Abstrict An upright oil filter crusher assembly has a horizontal head plate
(A) and an air cylinder formed by a cylindrical wall (B) welded
at an upper end to an underside of the head plate and freely suspended
therefrom above a horizontal platen (G) with spaced tie rods (H)
extend between and connecting the head plate and the platen, with
an open well (I) for automatically dispensing lubricating oil in
the air cylinder.
Claims What is claimed is:
1. An upright oil filter crusher assembly comprising:
a substantially horizontal head plate;
a substantially vertical cylindrical wall;
means securing an upper end of said cylindrical wall in sealed
relation to said head plate so that said cylindrical wall is suspended
therefrom;
a substantially horizontal air cylinder base carried in sealed
relation with said cylindrical wall at an end thereof opposite said
head plate;
a piston carried in said cylindrical wall between said head plate
and said cylinder base;
a piston rod secured on one end thereof to said piston and extending
slidably through said cylinder base;
a ram head carried by said piston rod beneath said cylinder base
on a free end of said piston rod opposite said one end thereof;
a substantially horizontal platen support carried beneath said
ram head for positioning an oil filter for engagement by said ram
head;
a plurality of tie rods circumferentially spaced about said cylindrical
wall extending between the head plate and said horizontal platen
support;
respective first means for connecting each said tie rod on an upper
end thereof to said head plate for supporting said head plate and
the cylindrical wall suspended therefrom, each said first connecting
means supporting said head plate against downward movement on said
tie rods;
means connecting said tie rods on a lower end thereof to said horizontal
platen support for supporting said tie rods, head plate and the
cylindrical wall suspended therefrom;
a first air inlet connection for receiving pressurized air into
said cylindrical wall above said piston for forcefully lowering
said ram head exerting a crushing action on an oil filter; and
a second air inlet connection for receiving pressurized air into
said cylindrical wall beneath said piston for raising said ram head;
whereby said cylindrical wall is fixed at an upper end of said
head plate suspending said therefrom, and said horizontal platen
support and said head plate are joined by said tie rods supporting
said head plate and the cylindrical wall suspended therefrom in
compression and acting as tension members during a crushing action
of the ram head thus providing strength to the assembly.
2. The structure set forth in claim 1 including:
an upper surface on said piston;
a well for receiving lubricating oil opening in said upper surface
of said piston remote from said first air inlet connection; and
a refill oil plug in said horizontal head plate carried above said
piston for adding lubricating oil to said well as needed.
3. The structure set forth in claim 2 including a bolt countersunk
in a central portion of an upper surface of said piston securing
said piston to said piston rod;
whereby said well surrounds said bolt and said refill oil plug
is positioned thereabove in said head plate.
4. The structure set forth in claim 1 including:
an enclosure acting as a shield retaining oil sprayed when removed
by crushing from said oil filters carried below said cylinder wall
within said tie rods; and
an access door in said enclosure for inserting and removing oil
filters before and after crushing respectively.
5. The structure set forth in claim 1 including an air valve carried
by said assembly connected to said inlet and outlet connections;
and
an actuating lever alternately connecting said air inlet connections
to a source of pressurized air for forcefully lowering said piston
on a crushing stroke and then raising said piston preparatory to
crushing another oil filter.
6. The structure set forth in claim 1 wherein said one end of said
tie rods are connected directly to a marginal, overhanging portion
of said head plate by bolts and wherein the other end of said tie
rods are connected directly to a marginal portion of said platen
support by bolts.
7. The structure set forth in claim 6 wherein said cylindrical
wall is secured to said head plate by welding for freely suspending
the air cylinder therefrom.
Description BACKGROUND OF THE INVENTION
This invention relates to an improved vertical oil filter crusher
or compactor for aiding in satisfying environmental demands by providing
inexpensive, easily operated means for removing used oil from oil
filters.
There has long been a need for efficiently removing spent, dirty
oil from used oil filters. Many efforts have been made to provide
an efficient structure for this purpose. U.S. Pat. No. 2150812
illustrates an oil can crusher wherein an air cylinder has upper
and lower end plates secured together by tie bolts. The air cylinder
is carried by spaced uprights extending between an anvil for supporting
an oil filter and a lower end plate of the air cylinder to act as
guides for a plunger head for crushing the oil can. Thus, the air
cylinder and crushing section are separate units which are joined
together by the uprights as distinguished from an integral or unitary
construction. Since the crusher is for an oil can rather than a
filter, no provision is made for draining used oil. U.S. Pat. Nos.
