The Applicant has not submitted a related pending or patented non-provisional application within two months of the filing date of this present application. The invention is made by a single inventor, so there are no other inventors to be disclosed. This application is not under assignment to any other person or entity at this time.
The present invention relates to a Multi-engine Jack Plate and more particularly pertains to a novel device for evenly lifting multiple outboard motors.
The use of devices for lifting outboard motors is known in the prior art. More specifically, devices for lifting outboard motors previously devised and utilized for the purpose of adjusting the height of a motor relative to a boat's transom are known to consist basically of familiar, expected, and obvious structural configurations, notwithstanding the myriad of designs encompassed by the crowded prior art which has been developed for the fulfillment of countless objectives and requirements.
While the prior art devices fulfill their respective, particular objectives and requirements, the prior art does not describe Multi-engine Jack Plate that allows a user to evenly lift multiple outboard motors at the same time.
In this respect, the Multi-engine Jack Plate according to the present invention substantially departs from the conventional concepts and designs of the prior art, and in doing so provides an apparatus primarily developed for the purpose of evenly lifting multiple outboard motors.
Therefore, it can be appreciated that there exists a continuing need for a new and improved Multi-engine Jack Plate which can be used for a novel device for evenly lifting multiple outboard motors. In this regard, the present invention substantially fulfills this need.
In view of the foregoing disadvantages inherent in the known types of devices for lifting outboard motors now present in the prior art, the present invention provides an Improved Multi-engine Jack Plate. As such, the general purpose of the present invention, which will be described subsequently in greater detail, is to provide a new and improved Multi-engine Jack Plate which has all the advantages of the prior art and none of the disadvantages.
To attain this, the present invention essentially comprises a multiple engine jack plate, comprising several components, in combination.
First, there is a transom plate. The transom plate is fabricated of a rigid material. The transom plate has a generally rectilinear configuration with a proximal surface which mounts toward a boat transom and a distal surface which is located away from the boat transom. The transom plate has a thickness between the proximal transom plate surface and the distal transom plate surface, forming an edge. The transom plate edge runs the periphery of the transom plate, the edge comprising an upper edge, a lower edge, and a pair of like-configured side edges. The transom plate side edges each having a step therein.
The transom plate has a plurality of mounting holes therethrough. The transom plate has a plurality of travel stop mounting holes therethrough. The transom plate has a plurality of center plate connector holes therethrough.
The transom plate has a plurality of pairs of hydraulic cylinder ram mounting tabs, with each of the mounting tabs having a ram pin hole therethrough. The tabs allow a ram from a hydraulic cylinder to be coupled to the transom plate. Each pair of transom plate mounting tab ram pin holes has an associated ram pin for coupling the ram to the tabs.
Next there is a center plate connector. The center plate connector is fabricated of a rigid material. The center plate connector has a right portion and a left portion. The right portion and left portion are continuous with each other. The center plate connector is fixedly coupled to the transom plate.
The terms distal and proximal are used to describe the relationship and location relative to a boat's transom, when the jack plate is installed on the boat transom. Proximal is toward or near the boat transom and distal is away from or removed from, the boat transom.
The center plate connector has a generally distal T-shaped configuration. The distal T-shaped configuration is coupled to the proximal surface of the transom plate.
The right portion of the center plate connector and the left portion of the center plate connector are mirror images of each other. The right portion of the center plate connector and the left portion of the center plate connector each have a center plate connector cross strut travel slot therethrough. The center plate connector has a generally rectilinear distal portion.
Each center plate connector proximal T-shaped connector has a plurality of threaded bolt holes therein, with the T-shaped connector threaded bolt holes being aligned with the transom plate center plate connector holes. Each of the T-shaped connector threaded bolt holes have an associated connecting bolt.
Each distal T-shaped connector of the center plate connector has an upper edge and a lower edge. The upper edge of each distal T-shaped connector of the center plate connector has a generally stepped configuration, and the lower edge of each distal T-shaped connector of the center plate connector has a generally planar configuration.
