US3869023A

US3869023A - Mechanical lubricating device and method

Info

Publication number: US3869023A
Application number: US325660A
Authority: US
Inventors: Ronald E Thomson; Philip J Kast
Original assignee: Madison Kipp Corp
Current assignee: Madison Kipp Corp
Priority date: 1973-01-22
Filing date: 1973-01-22
Publication date: 1975-03-04
Anticipated expiration: 1992-03-04

Abstract

A mechanically actuated lubricating device for conveyor systems and the like wherein energy from the system is transmitted to an energy storing means which releases the stored energy in an impulse manner to actuate a pump which dispenses clean shots of lubricating fluid to the system.

Description

O Unlted States Patent 11 1 1111 3,869,023

Thomson et a1. Mar. 4, 1975 [5 MECHANICAL LUBRICATING DEVICE 1,840,934 1/1932 Craig 184/15 R AND METHOD 3,486,581 12/1969 Matthews 184/3 R [75] Inventors: Ronald E. Thomson, Cambridge; FOREIGN PATENTS OR APPLICATIONS Philip J. Kast, Madison, both of 632,280 11/1949 Great Britain 184/15 R Wis. 196,809 5/1923 Great Britain 184/15 7 I 3] Asslgnee 42323: Corporamn Primary Examiner-Manuel A. Antonakas Assistant Exmniner-Daniel J. OConnor Fxled: Jan. 22, 1973 Attorney, Agent, or FirmMerriam, Marshall, Shapiro 21 Appl. No.: 325,660

57 AB T T [52] U.S.Cl 184/15A 1 S [51] Int. Cl. ..F16n 7/16 A mechamcauy mated lubrlcatmg devlce for [58] Field f Search". 184/15 R, 15 A, 15 B, 2, 3 A; veyor systems and the like wherein energy from the 8 system is transmitted to an energy storing means which releases the stored energy in an impulse manner [56] References Cited to actuate a pump which dispenses clean shots of lu- UNITED STATES PATENTS bricating fluid to the system. 1,647,924 11/1927 May 184/15 R 8 Claims, 3 Drawing Figures a I P 26 GRAVITY FLOW 0F LUBRICANT FRQV RESERVOIR MECHANICAL LUBRICATING DEVICE AND METHOD This invention relates to a new and improved means for lubricating conveyor equipment and the like and more particularly relates to a lubricating device which can mechanically lubricate a conveyor chain or other system while the chain or system is in operation.

In the lubrication of conveyor systems, it is important that the lubricating device be able to provide a clean shot of lubricating fluid on a particular part of the conveyor chain and trolleys as the chain travels past the lubricating station in the course of the conveyor operation. If the lubricant is not deposited properly on the conveyor, disadvantages arise in that an excess of lubricating fluid will cause problems ofdrippage and will necessitate accessory devices to catch the excess lubricating fluid. Additionally, if the lubricating fluid is dis pensed as a mist or spray, too much of the conveyor system will be coated with the lubricating fluid which, in some applications, is entirely unacceptable. Accordingly, it is important that a lubricating system provide what is known as a clean shot which is a repeatable solid amount of fluid of predetermined volume which is ejected with a particular velocity. The velocity is capable of propelling the amount of fluid in any specific direction for a selected distance with a relatively flat trajectory such that the amount of fluid can be directed at a point in space-time and repeatedly contact this point independent of external factors such as chain speeds, fluid viscosity, ambient temperature and the like.

While it is known in the art to provide lubricating systems in which various portions of the device are either electrically or pneumatically actuated, there are some applications where the expense of providing and maintaining the necessary source of electrical or pneumatic power supply to. actuate the lubricating device is too costly. Accordingly, it is desired to have the conveyor system serve as thesource of power from which the lubricating device can be actuated. In other instances, it is desired to have a unit which can be readily installed and at the same time is adapted for portable movement to various locations in the conveyor system without concern for location of pneumatic and electrical lines. At the same time a unit, which must depend upon the operation of the conveyor system for its actuation, must be able to provide a clean shot of lubricating fluid to the parts on the conveyor system to be lubricated as opposed to either being erratic in its operation or dispensing mist, fog or spray.

