________________________________
                                :
SECRETARY OF LABOR,             :
                                :
           Complainant,         :
                                :
               v.               :     OSHRC Docket No. 93-1853
                                :
FABRICATED METAL PRODUCTS,      :
 INC.,                          :
                                :
           Respondent.          :
________________________________:

Before:  WEISBERG, Chairman; and GUTTMAN, Commissioner.

BY THE COMMISSION:

/*DECISION*/

The issues before the Commission are whether Commission Administrative
Law Judge Robert A. Yetman erred in vacating alleged serious violations
of machine guarding standards relating to points of operation and
horizontal shafting. The cited standards, at 29 C.F.R. §§
1910.212(a)(3)(ii)[1] and 219(c)(2),[2] were promulgated by the
Secretary of Labor's Occupational Safety and Health Administration
("OSHA"). The basic controversy is whether the Secretary proved, as
required, that employees of Fabricated Metal Products, Inc. ("FMP") were
exposed to the hazards. Having thoroughly reviewed the evidence and the
parties' extensive arguments, we agree with the judge that the alleged
violations should be vacated.

*SUMMARY OF FACTS*

The machines in question are power presses FMP uses to form small metal
parts such as fuel filters and copper cones for explosive devices. The
presses, located in FM's eyelet department, are electrically powered.
They range from six to 12 feet in both height and width. The citation
addressed two potential hazards presented by the presses. First, each
press has a series of points of operation ("plungers" or "rams") located
between 36 and 50 inches above the floor in the front, where blank metal
pieces are cut, transferred, and formed into finished parts.[3] Second,
the presses have unguarded horizontal shafting ("camshafts") above and
below the points of operation. The upper shafts are 5 to 7 feet above
the floor, and the rotation of their cams drives the plungers. The lower
shafts are 2 to 3 feet above the floor, and the rotation of their cams
pushes the parts out of the die after the plunger retracts. The
camshafts are smooth and are lubricated frequently. Their rotation does
not create a vacuum effect. The presses generate about 45 strokes a minute.

Two types of employees work near the presses -- machine operators and
toolmakers. A machine operator is responsible for overseeing the
operation of two or more presses and assuring that the fabricated parts
have the correct specifications. The operator starts up the press and
retrieves finished parts. The operator is required to call a toolmaker
if a press malfunctions in any way. Toolmakers handle all repairs and
are responsible for setting up and adjusting the press for each type of
metal part to be fabricated. Toolmakers perform their work with the
press totally shut down.

OSHA compliance officer ("CO") Robert Kowalski testified that he
observed an employee standing 12-18 inches from the unguarded points of
operation on one operating press, with his legs 18-20 inches from the
unguarded lower camshaft, and with a hand about 6 inches from one of the
points of operation, for 30-45 seconds. The employee appeared to be
adjusting a sensor probe with a small hand tool. Kowalski further
testified that he noticed another employee with his hand approximately
12-14 inches from a point of operation while blowing out a press with
compressed air while the press was operating. The employee's body was
26-28 inches away from points of operation and 18-20 inches from the
lower camshaft. Kowalski also testified that he observed employees
walking in the aisles between presses, coming within 3 feet of points of
operation.

Based on the proximity of employees to the unguarded points of operation
and camshafts, the Secretary alleges that the employees were exposed to
the hazard of having clothing or body parts caught in the presses if the
employees slipped or fell. Kowalski testified, and the Secretary
concedes, that there was no operational reason for the employees to come
into contact with either the points of operation or the camshafts.

Barrels are stored behind the presses, between the employee walkway and
the exposed points of operation and camshafts. Also, there were numerous
obstructions to access to the camshafts and the points of operation from
the front -- boxes, barrels, splash guards, and the coils of metal that
were fed into the presses automatically from the front. The boxes (some
cardboard, some plastic or metal) and the barrels caught the finished
parts as they came out on chutes or conveyor belts. The splash guards
and flying parts guards, present on many of the presses, also block
employee access to part of the lower cams.

The presses are fully automated. Most of the points of operation open
only a ¼-inch, although a few open as much as 3 inches. There is a
cylindrical sensor probe (approximately the size of a pencil) between
each of the points of operation. The sensor is designed to stop the
press if product becomes misaligned during the production process. FMP's
safety coordinator, Lars Johnson, testified that a sensor would shut
down the machine "in a fraction of a second" if the sensor detected
anything abnormal in the transfer of parts or if excessive pressure was
applied to the sensor as it was being adjusted.

*DISCUSSION*

The Secretary always bears the burden of proving employee exposure to
the violative conditions.[4] Here, the dispute centers on whether the
Secretary proved such employee exposure.