Next there is a pair of outer slides. Each of the outer slides is fabricated of a rigid material. The outer slides are a right outer slide and a left outer slide, with each of the outer slides being slidably coupled to the transom plate. The left outer slide and the right outer slide are mirror images of each other. Each of the outer slides has a proximal portion and a distal portion.
The distal portion of each of the outer slides has a generally C-shaped configuration, forming a transom plate groove therein. The transom plate groove of each of the outer slides has an associated groove liner.
The proximal portion of the right outer slide and the proximal portion of the left outer slide each have a generally L-shaped configuration, with a distally oriented leg and an inwardly oriented leg.
The distally oriented leg of the right outer slide is continuous with the proximal portion of the right outer slide. The distally oriented leg of the left outer slide is continuous with the proximal portion of the left outer slide. Each distal portion of each outer slide has an associated grease fitting.
Each of the distally oriented legs of the outer slides each has a plurality of strut bolt apertures therethrough. Each of the proximal inwardly oriented legs of the outer slides each have a plurality of motor mounting bolt apertures therethrough. The grease fitting of each of the outer slides being located in a grease fitting recess.
There is next a pair of inner slides. The inner slides being a right inner slide and a left inner slide. Each inner slide has a proximal portion. Each proximal portion of each inner slide has an associated grease fitting therethrough. Each inner slide has an outwardly oriented leg. The outwardly oriented leg of the proximal portion of each inner slide has a generally planar configuration, with each inner slide proximal portion having a step located therein. The outwardly oriented leg of the proximal portion of the right inner slide is continuous with the proximal portion of the right inner slide. The outwardly oriented leg of the left inner slide is continuous with the proximal portion of the left inner slide. Each of the proximal, outwardly oriented legs of the inner slides have a plurality of motor mounting bolt apertures therethrough.
The left inner slide and the right inner slide are mirror images of each other. Each inner slide has a proximal portion and a distal portion. The proximal portion of each inner slide has a generally right angled configuration, with a distally oriented leg and an outwardly oriented leg.
The distally oriented leg of each inner slide has a connector plate groove therein. The connector plate groove of each of the distally oriented legs of the proximal portions of the inner slides have an associated groove liner.
The outwardly oriented leg of the proximal portion of each inner slide has a generally planar configuration, with each inner slide proximal portion having a step located therein.
There is a right lower outer cross bar. The right lower outer cross bar is fabricated of a rigid material. The right lower outer cross bar has a generally rectilinear configuration, with an inner end and an outer end. The inner end of the right lower outer cross bar and the outer end of the right lower outer cross bar each have a threaded bolt hole therein. The inner end of the right lower outer cross bar threaded bolt hole and the outer end of the right lower outer cross bar threaded bolt hole each have an associated bolt.
Next there is a left lower outer cross bar. The left lower outer cross bar is fabricated of a rigid material. The left lower outer cross bar has a generally rectilinear configuration, with an inner end and an outer end. The inner end of the left lower outer cross bar and the outer end of the left lower outer cross bar each have a threaded bolt hole therein. The inner end of the left lower outer cross bar threaded bolt hole and the outer end of the left lower outer cross bar threaded bolt hole each have an associated bolt.
Next there is a right lower inner cross strut. The right lower inner cross strut is fabricated of a rigid material. The right lower inner cross strut has a generally solid rounded bar configuration, with an inner end and an outer end. The inner end of the right lower inner cross strut and the outer end of the right lower inner cross strut each have a threaded bolt hole therein. The inner end of the right lower inner cross strut threaded bolt hole and the outer end of the right lower inner cross strut threaded bolt hole each have an associated bolt.
