The present disclosure relates to apparatus and methods for storing and retrieving saddles, and more particularly, the present disclosure relates to moveable saddle racks that may be laterally translatable from one location to another, such as across a trailer or across a tack room in a stable, and/or vertically translatable to allow easier user access to an upper portion of the saddle rack.
Stationary saddle racks may be located in buildings, such as tack rooms in stables, or in the tack compartments of different types of trailers used to haul horses. These saddle racks may be designed to store a plurality of saddles in a stacked vertical arrangement.
Standard horse trailers typically include a designated tack compartment located in the back of the trailer with a stationary saddle rack that may be accessed from the ground.
Stock combo trailers are popular alternatives to standard horse trailers because they are less expensive, lighter weight, smaller and more versatile, making them easier to haul. However, stock combo trailers typically include a tack compartment located in the front of the trailer with a stationary saddle rack positioned on a far wall opposite to the entry door of the tack compartment. This location of the saddle rack requires a user to step up into the trailer and down from the trailer while carrying a heavy saddle as the user loads and unloads saddles on the saddle rack.
The present disclosure relates to apparatus and methods for storing and retrieving saddles. The apparatus may comprise a moveable saddle rack designed to store a plurality of saddles in a stacked vertical arrangement.
In some implementations, the moveable saddle rack may be laterally translatable from one location to another. The moveable saddle rack may translate along a track coupled to an interior surface of a building or a trailer.
In operation, the moveable saddle rack may be laterally translated to a location proximate to a door of the tack room or trailer to facilitate user access to the saddle rack, and to avoid stepping into the trailer.
In some implementations, the moveable saddle rack may be vertically translatable from one height to another. The moveable saddle rack may include a moveable frame portion that is vertically translatable with respect to a stationary frame portion. An actuator may aid the vertical translation of the moveable frame portion. In various implementations, the moveable saddle rack may comprise a mechanical actuator, an electrical actuator, a hydraulic actuator a pneumatic actuator, or a combination actuator. The moveable saddle rack may have a mechanical actuator comprising a gas spring. The moveable saddle rack may have an electrical actuator comprising an electric winch. The moveable saddle rack may have a combination mechanical actuator and electrical actuator comprising a gas spring in combination with an electric motor driven piston actuator.
In operation, the moveable frame portion may be vertically translated downwardly from a storage height to a load height that facilitates user access to an upper portion of the saddle rack. The moveable frame portion may also be vertically translated upwardly from the load height to the storage height.
In some implementations, the moveable saddle rack may be both laterally translatable from one position to another and vertically translatable from one height to another.
In an implementation, a moveable saddle rack includes a frame supporting a plurality of saddle seats spaced apart in a stacked vertical arrangement, and the moveable saddle rack is laterally translatable from a first location to a second location. The apparatus may further include a translation assembly coupled to the frame, and the translation assembly may be adapted to travel along a track disposed on an interior surface of a building or a trailer. The apparatus may further include a latch receiver on one of the translation assembly and the track, and a latch on the other of the translation assembly and the track. The latch may be adapted to engage the latch receiver to maintain the moveable saddle rack in the first location or the second location. A release mechanism may be operable to withdraw the latch from the latch receiver to facilitate lateral translation of the moveable saddle rack. In various implementations, the spacing of the plurality of saddle seats on the frame is adjustable and/or the position of at least one of the latch receiver and the latch is adjustable.
In some implementations, a moveable portion of the frame is vertically translatable from a first height to a second height with respect to a stationary portion of the frame. The apparatus may further include an actuator that facilitates vertical translation of the moveable frame portion. In various implementations, the actuator may include a mechanical gas spring, an electric winch, an electric piston actuator, and/or some combination thereof. The distance between the first height and the second height may be adjustable and/or the height of the stationary frame portion may be adjustable.
In an implementation, a method of accessing a saddle rack includes laterally translating a saddle rack from a travel position proximate to a wall of a trailer to an access position proximate to an entry door of the trailer, and loading or unloading a saddle from the saddle rack without stepping into the trailer. The method may further include laterally translating the saddle rack back to the travel position after loading or unloading the saddle. The method may further include vertically translating at least one portion of the saddle rack downwardly from a storage height to a load height before loading or unloading the saddle from the saddle rack. The method may further include vertically translating the at least one portion of the saddle rack back to the storage height after loading or unloading the saddle. In various implementations, the vertical translating may be achieved mechanically, electrically, or electrically and mechanically.