2150812 3835768 4126160 4771686 4927085 and 5060564
illustrate more complex structures for crushing used oil filters
representing the state of the art. Oil filter crushers have also
been provided utilizing air cylinders to which upright structural
members have been welded longitudinally warping the air cylinder
wall.
SUMMARY OF THE INVENTION
Accordingly, it is an important object of this invention to provide
an upright oil filter crusher wherein an air cylinder section and
a lower crusher section are unitarially constructed.
Another object of the invention is to avoid welding structural
members longitudinally of the air cylinder walls, with the attendant
damage done during fabrication, through the use of the tie rods
to join a head plate from which an air cylinder is freely suspended
to a platen spaced therebeneath to provide an integral oil filter
crushing section.
Another object of the invention is to provide an air cylinder having
a piston acting as a ram for use as an oil filter crusher wherein
a means for lubricating the piston includes an open wall in an upper
surface thereof remote from an inlet for pressurized air for dispensing
lubricant as a mist during crushing operations.
Still another object of the invention is to construct an air cylinder
utilizing a circumferential weld sealingly and integrally joining
a cylindrical wall to the head plate for freely suspending the air
cylinder while providing a unitary structure having a crusher section
therebeneath.
BRIEF DESCRIPTION OF THE DRAWINGS
The construction designed to carry out the invention will be hereinafter
described, together with other features thereof.
The invention will be more readily understood from a reading of
the following specification and by reference to the accompanying
drawings forming a part thereof, wherein an example of the invention
is shown and wherein:
FIG. 1 is a front perspective view looking from above with parts
broken away, illustrating an upright oil filter crusher assembly
constructed in accordance with the invention;
FIG. 2 is a transverse sectional elevation taken on the line 2--2
in FIG. 1 illustrating suspension of an air cylinder from a head
plate which is joined by tie rods to a horizontal platen support
and schematically illustrating an air control valve;
FIG. 3 is an enlarged sectional elevation further illustrating
a means for lubricating a piston carried in the air cylinder of
FIG. 1; and
FIG. 4 is an enlarged perspective view looking from above further
illustrating the piston and the means for lubricating the piston.
DESCRIPTION OF A PREFERRED EMBODIMENT
The drawings illustrate an upright oil filter crusher assembly
including a substantially horizontal head plate A carried at an
upper end of the oil filter crusher assembly. An air cylinder including
a substantially vertical cylindrical wall B is secured at an open
upper end in sealed relation to a lower surface of the head plate.
A substantially horizontal air cylinder base C is carried in sealed
relation at a lower end of the cylindrical wall. A piston D is carried
in the cylindrical wall between the head plate and said cylinder
base. A piston rod E is secured to the piston on one end and is
slidably carried in the cylinder base and extends therebeneath on
the other end. A ram head F is carried by the piston rod beneath
the cylinder base. A substantially horizontal platen support G is
provided for positioning oil filters beneath the ram head. A plurality
of tie rods H are circumferentially spaced about the cylindrical
wall extending between and connected on one end to the head plate
and on the other end to the horizontal platen support. A first air
inlet connection is provided for receiving pressurized air into
said cylindrical wall above the piston. A second air inlet connection
receives pressurized air into the cylindrical wall beneath the piston.
A drain is provided for oil removed from the oil filters as a result
of a crushing action of the ram head when it is lowered by the piston.
Thus, the cylindrical wall need only be fixed at an upper end to
the head plate, and the horizontal support and head plate are Joined
by tension members thus minimizing the need for structural connectors
while providing strength to the assembly.
Means to lubricate the piston D as it moves in the cylinder during
crushing operation includes a well I for receiving lubricating oil.
The well I opens in an upper surface of the piston D remote from
the first air inlet connection. A refill oil plug is carried above
the piston for adding lubricating oil as needed. The well I surrounds
a bolt countersunk in a central portion of an upper surface of the
piston D. The refill oil plug is positioned above the well in the
head plate.