There is next a left lower inner cross strut. The left lower inner cross strut is fabricated of a rigid material. The left lower inner cross strut has a generally solid rounded bar configuration with an inner end and an outer end. The inner end of the left lower inner cross strut and the outer end of the left lower inner cross strut each have a threaded bolt hole therein. The inner end of the left lower inner cross strut threaded bolt hole and the outer end of the left lower inner cross strut threaded bolt hole each have an associated bolt.
There is next a right upper outer cross bar. The right upper outer cross bar is fabricated of a rigid material. The right upper outer cross bar has a generally rectilinear configuration, with an inner end and an outer end. The inner end of the right upper outer cross bar and the outer end of the right upper outer cross bar each have a threaded bolt hole therein. The inner end of the right upper outer cross bar threaded bolt hole and the outer end of the right upper outer cross bar threaded bolt hole each having an associated bolt.
Next there is a left upper outer cross bar. The left upper outer cross bar is fabricated of a rigid material. The left upper outer cross bar has a generally rectilinear configuration, with an inner end and an outer end. The inner end of the left upper outer cross bar and the outer end of the left upper outer cross bar each have a threaded bolt hole therein. The inner end of the left upper outer cross bar threaded bolt hole and the outer end of the left upper outer cross bar threaded bolt hole each have an associated bolt.
Next there is a right upper inner cross strut. The right upper inner cross strut is fabricated of a rigid material. The right upper inner cross strut has a generally solid rounded bar configuration, with an inner end and an outer end. The inner end of the right upper inner cross strut and the outer end of the right upper inner cross strut each have a threaded bolt hole therein. The inner end of the right upper inner cross strut threaded bolt hole and the outer end of the right upper inner cross strut threaded bolt hole each have an associated bolt.
Next there is a left upper inner cross strut. The left upper inner cross strut is fabricated of a rigid material. The left upper inner cross strut has a generally solid rounded bar configuration, with an inner end and an outer end. The inner end of the left upper inner cross strut and the outer end of the left upper inner cross strut each has a threaded bolt hole therein. The inner end of the left upper inner cross strut threaded bolt hole and the outer end of the left upper inner cross strut threaded bolt hole each have an associated bolt.
Next there is a center plate connector cross strut. The center connector cross strut is fabricated of a rigid material. The center plate connector cross strut has a generally solid rounded bar configuration, with a right end and an left end. The right end of the center plate connector cross strut and the left end of the center plate connector cross strut each have a threaded bolt hole therein. The right end of the center plate connector cross strut bolt hole and the left end of the center plate connector cross strut threaded bolt hole each have an associated bolt. The center plate connector cross strut couples each of the inner slides, with the center plate connector cross strut passing through the center plate connector cross strut travel slot.
The right lower outer cross bar, the right lower inner cross strut, the right upper outer cross bar, and the right upper inner cross strut each rigidly couple the right inner slide and the right outer slide.
The left lower outer cross bar, the left lower inner cross strut, the left upper outer cross bar, and the left upper inner cross strut each rigidly couple the left inner slide and the left outer slide.
Next there is a plurality of hydraulic cylinders. Each hydraulic cylinder has a case and a ram with a ram pin hole therethrough. Each hydraulic cylinder case has a pair of fluid lines coupled thereto.
Next there is a plurality of travel stops. Each of the travel stops is fabricated of a rigid material. Each of the travel stops has a rectilinear configuration. Each travel stop has a proximal end and a distal end. The distal end of each travel stop has a pair of threaded mounting bolt holes therein. Each of the distal ends of the travel stops is coupled to the proximal surface of the transom plate.
There is a plurality of position indicators. Each of the position indicators has a generally rectilinear configuration with a surface having spaced indicia.
Lastly, there is a hydraulic pump system. The hydraulic pump system has a power source, a switch, a pump, a hydraulic fluid flow control valve, a hydraulic fluid reservoir holding a volume of hydraulic fluid, and a fluid pressure equalizer. The fluid pressure equalizer has an inlet which is coupled to the hydraulic pump. The fluid pressure equalizer has at least two outlets, with an outlet being coupled by a fluid path to each of the hydraulic cylinders.
