Patent Grant
11890238
The present specification generally relates to armboard assemblies for supporting and positioning a limb of a user relative to a mounting structure, and, more specifically, armboard assemblies attachable to a mounting structure and positionable between an engaged position and a disengaged position to prohibit and permit rotation of the armboard assemblies relative to the mounting structure, respectively.
It is known to provide a limb-supporting structure, such as an armboard assembly, that may be movably attached to a mounting structure such as, for example, a surgical table or an X-ray table. Such a mounting structure typically has standardized side rails for receiving the armboard assembly.
Conventional armboard assemblies may include an armboard deck for supporting an arm during a medical procedure. However, handles of conventional armboard assemblies are not ergonomically formed to receive a hand of an operator to position the engagement assembly into the disengaged position. Further, armboard mounts of conventional armboard assemblies may permit debris from entering the armboard assemblies and are typically formed from multiple components, thereby increasing production time and cost.
Accordingly, a need exists for improved armboard assemblies that reduce the difficulty disengaging an armboard deck of an armboard assembly and prevent debris from entering the armboard assembly, while also reducing the time and cost of manufacturing.
A first aspect A1 includes an armboard assembly comprising: an armboard deck comprising a cavity formed in a lower surface of the armboard deck; an armboard mount comprising a plurality of radially extending teeth positioned within a mount portion of the cavity; and an engagement assembly movable relative to the armboard deck between an engaged position to engage the plurality of teeth of the armboard mount and a disengaged position to disengage the plurality of teeth of the armboard mount, the engagement assembly comprising: a handle including one or more legs extending from an upper surface of the handle, the one or more legs slidably engaging a leg recess formed in the armboard deck, the leg recess including an insertion hole and a channel extending from the insertion hole toward the armboard mount; and an indexing member positioned within the cavity of the armboard deck and coupled to the handle, wherein the indexing member limits movement of the engagement assembly toward the disengaged position such that the one or more legs of the handle is maintained within the channel of the leg recess and does not extend into the insertion hole.
A second aspect A2 includes the armboard assembly of A1, wherein a length of travel of the indexing member in the cavity is less than or equal to a length of the channel.
A third aspect A3 includes the armboard assembly of any of A1-A2, wherein the one or more legs of the handle comprises: a vertical wall extending from the upper surface of the handle; and a horizontal wall extending from an end of the vertical wall opposite the upper surface of the handle, wherein a gap is defined between the upper surface of the handle and a lower surface of the horizontal wall.
A fourth aspect A4 includes the armboard assembly of any of A1-A3, wherein the handle further comprises: a plurality of legs extending from the upper surface of the handle, each of the plurality of legs being received within a corresponding leg recess formed in the lower surface of the armboard deck.
A fifth aspect A5 includes the armboard assembly of any of A1-A4, further comprising: a blade including a first end portion engaging the indexing member and an opposite second end portion secured to the upper surface of the handle, the blade positioned within the cavity of the armboard deck.
A sixth aspect A6 includes the armboard assembly of any of A1-A5, wherein the armboard mount further comprises: a base plate positioned on the lower surface of the armboard deck; and a wheel extending from an upper surface of the base plate, the wheel including the plurality of teeth, wherein the base plate and the wheel form a one-piece, monolithic structure.
A seventh aspect A7 includes the armboard assembly of any of A1-A6, wherein the armboard deck further comprises: a first limiting wall; and a second limiting wall, wherein the indexing member contacts the first limiting wall when the engagement assembly is in the engaged position and the indexing member contacts the second limiting wall when the engagement assembly is in the disengaged position to limit movement of the indexing member within the cavity between the engaged position and the disengaged position.
An eighth aspect A8 includes the armboard assembly of any of A1-A7, further comprising: a biasing member positioned within the cavity, the biasing member extending between the indexing member and a transverse wall to bias the indexing member toward the mount portion of the cavity.
A ninth aspect A9 includes the armboard assembly of any of A1-A8, further comprising: a third limiting wall extending from the lower surface of the armboard deck and at least partially across the cavity.