In an implementation, a moveable saddle rack includes a stationary frame portion and a moveable frame portion supporting a plurality of saddle seats spaced apart in a stacked vertical arrangement, and a gas spring actuator that facilitates vertical translation of the moveable frame portion with respect to the stationary frame portion. In various implementations, the spacing of the plurality of saddle seats on the moveable frame portion is adjustable and/or the height of the stationary frame portion is adjustable. The apparatus may include one or more rollers disposed between the moveable frame portion and the stationary frame portion to facilitate the vertical translation. The apparatus may include a retainer operable to prevent or allow vertical translation between the moveable frame portion and the stationary frame portion. The apparatus may include a stirrup shelf positioned below the plurality of saddle seats. In an implementation, the moveable saddle rack may include an electric piston actuator operable to drive vertical translation of the moveable frame portion between a first height and a second height with respect to the stationary frame portion. The distance between the first height and the second height may be adjustable. In an implementation, the gas spring actuator assists the electric piston actuator to vertically translate the moveable frame portion upwardly with respect to the stationary frame portion.
In an implementation, an apparatus includes a moveable saddle rack with a stationary frame portion and a moveable frame portion supporting a plurality of saddle seats spaced apart in a stacked vertical arrangement. The apparatus may further include an electric piston actuator and a gas spring actuator operable to vertically translate the moveable frame portion with respect to the stationary frame portion. In various implementations, the spacing of the plurality of saddle seats on the moveable frame portion is adjustable and/or the height of the stationary frame portion is adjustable. One or more rollers may be disposed between the moveable frame portion and the stationary frame portion to facilitate the vertical translation. The electric piston actuator may be operable to drive vertical translation of the moveable frame portion between a first height and a second height with respect to the stationary frame portion. The distance between the first height and the second height is adjustable. In an implementation, the gas spring actuator assists the electric piston actuator to vertically translate the moveable frame portion upwardly with respect to the stationary frame portion.
In an implementation, a method of accessing a saddle rack includes vertically translating with an electric actuator and a gas spring actuator at least a portion of a saddle rack from a storage height to a load height, and loading or unloading a saddle from the saddle rack. The method may further include vertically translating with the electric actuator and the gas spring actuator the at least one portion of the saddle rack upwardly to the storage height after loading or unloading the saddle. The vertical translation from the storage height to the load height may be achieved by the electric actuator working against the gas spring actuator. The vertical translation from the load height to the storage height may be achieved by the electric actuator with assistance from the gas spring actuator.
The details of one or more implementations are set forth in the accompanying drawings and the description below. Other features, objects, and advantages of the implementations will be apparent from the description and drawings.
For a more complete understanding of this disclosure and its features, reference is now made to the following description, taken in conjunction with the accompanying drawings, in which:
When storing and retrieving saddles from conventional stationary saddle racks installed in stock combo trailers, users must step up and down approximately 18 inches into and out of the trailer when loading and unloading saddles. It is difficult for users to make that step carrying a saddle weighing about 50 pounds while maneuvering through a doorway that is just wide enough to fit the saddle through it. Users also risk physical injury by doing so. The difficulty and the possibility for injury only increase as users load and unload multiple saddles, which also tends to be time consuming and tiring.
Embodiments of the present disclosure generally provide improved apparatus and methods for storing and retrieving saddles. The apparatus may comprise a moveable saddle rack designed to store a plurality of saddles in a stacked vertical arrangement. The moveable saddle rack may be laterally translatable from one position to another and/or the moveable saddle rack may be vertically translatable from one height to another.
The moveable saddle rack 100 may be designed to store one saddle or a plurality of saddles in a stacked vertical arrangement, such that each saddle is stored on an individual tier or seat 120, 130, 140, 150 coupled to a frame 110 of the saddle rack 100. Other arrangements and numbers of saddle seats are also contemplated according to the present disclosure.