SUMMARY OF THE INVENTION With the view of overcoming the various problems associated with the prior art of lubricating devices, the invention disclosed and claimed herein relates to a lubricating system which delivers clean shots of lubricating fluid to the parts to be lubricated. At the same time, the present invention does not require an electrical or pneumatic source of power supply but rather the unit is self-contained with the source of power necessary to actuate the lubricating system of the present invention being supplied by the movement of a conveyor system past the lubricating station.

Briefly, the invention relates to a device comprising a base plate upon which is located an arm adapted to be pivoted about a pivot post. One end of the arm is adapted to contact and be actuated by the conveyor chain, trolley wheel or some other repetively protruding object as the object passes the lubricating station in the course of the operation of the conveyor system. The remaining end of the arm is connected toan extension spring. The arm is also in contact with a manually operated piston metering pump which is supplied lubricant by means of gravity flow from a reservoir of lubricating fluid located above the lubricating device of the present system.

In operation, as a conveyor chain passes the lubricating device, the arm is cammed to pivot about the pivot post. Pivoting of the arm causes the remaining end of the arm to swing outward causing the extension spring to be pulled in tension thereby serving to store potential energy in the spring means. As the conveyor chain continues to move past the lubricating device, the arm is permitted to swing back to its normal position at which time the spring will seek to release its energy as it seeks to return to its normal extended position. As the spring means returns to its normal position, the energy which is released in impulse fashion causes the arm to act against a piston rod in a piston metering pump. The pump will permit lubricating fluid to be released in a proper metered amount through nozzles which are oriented to direct the discharged fluid to those portions of the conveyor chain or system to be lubricated.

The lubricating system of the present invention provides the desired shot of lubricating fluid without any dripping due to over-lubricating. Because of the rapid dissipation of stored energy in the spring, the arm is caused to impart an impulse action against the piston rod of the metering pump whereby the fluid is discharged as a clean shot as opposed to being a drip, spray, fog or mist.

DETAILED DESCRIPTION OF THE DRAWINGS The invention'will be better understood from the following detailed description thereof, taken in conjunction with the accompanying drawings, wherein:

FIG. 1 is a plan view of the lubricating device of the present invention in which the actuating arm is shown in actuated and nonactuated positions;

FIG. 2 shows a section view along lines 2-2 of FIG. 1; and

FIG. 3 shows a partial perspective view of the conveyor chain of FIGS. 1 and 2.

DETAILED DESCRIPTION OF THE INVENTION Referring to the drawings, there is shown a conveyor chain 10 composed of links 11 and 12 connected together at 13 by means of pivot pin 14. The chain is adapted to be carried in a conveyor channel 15 past lubricating station 20 where the lubricating device 30 of the present invention is located.

Device 30 comprises a base plate 31 which is welded or attached by other suitable means to conveyor channel 15. While the plate is shown as being welded, it can be attached for easy removal to other areas of the conveyor system. A portion of channel 15 is cut away at 16 and 17 so that access to conveyor chain 10 is permitted. Pivot post 32 is located contiguous to end 29 of plate 31.

Arm 33 is adapted to pivot about post 32 at 34. One embodiment of arm 33 includes two spaced bars 28 connected at one end by strip 27. It is appreciated that the arm could be solid if desired. Roller 35 is pinned at 36 between bars 28 of arm 33.

At the opposite end of arm 33 there is located a lug 37. Lug 37 has an opening 38 in which one end of extension spring 40 is located. An L shaped bracket 41 is located at the end 26 of plate 31. Leg 42 of bracket 41 is attached to base plate 31 by welding or other suitable means. Leg 43 projects vertically from bracket 41 and an eyebolt 44 is adjustably fastened at 45 to leg 43. The remaining end 46 of extension spring 40 is at tached to eyebolt 44 as shown in FIG. 1.

Adjusting of spring 40 is accomplished by moving eyebolt 44 relative to leg 43. The spring is adjusted initially to provide the pre-tension necessary to achieve a clean shot taking into consideration various factors which will affect the shot such as fluid viscosity, chain speed, number of ejection nozzles and ambient temperatures. While subsequent changes in the operating conditions can affect the shot, the initial adjustment of the spring is sufficient to insure that a clean shot is maintained even during a wide variation in these operating conditions.