A tenth aspect A10 includes an armboard assembly comprising: an armboard deck including a cavity formed in a lower surface of the armboard deck; an armboard mount including a plurality of radially extending teeth positioned within a mount portion of the cavity; and an engagement assembly movable relative to the armboard deck between an engaged position to engage the plurality of teeth of the armboard mount and a disengaged position to disengage the plurality of teeth of the armboard mount, the engagement assembly comprising: a handle slidably movable along the lower surface of the armboard deck; a blade including a first end portion and an opposite second end portion attached to the handle, the blade positioned within the cavity; and an indexing member positioned within the cavity of the armboard deck, the first end portion of the blade engaging the indexing member.
An eleventh aspect A11 includes the armboard assembly of A10, wherein: the handle comprises one or more posts extending from an upper surface of the handle; and the first end portion of the blade comprises one or more holes formed therein, each of the one or more holes configured to receive a corresponding post of the handle.
A twelfth aspect A12 includes the armboard assembly of any of A10-A11, wherein each of the one or more holes comprises a plurality of radially outwardly extending relief slots.
A thirteenth aspect A13 includes the armboard assembly of any of A10-A12, wherein the indexing member comprises one or more legs, the first end portion of the blade received within an area at least partially defined by the one or more legs of the indexing member.
A fourteenth aspect A14 includes the armboard assembly of any of A10-A13, further comprising a biasing member positioned within the cavity, the biasing member extending between the indexing member and a transverse wall within the cavity to bias the indexing member toward the mount portion of the cavity.
A fifteenth aspect A15 includes the armboard assembly of any of A10-A14, further comprising a blade cap positioned at the lower surface of the armboard deck to conceal the blade and the indexing member within the cavity of the armboard deck.
A sixteenth aspect A16 includes a method for operating an armboard assembly, the method comprising: biasing an engagement assembly in a first direction toward an engaged position relative to an armboard deck such that an indexing member of the engagement assembly engages a plurality of teeth of an armboard mount provided within a cavity of the armboard deck; pulling a handle of the engagement assembly to move the engagement assembly in an opposite second direction toward a disengaged position such that the indexing member disengages the plurality of teeth of the armboard mount, the handle comprising one or more legs extending into a corresponding leg recess formed in the armboard deck, the leg recess including an insertion hole and a channel extending from the insertion hole toward the armboard mount; and limiting, by the indexing member, a distance in which the handle may be pulled in the second direction toward the disengaged position to maintain the one or more legs of the handle within the channel of the leg recess and prevent the one or more legs of the handle from extending into the insertion hole.
A seventeenth aspect A17 includes the method of A16, wherein the biasing the engagement assembly toward the first direction comprises expanding a biasing member between the indexing member and a transverse wall formed in the cavity.
An eighteenth aspect A18 includes the method of any of A16-A17, wherein the pulling the handle causes the biasing member to compress between the indexing member and the transverse wall.
A nineteenth aspect A19 includes the method of any one of A16-A18, wherein: a lower surface of the armboard deck is received within a gap defined by the lower surface of the armboard deck and a horizontal wall of the one or more legs of the handle extending within the armboard deck; and the armboard deck slides within the gap as the engagement assembly moves between the engaged position and the disengaged position.
A twentieth aspect A20 includes the method of any of A16-A19, wherein the armboard mount comprises: a base plate positioned on a lower surface of the armboard deck; and a wheel including the plurality of teeth, wherein the base plate and the plurality of teeth form a one-piece, monolithic structure.
These and additional features provided by the embodiments described herein will be more fully understood in view of the following detailed description, in conjunction with the drawings.
The embodiments set forth in the drawings are illustrative and exemplary in nature and not intended to limit the subject matter defined by the claims. The following detailed description of the illustrative embodiments can be understood when read in conjunction with the following drawings, where like structure is indicated with like reference numerals and in which:
Embodiments described herein are directed to armboard assemblies and methods for operating armboard assemblies that support and position a limb during a medical procedure.
In embodiments, the armboard assemblies may include an armboard deck including a cavity formed in a lower surface of the armboard deck, an armboard mount including a plurality of radially extending teeth positioned within a mount portion of the cavity, and an engagement assembly movable relative to the armboard deck between an engaged position to engage the plurality of teeth of the armboard mount and a disengaged position to disengage the plurality of teeth of the armboard mount. Various embodiments of the armboard assemblies and the operation of the armboard assemblies are described in more detail herein. Whenever possible, the same reference numerals will be used throughout the drawings to refer to the same or like parts.
