior W-shaped clips 
often had a spring rate as high as 180 pounds per inch. Thus, 
manufacturing tolerances become less critical and constant linear pressure 
across the nip is easier to maintain. In the specific application it was 
designed for, it is usable without a change in the housing 25 or in the 
bearing housings 11 and 13. 
The invention has been described in detail with particular reference to a 
preferred embodiment thereof, but it will be understood that variations 
and modifications can be effected within the spirit and scope of the 
invention as described hereinabove and as defined in the appended claims.