The two seminal Commission cases that are relevant to our inquiry here
are /Rockwell Intl. Corp./, 9 BNA OSHC 1092, 1980 CCH OSHD ¶ 24,979 (No.
12470, 1980), and /Gilles & Cotting, Inc./, 3 BNA OSHC 2002, 1975-76 CCH
OSHD ¶ 20,448 (No. 504, 1976). /Gilles & Cotting/ addressed the general
question of employee exposure to hazards. /Rockwell/ addressed the
specific question of employee exposure arising from the actual operation
of a machine.

In /Gilles & Cotting/, the Commission set forth a test for employee
exposure based on the principle of "reasonable predictability." 3 BNA
OSHC at 2003, 1975-76 CCH OSHD at p. 24,425. The Commission held that
the Secretary bore the burden of proving:

    that employees either while in the course of their assigned working
    duties, their personal comfort activities while on the job, or their
    normal means of ingress-egress to their assigned workplaces, will
    be, are, or have been in a zone of danger.

/Id./[5]

In /Rockwell/, the Commission set forth the standard of employee
exposure to hazards presented by the employee's operation of a machine.
The Commission stated:

The mere fact that it was not impossible for an employee to insert his
hands under the ram of a machine does not itself prove that the point of
operation exposes him to injury. Whether the point of operation exposes
an employee to injury must be determined based on the manner in which
the machine functions and how it is operated by the employees.

9 BNA OSHC at 1097-98, 1980 CCH OSHD at p. 30,846. The Commission
concluded that the Secretary had not established employee exposure to
the points of operation on Rockwell's machines, due to the extremely
slow rate of descent of the plungers and the fact that they were
constantly under the employee's control.[6]

Accordingly, under /Gilles & Cotting/ and /Rockwell/, in order for the
Secretary to establish employee exposure to a hazard she must show that
it is reasonably predictable either by operational necessity or
otherwise (including inadvertence), that employees have been, are, or
will be in the zone of danger.[7] We emphasize that, as we stated in
/Rockwell,/ the inquiry is not simply into whether exposure is
theoretically possible.[8] Rather, the question is whether employee
entry into the danger zone is reasonably predictable. /Gilles &
Cotting/, 3 BNA OSHC at 2003, 1975-76 CCH OSHD at p. 24,425.

Applying this test of exposure to the citations before us, we find that
the Secretary has failed to establish exposure under either standard.

*1. Point of operation items*

CO Kowalski admitted that neither the toolmakers nor the machine
operators are exposed to the presses' points of operation during the
course of their normal work duties. His only concern was inadvertent
entry into a point of operation due to a slip or fall. He admitted,
however, that such a slip or fall near a press is improbable.[9] The
judge agreed, finding it highly unlikely that an employee would slip or
fall in such a way that his hand would actually enter a point of
operation, given that the points of operation were 3 feet or more above
the floor and most had only a ¼-inch opening.

    [T]he likelihood of inadvertent contact with any of the unguarded
    presses' points of operation seems remote at best. Indeed, the
    evidence demonstrates that rows of barrels placed at the rear of
    each press to collect scrap metal make access at this point
    extremely difficult. In addition, the designated aisles in this
    area, measured by FMP's safety coordinator as six feet wide, allow
    more than enough space for an employee to pass the rear of an
    operating press without danger.

Similarly, the work areas at the front of each press are large enough to
allow employees to travel between assigned machines and maintain a
distance of at least two feet from any point of operation. Indeed
according to FMP's safety coordinator, it is about 18 feet from the
front of one press to the front of the press directly across from it.
Furthermore, while the boxes and/or barrels placed at the front of each
press to collect finished parts as they exit the machine do not appear
to restrict an employee's ability to traverse this large area, like the
barrels at the rear of the press, they do serve to limit direct access
to a point of operation.

(Citations omitted.)

We agree with the judge's findings.[10] As he pointed out, his findings
regarding FMP's unguarded points of operation apply with at least equal
force to those that were partially guarded. Based on this record,
therefore, we find that it is not reasonably predictable that an
employee will be in the zone of danger presented by the presses' points
of operation at any time, and we vacate this citation item.