The individual saddle tiers or seats 120, 130, 140, 150 may be fixedly coupled to the frame 110 such that each seat 120, 130, 140, 150 maintains a fixed lateral and vertical position on the frame 110, as well as a fixed vertical spacing between seats 120, 130, 140, 150. In another implementation, one or more of the individual saddle tiers or seats 120, 130, 140, 150 may be adjustably coupled to the frame 110 to allow variations in the lateral and/or vertical positions of each adjustable seat 120, 130, 140, 150 on the frame 110, and/or to allow variations in the vertical spacing between seats 120, 130, 140, 150.
The moveable saddle rack 100 may further include a stirrup shelf 160 coupled to a lower portion of the frame 110. The stirrup shelf 160 retains stirrups from the saddle stored on the lowermost seat 150 to prevent those stirrups from dragging along the floor 230 of the tack compartment 200 as the moveable saddle rack 100 laterally translates across the trailer.
The stirrup shelf 160 may be fixedly coupled to the frame 110 such that the stirrup shelf 160 maintains a fixed lateral and vertical position on the frame 110, and a fixed vertical spacing off the floor 230 of the tack compartment 200. In another implementation, the stirrup shelf 160 may be adjustably coupled to the frame 110 to allow variations in the lateral and/or vertical position of the stirrup shelf 160 with respect to the frame 110 and/or to allow variations in the vertical spacing between the lowermost seat 150 and the stirrup shelf 160, as well as the stirrup shelf 160 and the floor 230 of the tack compartment 200. Such an adjustable stirrup shelf 160 would enable adjustability of the overall vertical span of the moveable saddle rack 100 to facilitate use of the moveable saddle rack 100 in tack compartments 200 of varying heights.
As best shown in
The moveable saddle rack 100 may further include a rear latch 175 on the translation assembly 170 that couples with a rear latch receiver 245 on the track 240 to retain the moveable saddle rack 100 in the travel position shown in
In an implementation, the rear latch receiver 245 may be fixedly coupled to the track 240. In another implementation, the rear latch receiver 245 may be adjustably coupled to the track 240 to facilitate installation of the rear latch receiver 245 and to allow variations in the position of the rear latch receiver 245 on the track 240, as needed, to properly engage the rear latch 175.
A line 300 may extend between the rear latch 175 on one end and a handle 310 positioned at the entry door 220 on the other end. Between the rear latch 175 and the entry door 220, the line 300 may be routed through a hook 255 or other coupling point on the ceiling 250 or other interior surface of the tack compartment 200. In various implementations, the line 300 may comprise rope, chain, wire or other similar structure.
In operation, when a user is ready to access the moveable saddle rack 100 for storing or retrieving saddles, the user stands on the ground near the entry door 220 of the tack compartment 200 and pulls on the line 300 via handle 310. When the user pulls the handle 310, a force is exerted on the line 300 and thereby on the rear latch 175. With sufficient force, the rear latch 175 is withdrawn from the rear latch receiver 245 to release the moveable saddle rack 100 from the travel position shown in
As the user continues to pull on the line 300 via the handle 310, the translation assembly 170 laterally translates the moveable saddle rack 100 along the track 240 and across the tack compartment 200 of the trailer. In this manner, the moveable saddle rack 100 is laterally translated to the access position shown in
In an implementation, the front latch 275 may be fixedly coupled to the track 240. In another implementation, the front latch 275 may be adjustably coupled to the track 240 to facilitate installation of the front latch 275 and to allow variations in the position of the front latch on the track 240, as needed, to properly engage the front latch receiver 285.
As shown in
Then the user may push the moveable saddle rack 100 back into the tack compartment 200 with sufficient force that the translation assembly 170 laterally translates the moveable saddle rack 100 along the track 240 and across the tack compartment 200 of the trailer. In this manner, the moveable saddle rack 100 is laterally translated back to the storage position shown in
In an implementation, the moveable saddle rack 100 requires no additional space in the tack compartment 200 as compared to conventional stationary saddle racks. Therefore, users are not required to purchase a longer trailer to accommodate the moveable saddle rack 100. The laterally translatable moveable saddle rack 100 may be installed in buildings, such as tack rooms of horse barns or stables, as well as in horse trailers. In an implementation, the moveable saddle rack 100 is located in substantially the same position as a conventional stationary saddle rack when the moveable saddle rack 100 is installed within a stock combo trailer and located in the travel position shown in
In an implementation, the moveable saddle rack 100 is laterally translatable along a linear path or along a curved path, but the moveable storage rack 100 is not rotationally translatable.