A manually actuated piston pump 50 is bolted at 51 to base plate 31. Pump 50 has an inlet port 53 and two exit ports 54 which leads to lubricant ejecting nozzles 55. Pump 50 includes a piston rod 56 and spring 57. Cap 58 is located at the end of rod 56. A rubber bumper 59 is attached to arm 33 and is in contact with cap 58. The bumper serves to reduce the noise which would occur if metal cap 58 contacted arm 33. Pump 50 is adapted to receive lubricant which is stored in a reservoir (not shown) located above base plate 31. Lubricant is adapted to flow by means of gravity from the reservoir through supply line 60 to the inlet port 53 of pump 50. The pump 50 is a conventional pump. While a number of pumps could be utilized for this particular application, one pump which has been found to he satisfactory is a manually operated pump which is available from Lincoln St. Louis, 4010 Goodfellow Blvd., St. Louis, Missouri, a Division of McNeil Corporation. The pump is illustrated and described in Section A, page 4 of a brochure designated Form 5354-2. While the pump shownin the drawings utilizes two exit ports 54, it is appreciated that any number of ports could be utilized both for intake and exit purposes.

In operation as conveyor chain passes by lubricating station 20, link 12 will cause roller 35 and arm 33 to be pivoted about post 32 to the position shown in dotted lines in FIG. 1. As arm 33 is pivoted about post 32, extension spring 40 is placed in tension thereby storing potential energy.

When link 12 passes the location of arm 33 on base 31, the arm will be permitted to be returned to its normal position by link 11. As shown in FIG. 3, link 11 comprises two spaced members 6 and 7. The space between members 6 and 7 is wider than the width of roller 35 as seen more clearly in FIG. 2. When arm 33 is permitted to travel in the space between numbers 6 and 7, the potential energy in spring 40 is converted to kinetic energy and serves to pivot arm 33 about post 32. As arm 33 pivots about post 32, spring 40 seeks to return to its normal position and serves to give an impulse to arm 33 which contacts bumper 59. The impulse action against arm 33 is transmitted through bumper 59 to cap 58 and rod 56 which, in turn, actuates piston pump 50. Actuation of piston pump 50 will allow lubricating fluid to be ejected from exit ports 54 and lubricating ejection stations 55 as clean shots onto conveyor chain 10 at the location of pivot pins l4.

The operation will be repeated as conveyor chain 10 moves past lubricating station 20. The entire operation of the piston pump 50 is by mechanical actuation of arm 33 and spring 40 seeking to return arm 33 to its normal position wherein spring 40 is in its normal state of pre-extension. Utilization of spring 40 serves to assure that clean shots of lubricating fluid are directed to the appropriate points of lubrication on conveyor chain 10. The precise delivery of lubricant to the conveyor system is independent of how erratically the potential energy might be stored in spring 40.

No pneumatic or electrical source of supply is required. Accordingly, the lubricating unit of the present invention can be used at many locations in a conveying system without the need of considering the location of an electrical power supply or a source of pneumatic power supply.

In some instances it will be desired that after a period of lubrication, the lubricating device of the present invention should be placed in an inoperative position. With the view of accomplishing this objective, a slot is located in base plate 31. Pin 71 is welded to bar 28 of arm 33. Pin 71 is adapted to ride in slot 70 during operation of the lubricating device. When it is desired to place the lubricating device in an inoperative position, lock member 72 which is pinned for rotation about base plate 31 at 73 is rotated in position. This is accomplished by moving arm 33 to the position shown in dotted lines in FIG. 1. Subsequently, lock member 72 is rotated in the direction of the arrow shown in FIG. 2 so that when arm 33 is released and is pivoted about post 32 as spring 40 seeks to return to its normal position, pin 71 will abut lock member 72 and will be held in a locked, biased position until such time as lock member 72 is released.

The device of the present invention is relatively easy to install. While an arm adaptable with the conveyor chain shown in FIG. 3 has been shown, it is readily appreciated that the invention of the present device can be used with various other conveyor chains utilized in conveyor systems presently available. Similarly, while the arrangement shown herein hasemployed an extension spring, it is appreciated that other types of energy storing means such as a compression spring could be utilized. Further, other types of locking devices to retain the lubricating device in an inoperative position can be employed.

The lubricating system of the present invention has been shown in one plane where the base plate 31 is in a horizontal position. If desired, the lubricating system could be oriented in other planes. Moreover, while gravity flow has been shown as the means for delivering lubricant to the pump, the lubricant could be supplied by other means such as a spring means to force feed the lubricant to pump 50.