The multiple engine jack plate has a moving means. The term “moving means” includes hydraulic cylinders with pumps, valves, power supplies and switches. Moving means may include pressure equalizing hydraulic connectors. Moving means also includes screws, levers, pulleys and cables, as well as mechanical jacks.
There has thus been outlined, rather broadly, the more important features of the invention in order that the detailed description thereof that follows may be better understood and in order that the present contribution to the art may be better appreciated. There are, of course, additional features of the invention that will be described hereinafter and which will form the subject matter of the claims attached.
In this respect, before explaining at least one embodiment of the invention in detail, it is to be understood that the invention is not limited in its application to the details of construction and to the arrangements of the components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments and of being practiced and carried out in various ways. Also, it is to be understood that the phraseology and terminology employed herein are for the purpose of descriptions and should not be regarded as limiting.
As such, those skilled in the art will appreciate that the conception, upon which this disclosure is based, may readily be utilized as a basis for the designing of other structures, methods and systems for carrying out the several purposes of the present invention. It is important, therefore, that the claims be regarded as including such equivalent constructions insofar as they do not depart from the spirit and scope of the present invention.
It is therefore an object of the present invention to provide a new and improved Multi-engine Jack Plate which has all of the advantages of the prior art devices for lifting outboard motors and none of the disadvantages.
It is another object of the present invention to provide a new and improved Multi-engine Jack Plate which may be easily and efficiently manufactured and marketed.
It is further object of the present invention to provide a new and improved Multi-engine Jack Plate which is of durable and reliable constructions.
An even further object of the present invention is to provide a new and improved Multi-engine Jack Plate which is susceptible of a low cost of manufacture with regard to both materials and labor, and which accordingly is then susceptible of low prices of sale to the consuming public, thereby making such Multi-engine Jack Plate economically available to the buying public.
Even still another object of the present invention is to provide a Multi-engine Jack Plate for a novel device for evenly lifting multiple outboard motors.
Lastly, it is an object of the present invention to provide a new and improved multiple engine jack plate, comprising, in combination, a transom plate, a center plate connector, a pair of outer slides and a pair of inner slides.
There is at least one hydraulic cylinder coupling the transom plate and the slides. There is a hydraulic pump system having a pump and a hydraulic fluid flow control valve and a hydraulic fluid reservoir holding a volume of hydraulic fluid.
These together with other objects of the invention, along with the various features of novelty which characterize the invention, are pointed out with particularity in the claims annexed to and forming a part of this disclosure. For a better understanding of the invention, its operating advantages and the specific objects attained by its uses, reference should be had to the accompanying drawings and descriptive matter in which there is illustrated preferred embodiments of the invention.
The invention will be better understood and objects other than those set forth above will become apparent when consideration is given to the following detailed description thereof. Such description makes reference to the annexed drawings wherein:
The same reference numerals refer to the same parts throughout the various Figures.
With reference now to the drawings, and in particular to
The present invention, the Multi-engine Jack Plate 10 is comprised of a plurality of components. Such components in their broadest context include a motor plate, a center plate connector, a pair of end slides, a pair of inner slides, and a hydraulic system. Such components are individually configured and correlated with respect to each other so as to attain the desired objective.
A multiple engine jack plate 10, comprising several components, in combination.
First, there is a motor plate 12. The motor plate is fabricated of a rigid material. The motor plate has a generally rectilinear configuration with a distal surface 14 which mounts away from a boat transom and a proximal surface 16 which is located toward the boat transom. The motor plate has a thickness between the proximal motor plate surface and the distal motor plate surface, forming an edge 18. The motor plate edge runs the periphery of the motor plate, the edge comprising an upper edge 20, a lower edge 22, and a pair of like-configured side edges 24. The motor plate side edges each having a step 26 therein.