Referring now to
Like the moveable saddle rack 100 of
The frame 510 of the moveable saddle rack 500 may include a stationary frame portion 512 and a moveable frame portion 514 that is operable to vertically translate from one height to another with respect to the stationary frame portion 512. The saddle seats 120, 130, 140, 150 may be coupled to the moveable frame portion 514 such that the height of the saddle seats 120, 130, 140, 150 is adjusted as the moveable frame portion 514 vertically translates.
In an implementation, the two portions 512, 514 of the frame 510 are coupled together at a first height by a retainer 520. The first height may be referred to as the storage height. The retainer 520 may be positioned in any convenient location where it can extend through the moveable frame portion 514 and into an aperture 525 in the stationary frame portion 512. As best shown in
Referring now to
Referring now to
In operation, a user will first determine whether or not to operate the moveable saddle rack 500. In some circumstances, such as when loading and unloading saddles from the lower saddle seats 140, 150, there may be no need to vertically translate the moveable saddle rack 500. If a user decides to operate the moveable saddle rack 500 to access one or more of the upper saddle seat(s) 120, 130 for storing or retrieving saddles, the user retracts the retainer 520 via the handle 522 and pulls against the spring force to withdraw the retainer 520 from the aperture 525 in the stationary frame portion 512. Once the retainer 520 is withdrawn from the aperture 525, the moveable saddle rack 500 is released from the storage position shown in
Then the user may pull downwardly on the moveable frame portion 514 via any one of the lower saddle seat(s) 130, 140, 150 until the vertical translation system 540 vertically translates the moveable frame portion 514 downwardly via rollers 545 moving along the tracks 515. The actuator, such as the gas spring 530, aids in the vertical translation so the user is not required to exert much force. In this manner, the moveable saddle rack 500 is vertically translated downwardly to a load height that facilitates user access to the upper saddle seats 120, 130. In an implementation, the moveable frame portion 514 vertically translates approximately 10-inches with respect to the stationary frame portion 512, but other distances are contemplated by the present disclosure.
Once the user has finished loading or unloading saddles from the moveable saddle rack 500 in the load position, the user may pull upwardly on the moveable frame portion 514 via any one of the saddle seat(s) 120, 130, 140, 150 until the vertical translation system 540 vertically translates the moveable frame portion 514 upwardly via rollers 545 moving along the tracks 515. The actuator, such as the gas spring 530, aids in the vertical translation so the user is not required to exert much force. In this manner, the moveable saddle rack 500 is vertically translated upwardly to the storage height shown in
In an implementation, the vertically translatable moveable saddle rack 500 requires no additional space in the tack compartment 200 as compared to conventional stationary saddle racks. Therefore, users are not required to modify the trailer to accommodate the moveable saddle rack 500. The vertically translatable moveable saddle rack 500 can be used in buildings, such as horse barns or stables. The vertically translatable moveable saddle rack 500 can also be used in standard horse trailers as well as stock combo trailers. In an implementation, the moveable saddle rack 500 is installed in a standard location within a standard horse trailer as shown in
The moveable saddle racks 100, 500 as depicted and described are mechanically operable, requiring no electricity or other source of power to operate. The present disclosure also contemplates moveable saddle racks that are electrically operable, hydraulically operable, pneumatically operable, or operable by a combination of modes. An electrically operable moveable saddle rack may function under the electrical system of the trailer.
The moveable saddle rack 600 may comprise an actuator operable to aid the vertical translation of the moveable frame portion 514 from one height to another with respect to the stationary frame portion 512. In an implementation, the actuator is an electrical actuator, such as an electric winch 630 having a drive motor 632 that rotationally drives a drum 634 around which is wrapped a wire 636 coupled to the moveable frame portion 514. In an implementation, the wire 636 couples to the moveable frame portion 514 via a hook or loop 638.