The cylindrical walls B forming the air cylinder are suspended
from the head plate A. In this connection it is important to note
that the cylindrical wall B is secured to the underside or lower
surface of the head plate A in sealing or air tight relation s by
welding as at 10. As shown, in FIG. 2 the horizontal air cylinder
base C is secured within a lower end of the cylindrical wall by
a retaining ring 11 and is sealed as by an O-ring 12. Thus, an air
cylinder is formed by the cylindrical wall B and suspended from
a head plate A of the assembly. The air cylinder contains a piston
D within the cylindrical wall B.
A vertical piston rod E is connected on one end to the piston and
is slidably supported on the other end by the horizontal air cylinder
base C in the bronze bushing 12a. The piston rod E extends through
and below the air cylinder base C and carries at its free end a
ram head F.
The head plate A and the cylindrical wall B suspended therefrom
with associated parts are connected to the platen G by a plurality
of tie road H. A tie rod H is illustrated as being bolted as at
13 directly to an overhanging marginal portion 10a extending outwardly
of the weld 10 in each corner of the head plate A. The other ends
of the respective tie rods are bolted as at 14 in each corner of
the platen G. By thus utilizing the tie rod tension members, the
structural requirements for exerting the crushing force by the ram
head F are met while the air cylinder is suspended from the head
plate. Thus, it is unnecessary as in the prior art to weld axially
of the air cylinder, with the attendant possibility of warping the
cylindrical walls, in order to secure a structural member to join
an air cylinder to a platen.
An enclosure 15 contains used oil removed by crushing from the
oil filters below the cylinder base C within the tie rods. An access
door 16 is hinged as at 17 in the enclosure opening for inserting
and removing oil filters before and after crushing respectively.
The enclosure 15 with the door 16 closed and latched by turning
the handle 18 keeps oil from spraying out of the enclosure during
crushing. A pressure relief valve 19 is positioned beneath the piston
in the air cylinder base C for removing air from within the cylindrical
wall in case excessive pressure develops during crushing or for
any other reason.
A central upright receiving and collecting wall 20 is provided
for positioning the oil filters 21 and extends above the horizontal
platen support G. A vertical positioning member 21a is carried centrally
of the platen G. The drain 22 is positioned within the collecting
wall 20.
A valve having a housing 23 and an actuating lever 24 is carried
by the assembly as by fastening to an adjacent tie rod H as illustrated
in FIG. 1. An upper air connection 25 opens into the housing 23
above the piston D. A lower connection 26 opens below the piston.
The actuating lever 24 when lowered to actuate a valve operation
member 27 connects the upper air connection 25 to a source of pressurized
air provided by the line 28 for forcefully lowering the piston on
a crushing stroke. The lever 24 is pivoted as at 27a. By raising
the lever 27 the piston is raised preparatory to crushing another
oil filter. Exhaust ports 28a are provided for removing air from
above or below the piston D as needed in carrying out the crushing
cycle. It has been found that a suitable valve is 1S1 Fluid Power
Valve PT. #375-02T-E01-13T of 34575 Commerce Rd., Fraser, Mich.
48026.
The platen G is suitably supported by the spaced channel members
29 to facilitate drainage of used oil compressed from the oil filters.
Referring again to the means for lubricating the piston D within
the cylindrical walls C, the open well I is formed within the wall
30. The wall 30 provides a countersunk locating means for the bolt
31 which extends in the upper end of the piston rod E for securing
the piston to the upper end of the rod. Since the well I is somewhat
remote from the inlet connection 25 only limited amounts of lubricating
oil are material thereby to the inner surface of the cylindrical
wall B.
The refill oil plug 32 is carried above and in alignment with the
wall I. A threaded oil plug 32 is preferably centrally located in
the head plate A and extends through a threaded opening 33. The
washer 34 closes the threaded opening 33 by tightening the threaded
plug 32.
It is thus seen that a vertical oil can crusher having a simple,
inexpensive structure is easily and conveniently operated in response
to pressurized air to provide effective crushing action with low
maintenance. Lubrication of the air operated piston is automatically
accomplished and a source of lubricant readily provided.
While a preferred embodiment of the invention has been described
using specific terms, such description is for illustrative purposes
only, and it is to be understood that changes and variations may
be made without departing from the spirit or scope of the following
claims. |