*2. Camshaft items*

As with the point of operation hazards, the Secretary's only concern as
to the unguarded shafts is inadvertent contact with a rotating shaft in
the event of a slip or fall. Kowalski acknowledged that the barrels
stored against the back of FMP's presses made it impossible for an
employee to contact the upper shafts (five to seven feet above the
floor) from that side in the event of a slip or fall. Nor could Kowalski
think of a way an employee could contact the lower shafts from the back,
again due to the barrels. On the front, employees stood no closer than
18 to 24 inches away from the presses in the course of their work.
Employees walking by the presses were farther away. Kowalski saw no
employee walk closer than two feet from a press. There was no showing
that an employee might contact an upper camshaft from the front in the
event of a slip or fall. As to the lower shafts on the front, we agree
with the judge's summary:

    [T]he likelihood of inadvertent contact is far too remote to support
    a finding of employee exposure. Indeed, when walking between
    machines or performing tasks that require them to come in close
    proximity to a press, employees remain at least one to two feet away
    from a machine's lower shaft. Also, the splash guards installed on
    some of the presses, as well as the barrels and other containers
    positioned at the front of each machine to collect finished parts,
    serve to block easy access to an exposed lower shaft. These
    conditions, coupled with the fact that the lower shaft is about two
    feet above the floor and somewhat recessed from the outer edge of
    the containment which borders the press, render inadvertent contact
    highly unlikely, even if an employee were to slip and fall in this area.

(Citations omitted.)

Accordingly, we find that the evidence does not show that it is
reasonably predictable that any employee will slip or fall so as to
contact either the upper or lower shafting on the cited presses. We
therefore vacate the alleged violation of section 1910.219(c)(2).[11]

*CONCLUSION*

For the reasons set forth above, we vacate the alleged violations of
sections 1910.212(a)(3)(ii) and 1910.219(c)(2).

Dated: _November 7, 1997_

------------------------------------------------------------------------

[1] That standard provides:

§ 1910.212 General requirements for all machines.

(a) /Machine guarding /--  . . . (3) /Point of operation
guarding./ . . .  (ii) The point of operation of machines whose
operation exposes an employee to injury, shall be guarded. The guarding
device shall be in conformity with any appropriate standards therefor,
or, in the absence of applicable specific standards, shall be so
designed and constructed as to prevent the operator from having any part
of his body in the danger zone during the operating cycle.

[2] That standard provides:

§ 1910.219 Mechanical power-transmission apparatus.

(c) /Shafting -- /  . . . (2) /Guarding horizontal shafting./ (i) All
exposed parts of horizontal shafting seven (7) feet or less from floor
or working platform, excepting runways used exclusively for oiling, or
running adjustments, shall be protected by a stationary casing enclosing
shafting completely or by a trough enclosing sides and top or sides and
bottom of shafting as location requires.

[3] Most of the cited machines have no point of operation guards. Six of
the cited machines had partial guarding.

[4] As to a specification standard such as the camshaft guarding
standard at issue here (§ 1910.219(c)(2)), proof of noncompliance with
the standard establishes the existence of a hazard. With a general
standard such as the point of operation guarding standard in this case
(§ 1910.212(a)(3)(ii)), the Secretary must prove that the violation of
the standard presents a hazard. To the extent that FMP, relying on
/Pratt & Whitney Aircraft Div. v. Secy. of Labor/, 649 F.2d 96, 104 (2d
Cir. 1981) ("/Pratt & Whitney I/") (setting forth significant risk of
harm test for existence of hazard under OSH Act), argues that the
Secretary failed to establish the /existence of a hazard/ under the
latter standard, we find it unnecessary to reach that argument because
we find that the Secretary failed to establish employee /exposure/ to
the cited conditions.

[5] /See also Phoenix Roofing Inc./, 17 BNA OSHC 1076, 1078 note 6,
1993-95 CCH OSHD ¶ 30,699, p. 42,605 note 6 (No. 90-2148, 1995);
/Carpenter Contracting Corp./, 11 BNA OSHC 2027, 2029-31 & note 3,
1984-85 CCH OSHD ¶ 26,950, pp. 34,563-64 & note 3 (No. 81-838, 1984);
/Otis Elevator Co./, 6 BNA OSHC 2048, 2050, 1978 CCH OSHD ¶ 23,135,
p. 27,952 (No. 16057, 1978).