In various implementations, the electric winch 630 may be mounted to the stationary frame portion 512 as shown in
For the moveable saddle rack 600 with an electric winch 630, the retainer 520 shown in
Like the moveable saddle rack 500, the moveable saddle rack 600 may further comprise a vertical translation system 540 as shown in
Referring again to
As the wire 636 unspools, the weight of the moveable frame portion 514 causes the vertical translation system 540 to vertically translate the moveable frame portion 514 downwardly via rollers 545 moving along the tracks 515. In this manner, the moveable saddle rack 600 is vertically translated downwardly from the storage height shown in
Once the user has finished loading or unloading saddles from the moveable saddle rack 600 in the load position, the user may reverse the rotational direction of the drive motor 632 and then provide power thereto to rotationally drive the drum 634 in the opposite direction and thereby spool the wire 636 onto the drum 634. As the wire 636 is spooled onto the drum 634, the moveable frame portion 514 is pulled upwardly by the wire 636 while the vertical translation system 540 vertically translates the moveable frame portion 514 upwardly via rollers 545 moving along the tracks 515. In this manner, the moveable saddle rack 600 is vertically translated upwardly to the storage height shown in
Referring now to
The moveable saddle rack 700 may comprise an actuator operable to aid the vertical translation of the moveable frame portion 514 from one height to another with respect to the stationary frame portion 512. In an implementation, the actuator is a combination mechanical actuator and electrical actuator, such as a gas cylinder 530 and an electric actuator 730. The gas cylinder 530 includes a piston chamber 532 and a piston rod 534 that engages a bar 516 coupled to and forming part of the moveable frame portion 514. The electric actuator 730 includes a drive motor 736, a piston chamber 732 and a piston rod 734. The electric actuator 730 is inverted, with the drive motor 736 coupled to the stationary frame portion 512 and the piston rod 734 engaging the bar 516 coupled to and forming part of the moveable frame portion 514. In an implementation, the electric actuator 730 is a 12-volt actuator, but other sizes are contemplated by the present disclosure.
In various implementations, the gas cylinder 530 assists the electric actuator 730 in lifting the moveable frame portion 514 with respect to the stationary frame portion 512. The assistance provided by the gas cylinder 530 reduces the voltage requirements of the electric actuator 730, thereby reducing the associated expense, without sacrificing the operational speed. The assistance provided by the gas cylinder 530 also reduces the lifting requirements of the electric actuator 730 such that it pulls less current. In some implementations, the electric actuator 730 may be directly connected to existing 14-16 gauge trailer wiring rather than requiring larger gauge wiring or an additional battery.
For the moveable saddle rack 700 with the combination mechanical actuator and electrical actuator, the retainer 520 shown in
Like the moveable saddle racks 500 and 600, the moveable saddle rack 700 may further comprise a vertical translation system 740 as shown in
In operation, a user will first determine whether or not to operate the moveable saddle rack 700. In some circumstances, such as when loading and unloading saddles from the lower saddle seats 140, 150, there may be no need to vertically translate the moveable saddle rack 700. If a user decides to lower the moveable saddle rack 700 from the storage position to access one or more of the upper saddle seat(s) 120, 130 for storing or retrieving saddles, the user provides power, such as via the electric actuator control switch 720, to the drive motor 736 of the electric actuator 730. The electric actuator 730 then extends the piston rod 734 downwardly from the piston chamber 732, thereby exerting a downward force by the piston rod 734 against the plate 516 coupled to the moveable frame portion 514.
As the downward force is exerted by the electric actuator 730, the vertical translation system 740 vertically translates the moveable frame portion 514 downwardly via rollers 545 moving along the tracks 515. In this manner, the moveable saddle rack 700 is vertically translated downwardly from the storage height to a load height that facilitates user access to the upper saddle seats 120, 130. During the downward vertical translation, the weight of saddles on the saddle seats 120, 130, 140, 150 may be sufficient to overcome the upward force exerted by the gas spring 530. In some implementations, the gas spring 530 is designed such that the electric actuator 730 uses no more than half of its rated force to vertically translate the moveable frame portion 514 downwardly, even when there are no saddles on the saddle seats 120, 130, 140, 150. In an implementation, the moveable frame portion 514 vertically translates approximately 10-inches with respect to the stationary frame portion 512, but other distances are contemplated by the present disclosure. When the moveable saddle rack 700 reaches the load height, the user discontinues providing power to the drive motor 736 and the movement stops. Thus, the electric actuator 730 controls the lowering of moveable saddle rack 700 from the storage height to the load height, or any position therebetween, based on how long the user provides power to the drive motor 736 to thereby extend the piston rod 734.