Directional terms as used herein—for example up, down, right, left, front, back, top, bottom—are made only with reference to the figures as drawn and are not intended to imply absolute orientation.
As used herein, “width” refers a distance extending in the +/−X-axis, “length” refers to a distance extending in the +/−Y-axis, and “thickness” refers to a distance extending in the +/−Z-axis of the coordinate axes depicted in the drawings.
Unless otherwise expressly stated, it is in no way intended that any method set forth herein be construed as requiring that its steps be performed in a specific order, nor that with any apparatus specific orientations be required. Accordingly, where a method claim does not actually recite an order to be followed by its steps, or that any apparatus claim does not actually recite an order or orientation to individual components, or it is not otherwise specifically stated in the claims or description that the steps are to be limited to a specific order, or that a specific order or orientation to components of an apparatus is not recited, it is in no way intended that an order or orientation be inferred, in any respect. This holds for any possible non-express basis for interpretation, including: matters of logic with respect to arrangement of steps, operational flow, order of components, or orientation of components; plain meaning derived from grammatical organization or punctuation, and; the number or type of embodiments described in the specification.
As used herein, the singular forms “a,” “an” and “the” include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to “a” component includes aspects having two or more such components, unless the context clearly indicates otherwise.
Referring now to
Referring still to
As shown in
The indexing portion 124 of the cavity 120 formed in the armboard deck 102 defines a first limiting wall 142 and a second limiting wall 144 extending from one side of the indexing portion 124 toward an opposite side of the indexing portion 124. As discussed in more detail herein, in embodiments, the first limiting wall 142 and the second limiting wall 144 define an indexing length L1 in which the engagement assembly 106 is permitted to move, i.e., a length of travel, between the engaged position and the disengaged position. The indexing portion 124 of the cavity 120 also defines a transverse wall 146 extending from one side of the indexing portion 124 toward the opposite side of the indexing portion 124. In embodiments, the transverse wall 146 is provided at an end of the indexing portion 124 opposite first limiting wall 142. The transverse wall 146 defines a reduced width of the indexing portion 124 from which the elongated portion 126 of the cavity 120 extends. As shown in
The elongated portion 126 of the cavity 120 extends from the indexing portion 124, specifically from the transverse wall 146, to the end portion 128 of the cavity 120. In embodiments, the elongated portion 126 has a width less than a width of the end portion 128.
Referring again to
As shown in
It should be appreciated that at least the armboard deck 102 and the engagement assembly 106 are constructed so as to be generally transparent or translucent (i.e., radiolucent) to X-rays through its thickness. Accordingly, the armboard deck 102 and the engagement assembly 106 are constructed from material that is generally transparent or translucent to X-rays such as, for example, polyethylene or polypropylene.
Referring now to
The handle 108 includes one or more legs 178 extending from the upper surface 166 of the handle 108 to engage a corresponding leg recess 150 formed in the armboard deck 102. As shown, a plurality of legs 178 extend from the upper surface 166 of the handle 108 with each leg 178 fitting within a corresponding leg recess 150 formed in the armboard deck 102. Each leg 178 includes a vertical wall 180 extending from the upper surface 166 of the handle 108 and a horizontal wall 182 extending from an end of the vertical wall 180 opposite the upper surface 166 of the handle 108. In embodiments, the horizontal wall 182 extends in a direction opposite a center of the upper surface 166 of the handle 108. In other embodiments, the horizontal wall 182 extends in a direction toward the center of the upper surface 166 of the handle 108. A gap 184 is defined between the upper surface 166 of the handle 108 and a lower surface of the horizontal wall 182. Specifically, the horizontal wall 182 of the leg 178 has a width less than the width of the insertion hole 152 of the leg recess 150 such that the horizontal wall 182 is able to extend through the insertion hole 152, and the vertical wall 180 of the leg 178 has a width less than the width of the channel 154 of the leg recess 150 so as to be able to slide along the channel 154, as shown in
Referring now to
As shown in
One or more holes 196 are formed in the second end portion 192 of the blade 110 having a geometry corresponding to the one or more posts 186 extending from the upper surface 166 of the handle 108. As shown, a pair of holes 196 are formed in the second end portion 192 of the blade 110 with each hole 196 configured to receive a corresponding post 186 of the handle 108 when the blade 110 is lowered onto the upper surface 166 of the handle 108. In embodiments, each hole 196 has a plurality of relief slots 198 extending radially outwardly from the hole 196. The relief slots 198 provide a degree of flexibility to the hole 196 formed in the second end portion 192 of the blade 110 so that the posts 186 may be received within the holes 196 and secured thereto by friction fit. As discussed herein, when the blade 110 is lowered onto the handle 108, the spacer 188 limits the amount that the second end portion 192 of the blade 110 may be lowered onto the upper surface 166 of the handle 108 such that the first end portion 190 of the blade 110 aligns with the indexing member 112 in the +/−Z-axis.