[6] /See also ConAgra Flour Milling Co./, 16 BNA OSHC 1137, 1147, 1993
CCH OSHD ¶ 30,045, p. 41,239 (No. 88-1250, 1993) (evidence of exposure
to hazard under section 1910.212(a)(1), was insufficient where
"likelihood of an injury [is] negligible"), /rev'd in part on other
grounds/, 25 F.3d 653 (8th Cir. 1994); /Jefferson Smurfit Corp./, 15 BNA
OSHC 1419, 1421-23, 1991-93 CCH OSHD ¶ 29,551, p. 39,954 (No. 89-553,
1991) (violation of section 1910.212(a)(1) cannot be found where
operator would have no reason to put hands close enough to unguarded
parts of machinery to be exposed to hazard and possibility of exposure
of employee walking past machine "would be remote"); /Armour Food Co./,
14 BNA OSHC 1817, 1824, 1987-90 CCH OSHD ¶ 29,088, pp. 38,883-84 (No.
86-247, 1990) (one section 1910.212(a)(1) item vacated where employees
had no reason to put their hands in danger zone and "it would be
difficult for them to do so;" another section 1910.212(a)(1) item
affirmed where employees routinely placed their hands in immediate
vicinity of nip points and "could inadvertently put their hands into
it); /Skydyne, Inc./, 11 BNA OSHC 1753, 1755, 1983-84 CCH OSHD ¶ 26,761,
p. 34,222 (No. 80-5422, 1984) (exposure under section 1910.212(a)(3)(ii)
not shown where CO did not witness operation, was unable to present
evidence on distance of operators' hands from points of operation or
rate of descent of moving part, no reason appeared for employee to place
hand under it, and there were no prior accidents).

[7] As we noted in /Gilles & Cotting/, the scope of the zone of danger
is relative to the wording of the standard and the nature of the hazard
at issue. /Gilles & Cotting/, 3 BNA OSHC at 2003, 1975-76 CCH OSHD at p.
24,425. Here, the zones of danger presented are the unguarded points of
operation and camshafts. Our inquiry then is whether the employees'
proximity to the machines makes it reasonably predictable that they will
enter these zones of danger by slipping or falling.

[8] The Secretary contends that exposure means "physically possible for
an employee to put his hand in the hazardous area, even if by
inadvertence or improper performance of his job" (Sec. Brief at 9),
except where such contact is "freakish or suicidal" (Oral Argument Tr.
24), and that her interpretation is entitled to deference under/Martin
v. OSHRC (CF & I Steel Corp.)/, 499 U.S. 144 (1991). Whether an employee
is exposed to a hazard or a noncomplying condition is part of what the
Secretary must prove to establish a violation of the Act. /Astra
Pharmaceutical Products, Inc./, 9 BNA OSHC 2126, 2129, 1981 CCH OSHD
¶ 25,578, p. 31,899 (No. 78-6247, 1981), /aff'd in part/, /remanded in
part/, 681 F.2d 69 (1st Cir. 1982). It is unnecessary for us to decide
whether the Secretary could eliminate her burden under the Act with
respect to establishing exposure on a case-by-case basis by making the
finding of exposure inherent in the standard itself, since she has not
done so in the two standards at issue here. The Secretary's
interpretation of these standards to mean that, in effect, guarding is
required unless employee contact would occur only under freakish
circumstances does not so much carry the Secretary's burden to prove
exposure as eliminate it. Accordingly, her position is not entitled to
deference under /CF & I/.

[9] Because of FMP's many precautions, the judge rejected the
Secretary's argument that FMP's use of machine lubricant somehow
contributed to the likelihood of a slip and fall incident occurring.
Each press sits inside a containment pan which catches any lubricant
that drips from machine parts. The splash guards on some of the presses
help keep oil from spraying out onto the floor. There are absorbent
materials around the containment pans. Those materials, called "oil
socks" or "oil pigs," contain or absorb oil in the event of a spill or
leakage. Also, the eyelet department floor is mopped at least once per
shift and any oil spillage onto a floor is cleaned up as soon as
possible. As mentioned, Kowalski found the floors "generally clean" and
not citable during his inspection.

[10] The expert testimony produced by each side does not change the
result. The Secretary presented a former OSHA CO and regional safety
engineer, Edward Bajakian, who since had become a safety and health
officer with the U. S. Fish and Wildlife Service. Mr. Bajakian, who had
seen pictures of FMP's presses but had not visited the workplace,
testified that sound safety engineering principles call for universal
guarding of points of operation and horizontal shafting on presses.

However, FMP presented a very experienced consulting engineer to the
metal forming industry, William Roorda. He was a member of the American
National Standards Institute ("ANSI") Committee that wrote the 1988
edition of their safety standard for Mechanical Power Presses (ANSI
B11.1 (1988)). Mr. Roorda, who conducts safety inspections in the
industry to determine compliance with safety standards, spent six hours
inspecting FMP's presses. In his professional opinion, there was no
employee exposure to the unguarded point of operation or camshafts, and
there were no hazards of slipping, tripping, or falling in the area of
those presses.

[11] We further note that there was no evidence of any injuries in this
department from contact with an unguarded shaft during the 16 or more
years the plant had been in operation.

------------------------------------------------------------------------

OSHRC Home <https://www.oshrc.gov/index.html>