Once the user has finished loading or unloading saddles from the moveable saddle rack 700 in the load position, the user may reverse the direction of the drive motor 736 and then provide power thereto, such as via electric actuator control switch 720, to withdraw the piston rod 734 into the piston chamber 732. As the piston rod 734 is withdrawn into the piston chamber 732, the moveable frame portion 514 is pulled upwardly by the piston rod 734 (coupled to plate 516) while the vertical translation system 740 vertically translates the moveable frame portion 514 upwardly via rollers 545 moving along the tracks 515. During the upward vertical translation, the gas spring 530 aids the electric actuator 730 so that not as much force is required to lift the weight of the moveable frame portion 514. In this manner, the moveable saddle rack 700 is vertically translated upwardly to the storage height. When the moveable saddle rack 700 reaches the storage height, the user discontinues providing power to the drive motor 736 and the movement stops. The electric actuator 730 and gas spring 530 are operable to retain the moveable saddle rack 700 at the storage height.
In an implementation, the laterally translatable saddle rack 100 and any of the vertically translatable saddle racks 500, 600, 700 disclosed herein may be combined to form a moveable saddle rack that is both laterally translatable and vertically translatable. In the combined implementation, once the moveable saddle rack is laterally translated from the travel position shown in
The moveable saddle racks 100, 500, 600, 700 of the present disclosure allow for loading and unloading saddles without users having to step up into or down from the tack compartment 200 of a trailer carrying those saddles. This increases the speed and efficiency of loading and unloading saddles, and lowers the required physical exertion. The moveable saddle racks 100, 500, 600, 700 of the present disclosure also lower the risk of physical injury to backs, ankles, knees and hands during operation.
In various implementations, the moveable saddle racks 100, 500, 600, 700 depicted and described herein may be modified to include adjustability in the various components. For example, any of the moveable saddle racks 100, 500, 600, 700 may include adjustable saddle seats 120, 130, 140, 150. Referring now to
Referring now to
Likewise, referring now to
Referring now to
Referring now to
In addition to the specific moveable saddle racks 100, 500, 600, 700 that have been depicted and described, various other types of moveable saddle racks are contemplated that may be designed to laterally translate from one position to another and/or vertically translate from one height to another.
It is to be understood the implementations are not limited to particular systems or processes described which may, of course, vary. It is also to be understood that the terminology used herein is for the purpose of describing particular implementations only, and is not intended to be limiting. As used in this specification, the singular forms “a”, “an” and “the” include plural referents unless the content clearly indicates otherwise. As another example, “coupling” includes direct and/or indirect coupling of members.
Although the present disclosure has been described in detail, it should be understood that various changes, substitutions and alterations may be made herein without departing from the spirit and scope of the disclosure as defined by the appended claims. Moreover, the scope of the present application is not intended to be limited to the particular embodiments of the process, machine, manufacture, composition of matter, means, methods and steps described in the specification. As one of ordinary skill in the art will readily appreciate from the disclosure, processes, machines, manufacture, compositions of matter, means, methods, or steps, presently existing or later to be developed that perform substantially the same function or achieve substantially the same result as the corresponding embodiments described herein may be utilized according to the present disclosure. Accordingly, the appended claims are intended to include within their scope such processes, machines, manufacture, compositions of matter, means, methods, or steps.
This application is a continuation of U.S. patent application Ser. No. 15/606,371 filed May 26, 2017 and entitled “Moveable Saddle Rack”, which claims the benefit of U.S. Provisional Patent Application Ser. No. 62/342,550 filed May 27, 2016 and entitled “Moveable Saddle Rack”, and which also claims the benefit of U.S. Provisional Patent Application Ser. No. 62/418,377 filed Nov. 7, 2016 and entitled “Moveable Saddle Rack”, all of which are incorporated herein by reference in their entirety for all purposes.
Number | Date | Country | |
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62342550 | May 2016 | US | |
62418377 | Nov 2016 | US |
Number | Date | Country | |
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Parent | 15606371 | May 2017 | US |
Child | 15606523 | US |