The motor plate has a plurality of motor mounting holes 28 therethrough. The motor plate has a plurality of travel stop mounting holes 30 therethrough. The motor plate has a plurality of center plate connector holes 32 therethrough.
The motor plate has a plurality of pairs of hydraulic cylinder ram mounting tabs 34, with each of the mounting tabs having a ram pin hole 36 therethrough. The tabs allow a ram from a hydraulic cylinder to be coupled to the motor plate. Each pair of motor plate mounting tab ram pin holes has an associated ram pin 38 for coupling the ram to the tabs.
Next there is a center plate connector 40. The center plate connector is fabricated of a rigid material. The center plate connector has a right portion 42 and a left portion 44. The right portion and left portion are continuous with each other. The center plate connector is fixedly coupled to the motor plate.
The center plate connector has a generally proximal T-shaped configuration 46. The proximal T-shaped configuration is coupled to the proximal surface of the motor plate.
The right portion of the center plate connector and the left portion of the center plate connector are mirror images of each other. The right portion of the center plate connector and the left portion of the center plate connector each have a center plate connector cross strut travel slot 48 therethrough. The center plate connector has a generally rectilinear proximal portion 50.
Each center plate connector proximal T-shaped connector has a plurality of threaded bolt holes 52 therein, with the T-shaped connector threaded bolt holes being aligned with the motor plate center plate connector holes. Each of the T-shaped connector threaded bolt holes have an associated connecting bolt 54.
Each proximal T-shaped connector of the center plate connector has an upper edge 56 and a lower edge 58. The upper edge of each proximal T-shaped connector of the center plate connector has a generally stepped 60 configuration, and the lower edge of each proximal T-shaped connector of the center plate connector has a generally planar configuration.
Next there is a pair of outer slides 62. Each of the outer slides is fabricated of a rigid material. The outer slides are a right outer slide 64 and a left outer slide 66, with each of the outer slides being slidably coupled to the motor plate. The left outer slide and the right outer slide are mirror images of each other. Each of the outer slides has a distal portion 68 and a proximal portion 70.
The distal portion of each of the outer slides has a generally C-shaped configuration 72, forming a transom plate groove 74 therein. The transom plate groove of each of the outer slides has an associated groove liner 76.
The proximal portion of the right outer slide and the proximal portion of the left outer slide each have a generally L-shaped configuration 78, with a distally oriented leg 80 and an inwardly oriented leg 82.
The distally oriented leg of the right outer slide is continuous with the proximal portion of the right outer slide. The distally oriented leg of the left outer slide is continuous with the proximal portion of the left outer slide. Each distal portion of each outer slide has an associated grease fitting 84.
Each of the distally oriented legs of the outer slides each has a plurality of strut bolt apertures 86 therethrough. Each of the proximal inwardly oriented legs of the outer slides each have a plurality of transom mounting bolt apertures 88 therethrough. The grease fitting of each of the outer slides being located in a grease fitting recess 90.
There is next a pair of inner slides 92. The inner slides being a right inner slide 94 and a left inner slide 96. Each proximal portion of each inner slide has an associated grease fitting 98 therethrough. Each inner slide has an outwardly oriented leg 100. The outwardly oriented leg of the proximal portion of each inner slide has a generally planar configuration, with each inner slide proximal portion having a step 102 located therein. Each inner slide has a distal portion 104. The outwardly oriented leg of the proximal portion of the right inner slide is continuous with the distal portion of the right inner slide. The outwardly oriented leg of the left inner slide is continuous with the distal portion of the left inner slide. Each of the proximal, outwardly oriented legs of the inner slides have a plurality of transom mounting bolt apertures 106 therethrough.
The left inner slide and the right inner slide are mirror images of each other. The proximal portion of each inner slide has a generally right angled configuration 108.