Referring now to
As discussed herein, the engagement assembly 106 also includes one or more biasing members 114 such as, for example, a spring. The biasing member 114 is positioned within the indexing portion 124 of the cavity 120 between the indexing member 112 and the transverse wall 146 to bias the indexing member 112, and thus the engagement assembly 106, in the first direction D1 toward the engaged position. More particularly, the biasing member 114 may extend between the protrusion 212 and the transverse wall 146, when provided. When a pair of legs 210 are provided on the indexing member 112 and each leg 210 includes a protrusion 212, a biasing member 114 may be provided and extend between the transverse wall 146 and each protrusion 212. However, it should be appreciated that the position of the one or more biasing members 114 is not limited to those positions discussed herein and other suitable positions such as, for example, within the end portion 128 of the cavity 120, are within the scope of the present disclosure.
Referring now to
Referring now to
The wheel 248 includes a plurality of teeth 252 extending radially outwardly from a central axis C. The teeth 252 of the wheel 248 are configured to mate with the teeth 208 of the indexing member 112 (
The mounting block 250 of the armboard mount 104 extends from the base plate 242 and has a front surface 258 and an opposite rear surface 260. A retaining lip 262 extends from the front surface 258 of the mounting block 250 and has a substantially L-shaped geometry. The retaining lip 262 and the front surface 258 of the mounting block 250 cooperate to define a mounting channel 264 for receiving a top edge 266 of the mounting structure 240. A recess 270 is formed in the front surface 258 of the mounting block 250 extending toward the rear surface 260 of the mounting block 250 for at least partially receiving the plunger assembly 216. Specifically, the recess 270 receives the one or more biasing members 222 and a varying amount of the plunger 218 based on a state of the knob 220. An opening 272 is formed in the rear surface 260 of the mounting block 250 and terminates at the recess 270. The knob 220 of the plunger assembly 216 extends through the opening 272 and into the recess 270 to engage the plunger 218, as described herein. Further, the one or more biasing members 222 are provided within the recess 270 and extend between the inner end 226 of the plunger 218 and an interior wall of the mounting block 250 defining the recess 270.
As such, the plunger assembly 216 is operable between an extended position and a retracted position relative to the mounting block 250. When in the extended position, the plunger 218 is positioned opposite the retaining lip 262 such that the mounting structure 240 may be positioned between the plunger 218 and the retaining lip 262 to secure the armboard mount 104 on the mounting structure 240. Alternatively, when in the retracted position, the plunger 218 is drawn into the recess 270 and out of contact with a bottom edge 268 of the mounting structure 240 such that the armboard mount 104 may be removed from engagement with the mounting structure 240. To maintain a linear position of the plunger assembly 216 relative to the mounting block 250, the inner end 226 of the plunger 218 may be positioned within the recess 270 when in the extended position. Alternatively or in addition to, the opening 272 of the mounting block 250 may be dimensioned to provide a constant contact fit with a portion of the knob 220 extending therethrough and maintain the lateral position of the plunger assembly 216.