What is desired and is accomplished with the present invention is to utilize available energy from the conveyor system, transmit that energy to the lubricating device as potential energy, and release the potential energy in an impulse action to actuate a pump means whereby clean shots of lubricating fluid are ejected from the lubricating device absent any requirement for pneumatic or electrical power sources. Moreover, the device of the present invention can be moved about in a portable fashion, if desired, and can be retained in a locked, inoperative position when necessary.

The foregoing detailed description has been given for clearness of understanding only, and no unnecessary limitations should be understood therefrom as modifications will be obvious to one skilled in the art.

What is claimed is:

1. The method of lubricating a conveyor system which passes a lubricating station according to the steps of:

contacting said conveyor system intermittently with a member as said system passes said lubricating station;

transmitting energy from said system through said member to an energy storage means in the period of contact with a conveyor system;

releasing the energy stored in said storage means in an impulse action to drive pump means; and, dispensing fluid from said pump means to said conveyor system;

whereby said conveyor system can be lubricated.

2. A lubricating device for use with a moving conveyor system in which said system is to be lubricated by said device, said lubricating device comprising:

a base member adjacent to the conveyor system to be lubricated;

a mounting post located on said base member;

an arm having two ends, said arm being disposed for movement with respect to said post from a normal position in which the arm is out of contact with the conveyor system to a biased position when one of said arm ends contacts said conveyor system;

a spring means having two ends and adapted to be deflected and thereby store potential energy;

one spring end being connected to said base member and the other spring end being connected to said arm to maintain said arm in its normal position of non-contact with a conveyor system;

said spring means being adapted to be extended when said arm is moved with respect to said post from its normal position to the biased position whereupon said spring is extended and potential energy is stored;

a manual pump means for pumping lubricating fluid said means including at least one fluid dispensing port and a piston rod adapted for contact with and movement with said arm;

whereby, when said lubricating device is in operation, one end of said arm contacts said conveyor system intermittently to move with respect to said mounting post whereby potential energy is first stored in said spring means as said spring means is deflected and then released substantially instantaneously whereby said pump means is actuated to release a clean shot of lubricating fluid from said fluid dispensing port.

3. A lubricating device in accordance with claim 2 wherein said mounting post serves as an attachment for said arm whereby said arm rotates about said post when urged from the normal position by said moving conveyor system.

4. A lubricating device in accordance with claim 2 and further including a locking means attached to said arm to maintain said arm in an inoperative position.

5. A lubricating device in accordance with claim 2 and further including means for adjusting said spring means.

6. A lubricating system in accordance with claim 2 wherein said spring is an extension spring.

7. A lubricating device in accordance with claim 2 and further including a locking means pivotally mounted on said base and selectively movable to engage said arm and thereby lock said arm in a position free of contact with the conveyor system.

8. A lubricating device in accordance with claim 7 wherein said locking means is maintained in a biased position when said locking means is in locking engagement with said arm.

Claims

1. The method of lubricating a conveyor system which passes a lubricating station according to the steps of: contacting said conveyor system intermittently with a member as said system passes said lubricating station; transmitting energy from said system through said member to an energy storage means in the period of contact with a conveyor system; releasing the energy stored in said storage means in an impulse action to drive pump means; and, dispensing fluid from said pump means to said conveyor system; whereby said conveyor system can be lubricated.

2. A lubricating device for use with a moving conveyor system in which said system is to be lubricated by said device, said lubricating device comprising: a base member adjacent to the conveyor system to be lubricated; a mounting post located on said base member; an arm having two ends, said arm being disposed for movement with respect to said post from a normal position in which the arm is out of contact with the conveyor system to a biased position when one of said arm ends contacts said conveyor system; a spring means having two ends and adapted to be deflected and theReby store potential energy; one spring end being connected to said base member and the other spring end being connected to said arm to maintain said arm in its normal position of non-contact with a conveyor system; said spring means being adapted to be extended when said arm is moved with respect to said post from its normal position to the biased position whereupon said spring is extended and potential energy is stored; a manual pump means for pumping lubricating fluid said means including at least one fluid dispensing port and a piston rod adapted for contact with and movement with said arm; whereby, when said lubricating device is in operation, one end of said arm contacts said conveyor system intermittently to move with respect to said mounting post whereby potential energy is first stored in said spring means as said spring means is deflected and then released substantially instantaneously whereby said pump means is actuated to release a clean shot of lubricating fluid from said fluid dispensing port.