The distally oriented leg of each inner slide has a connector plate groove 110 therein. The connector plate groove of each of the legs of the inner slides have an associated groove liner 112.
The outwardly oriented leg of the proximal portion of each inner slide has a generally planar configuration.
There is a right lower outer cross bar 114. The right lower outer cross bar is fabricated of a rigid material. The right lower outer cross bar has a generally rectilinear configuration, with an inner end and an outer end. The inner end of the right lower outer cross bar and the outer end of the right lower outer cross bar each have a threaded bolt hole therein. The inner end of the right lower outer cross bar threaded bolt hole and the outer end of the right lower outer cross bar threaded bolt hole each have an associated bolt.
Next there is a left lower outer cross bar 116. The left lower outer cross bar is fabricated of a rigid material. The left lower outer cross bar has a generally rectilinear configuration, with an inner end and an outer end. The inner end of the left lower outer cross bar and the outer end of the left lower outer cross bar each have a threaded bolt hole therein. The inner end of the left lower outer cross bar threaded bolt hole and the outer end of the left lower outer cross bar threaded bolt hole each have an associated bolt 118.
Next there is a right lower inner cross strut 120. The right lower inner cross strut is fabricated of a rigid material. The right lower inner cross strut has a generally solid rounded bar configuration, with an inner end and an outer end. The inner end of the right lower inner cross strut and the outer end of the right lower inner cross strut each have a threaded bolt hole therein. The inner end of the right lower inner cross strut threaded bolt hole and the outer end of the right lower inner cross strut threaded bolt hole each have an associated bolt.
There is next a left lower inner cross strut 124. The left lower inner cross strut is fabricated of a rigid material. The left lower inner cross strut has a generally solid rounded bar configuration with an inner end and an outer end. The inner end of the left lower inner cross strut and the outer end of the left lower inner cross strut each have a threaded bolt hole therein. The inner end of the left lower inner cross strut threaded bolt hole and the outer end of the left lower inner cross strut threaded bolt hole each have an associated bolt 126.
There is next a right upper outer cross bar 128. The right upper outer cross bar is fabricated of a rigid material. The right upper outer cross bar has a generally rectilinear configuration, with an inner end and an outer end. The inner end of the right upper outer cross bar and the outer end of the right upper outer cross bar each have a threaded bolt hole therein. The inner end of the right upper outer cross bar threaded bolt hole and the outer end of the right upper outer cross bar threaded bolt hole each having an associated bolt 130.
Next there is a left upper outer cross bar 132. The left upper outer cross bar is fabricated of a rigid material. The left upper outer cross bar has a generally rectilinear configuration, with an inner end and an outer end. The inner end of the left upper outer cross bar and the outer end of the left upper outer cross bar each have a threaded bolt hole therein. The inner end of the left upper outer cross bar threaded bolt hole and the outer end of the left upper outer cross bar threaded bolt hole each have an associated bolt 134.
Next there is a right upper inner cross strut 136. The right upper inner cross strut is fabricated of a rigid material. The right upper inner cross strut has a generally solid rounded bar configuration, with an inner end and an outer end. The inner end of the right upper inner cross strut and the outer end of the right upper inner cross strut each have a threaded bolt hole therein. The inner end of the right upper inner cross strut threaded bolt hole and the outer end of the right upper inner cross strut threaded bolt hole each have an associated bolt 138.
Next there is a left upper inner cross strut 140. The left upper inner cross strut is fabricated of a rigid material. The left upper inner cross strut has a generally solid rounded bar configuration, with an inner end and an outer end. The inner end of the left upper inner cross strut and the outer end of the left upper inner cross strut each has a threaded bolt hole therein. The inner end of the left upper inner cross strut threaded bolt hole and the outer end of the left upper inner cross strut threaded bolt hole each have an associated bolt 142.