Specifically, pulling the free end 236 of the knob 220 in the second direction D2 draws the plunger 218 further into the recess 270 formed in the mounting block 250, thereby positioning the plunger assembly 216 in the retracted position. This causes the plunger 218 to move out of contact with the bottom edge 268 of the mounting structure 240 and permit removal of the armboard mount 104 from the mounting structure 240. When in the retracted position, the biasing members 222 are compressed between the mounting block 250 and the plunger 218 to bias the plunger 218 toward the first direction D1. Thus, when the free end 236 of the knob 220 is released, the biasing members 222 expand to push the plunger 218 in the first direction D1 and out of the recess 270, thereby positioning the plunger assembly 216 back in the extended position. As the plunger 218 extends from the recess 270, the mounting structure 240 is secured between the retaining lip 262 and the plunger 218 to secure the armboard mount 104 onto the mounting structure 240.
Referring now to
To position the engagement assembly 106 within the cavity 120 of the armboard deck 102, the indexing member 112 is initially positioned within the indexing portion 124 of the cavity 120. Thereafter, the handle 108, with the blade 110 attached to the upper surface 166 of the handle 108, is positioned onto the lower surface 118 of the armboard deck 102 such that each of the legs 178 of the handle 108 extend through the insertion hole 152 of corresponding leg recesses 150 formed in the lower surface 118 of the armboard deck 102. The handle 108 is then moved in the first direction D1 such that the vertical wall 180 of each leg 178 engages the channel 154 of each leg recess 150. Once the vertical wall 180 is positioned within the channel 154, the horizontal wall 182 of each leg 178 prevents the removal of the handle 108 from the armboard deck 102 due to the width of the horizontal wall 182 being greater than the width of the channel 154. With the handle 108 moved in the first direction D1 toward the mount portion 122 of the cavity 120, the first end portion 190 of the blade 110 is positioned within an area of the indexing member 112 defined by the rear end 204 of the toothed portion 200, the one or more side walls 206, and the protrusion 212 extending from each of the one or more side walls 206. Thus, movement of the handle 108 and the blade 110 fixed thereto in the second direction D2 draws the indexing member 112 in the second direction D2 as well.
Now, operation of the engagement assembly 106 between the engaged position and the disengaged position is described in more detail. Specifically, with the engagement assembly 106 in the engaged position, as shown in
To permit the armboard deck 102 to be rotated relative to the armboard mount 104, the engagement assembly 106 is moved into the disengaged position, as shown in
As noted herein, it should be appreciated that a distance between the first limiting wall 142 and the second limiting wall 144, which defines the indexing length L1, is less than or equal to the channel length L2 of the channel 154 of each leg recess 150. Therefore, even with the engagement assembly 106 in the disengaged position, the legs 178 of the handle 108 are still received within the channel 154, rather than extending into the insertion hole 152. This prevents the handle 108 from being removed from the armboard deck 102 when in the disengaged position.
From the above, it is to be appreciated that defined herein are armboard assemblies that support and permit rotation of a limb, such as an arm, during a medical procedure. The armboard assemblies disclosed herein include an armboard deck including a cavity formed in a lower surface of the armboard deck, an armboard mount including a plurality of radially extending teeth positioned within a mount portion of the cavity, and an engagement assembly movable relative to the armboard deck between an engaged position to engage the plurality of teeth of the armboard mount and a disengaged position to disengage the plurality of teeth of the armboard mount. The armboard mount prevents debris from entering the cavity of the armboard deck. Further, the engagement assembly includes a handle configured to receive one or more fingers of a user to facilitate positioning the engagement assembly out of the engaged position and into the disengaged position.
It will be apparent to those skilled in the art that various modifications and variations can be made to the embodiments described herein without departing from the spirit and scope of the claimed subject matter. Thus, it is intended that the specification cover the modifications and variations of the various embodiments described herein provided such modification and variations come within the scope of the appended claims and their equivalents.
This application is a non-provisional application and claims priority to U.S. Provisional Patent Application No. 63/129,153, filed Dec. 22, 2020, for “Armboard Assemblies For Supporting And Positioning A Limb Relative To A Mounting Structure,” which is hereby incorporated by reference in its entirety including the drawings.
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| Number | Date | Country | |
|---|---|---|---|
| 20220192910 A1 | Jun 2022 | US |
| Number | Date | Country | |
|---|---|---|---|
| 63129153 | Dec 2020 | US |