Next there is a center plate connector cross strut 144. The center connector cross strut is fabricated of a rigid material. The center plate connector cross strut has a generally solid rounded bar configuration, with a right end and an left end. The right end of the center plate connector cross strut and the left end of the center plate connector cross strut each have a threaded bolt hole therein. The right end of the center plate connector cross strut bolt hole and the left end of the center plate connector cross strut threaded bolt hole each have an associated bolt 146. The center plate connector cross strut couples each of the inner slides, with the center plate connector cross strut passing through the center plate connector cross strut travel slot.
The right lower outer cross bar, the right lower inner cross strut, the right upper outer cross bar, and the right upper inner cross strut each rigidly couple the right inner slide and the right outer slide.
The left lower outer cross bar, the left lower inner cross strut, the left upper outer cross bar, and the left upper inner cross strut each rigidly couple the left inner slide and the left outer slide.
Next there is a plurality of hydraulic cylinders 148. Each hydraulic cylinder has a case 150 and a ram 152 with a ram pin hole therethrough 154. Each hydraulic cylinder case has a pair of fluid lines 156 coupled thereto.
Next there is a plurality of travel stops 158. Each of the travel stops is fabricated of a rigid material. Each of the travel stops has a rectilinear configuration. Each travel stop has a distal end 160 and a proximal end 162. The distal end of each travel stop has a pair of threaded mounting bolt holes 164 therein. Each of the distal ends of the travel stops is coupled to the proximal surface of the motor plate.
There is a plurality of position indicators 166. Each of the position indicators has a generally rectilinear configuration with a surface having spaced indicia.
Lastly, there is a hydraulic pump system 168. The hydraulic pump system has a power source 170, a switch 172, a pump 174, a hydraulic fluid flow control valve 176, a hydraulic fluid reservoir holding a volume of hydraulic fluid 178, and a fluid pressure equalizer 180. The fluid pressure equalizer has an inlet 182 which is coupled to the hydraulic pump. The fluid pressure equalizer has at least two outlets 184, with an outlet being coupled by a fluid path to each of the hydraulic cylinders.
The multiple engine jack plate has a moving means. The term “moving means” includes hydraulic cylinders with pumps, valves, power supplies and switches. Moving means may include pressure equalizing hydraulic connectors. Moving means also includes screws, levers, pulleys and cables, as well as mechanical jacks.
The pressurization of the hydraulic cylinders is equalized by the pressure equalizer, which allows the cylinders to even lift the outboard motors. Because the hydraulic cylinders are bi-directional, meaning that they can extend and contract with pressurization, there is an equalizer on both of the fluid paths to each cylinder.
It is anticipated that more than two motors may be used, with the jack plate being extended by adding another center plate connector and another set of slides. Hence, more than two motors may be attached to such a variation of the present preferred embodiment.
As the motors are lifted, the indicators show the operator the relative position. The groove inserts allow for smooth travel, providing a lubricious surface upon which to slide. Further lubricity is provided by a volume of grease which may be place into the grooves via the grease fittings.
The travel stops determine the downwardmost travel of the motor plate.
Both the right and left lifting components are attached using the center plate connector cross strut, which is secured to each lifting component with a bolt. The cross strut passes through the slot in the center plate connector, and the travel is, likewise, limited by the length and position of the slot.
The hydraulic system comprises a number of relays, which are well known in the art and will not be further discussed.
As to the manner of usage and operation of the present invention, the same should be apparent from the above description. Accordingly, no further discussion relating to the manner of usage and operation will be provided.
With respect to the above description then, it is to be realized that the optimum dimensional relationships for the parts of the invention, to include variations in size, materials, shape, form, function and manner of operation, assembly and use, are deemed readily apparent and obvious to one skilled in the art, and all equivalent relationships to those illustrated in the drawings and described in the specification are intended to be encompassed by the present invention.
Therefore, the foregoing is considered as illustrative only of the principles of the invention. Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described, and accordingly, all suitable modifications and equivalents may be resorted to, falling within the scope of the invention.
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