Patent Grant
9839572
This disclosure generally relates to therapeutic apparatuses including, physical therapy, and/or athletic training apparatuses.
Following muscular injury or repetitive strain, scar tissue or disorganized collagen often forms in the body. This aberrant tissue can restrict normal range of motion and slow healing. It is often difficult, painful, and time-consuming to release these areas of adhesion. Currently, chiropractors use large, cumbersome drop mechanisms that are attached to a table to treat areas of adhesion or hands on methods that are time-consuming, painful for the patient, and often a source of repetitive strain for the treating physician.
In an example, this disclosure is directed to a portable therapeutic apparatus. The portable therapeutic apparatus can include a handle, a protrusion, an adjustment element, and a resistance element. The handle may define a first slot and a second slot. The protrusion may include a first end, a second end, and an indentation proximate the first end. The first end may be slideably located inside the first slot. The adjustment element may protrude from the second slot. The resistance element may be in contact with the adjustment element and the protrusion. When the protrusion is in a first position a portion of the resistance element may rest within the indentation and may hinder movement of the protrusion within the first slot.
In yet another example, this disclosure is directed to a method for applying a force to a desired area of a body in order to release muscular adhesions. The method may include setting a resistance force needed to cause a protrusion protruding from a handle to slide within a slot of the handle; applying a force to the handle while the protrusion rests against the desired area of the body; and upon the force being applied to the handle exceeding the resistance force, causing the protrusion to rapidly slide from a first position within the slot to a second position within the slot. Upon the protrusion reaching the second position, the force may be applied to the desired area of the body.
The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate various embodiments of the present invention.
The following detailed description refers to the accompanying drawings. Wherever possible, the same reference numbers are used in the drawings and the following description to refer to the same or similar elements. While specific embodiments may be described herein, modifications, adaptations, and other implementations of the specific embodiments are possible and contemplated. For example, substitutions, additions, or modifications may be made to the embodiments, including elements shown in the embodiments, illustrated in the drawings, and the methods described herein may be modified by substituting, reordering, or adding stages to the disclosed methods. Accordingly, the following detailed description does not limit the disclosure.
Portable therapeutic apparatuses disclosed herein can provide a quick way of releasing adhesions by allowing a user to apply a stretch to the tissue that can have a mechanical effect of releasing the adhesion and also can neurologically stimulate reflex relaxation of the tissue. Use of portable therapeutic apparatuses disclosed herein can reduce the time of treatment and can confine discomfort to a very brief moment, rather than a prolonged therapy session.
A problem with currently used drop pieces is that most are stationary and difficult to transport as they are either attached to a table or otherwise cumbersome to transport. In order to trigger a drop, a thrust must be applied in a downward direction, which can be difficult depending on the tissue involved. Currently used drop pieces are large and stationary, requiring the person to lie down. They also limit the body areas one can treat due to the location and direction of the drops. Other manual methods for applying a stretch are painful, hard to tolerate, and are stressful to the user over time.
Portable therapeutic apparatuses consistent with this disclosure may allow the application of a force in the direction of a user's thrust, regardless of a person's body positioning. Portable therapeutic apparatuses consistent with this disclosure also offer portability and versatility that can make portable therapeutic apparatuses consistent with this disclosure both convenient and effective. Portable therapeutic apparatuses consistent with this disclosure are also less taxing to the user, as the portable therapeutic apparatuses consistent with this disclosure can be triggered by using one's body weight rather than the force of thumbs or hands. Treatment using the portable therapeutic apparatuses consistent with this disclosure may also be completed much quicker, thus making the treatment more tolerable.
Consistent with this disclosure, portable therapeutic apparatuses may include a handle having a block shape, a first hole extending centrally within the handle, a second hole extending transverse with respect to the first hole and extending into the first hole. The portable therapeutic apparatuses consistent with this disclosure may also include a rod slidably extending within the first hole, a groove extending around the inner end of the rod, and a softer tip attached to a distal end of the rod. A first ball bearing may be positioned within the second hole to selectively engage the groove in the rod. A spring positioned within the second hole may apply a biasing force to the first ball bearing to engage the groove. A second ball bearing on the opposite side of the spring may rest against a threaded insert extending into the second hole to retain the spring at a minimum level of biasing force. The threaded knob may threadably extend through the threaded insert to engage the second ball bearing thereby allowing for an increase in biasing force by the spring to the first ball bearing. In use, a user applies a downward pressure upon a location of a body with the tip of the rod engaging the location to be treated. As the downward force is applied to the body, the rod eventually pushes upwardly until the groove is no longer engaged by the first ball bearing and the handle continues downwardly to engage the top end of the rod thereby applying a quick impulse to the tissue being treated. The rod is then pulled out of the first hole until the first ball bearing engages the groove and the above process can be repeated. Throughout this disclosure, a user includes, but is not limited to any person utilizing the portable therapeutic apparatus disclosed herein. Non-limiting examples of a user include a chiropractor, a physical therapist, an athletic trainer, an athlete, a person at home or at work, a massage therapist, a veterinarian, etc. Users can use the therapeutic apparatus on themselves or on others such as patients.
The handle 102 can be constructed of a number of different materials. Non-limiting examples of materials that can be used to construct the handle 102 include, but are not limited to, woods, ceramics, metals, polymers, or any combination thereof. For example, the handle 102 can be constructed from a block of wood. For instance, the handle 102 can be constructed from a block of oak or other species of wood.
The handle 102 can be constructed via a number of different manufacturing techniques. For example, the handle 102 can be manufactured from a polymer that is injection molded, from a metal that is cast or forged, etc. Other methods for manufacturing the handle 102 include milling the handle 102, regardless of the material used to form an ingot, on a computer numerically controlled (CNC) mill. For example, the ingot for the handle 102 may be manufactured by cutting blocks of wood into rectangular prisms of approximately the correct size of a finished handle. Once the ingot is formed, a CNC mill may bore the first slot 110 in a top surface, the second slot 112 in a side surface, as well as round off the edges to eliminate sharp points that could injure a user. In addition, the handle 102 can be hand crafted using hand tools such as chisels, rasps, etc.
In addition, the handle 102 may be custom fitted to the user. For example, a mold or other template can be created for a user's hands. The mold or template can be used to cast or otherwise form the handle 102 such that the handle 102 better conforms to the user's hands.
The protrusion 104 can be constructed of different materials. Non-limiting examples of materials that can be used to construct the protrusion 104 include, but are not limited to, woods, ceramics, metals, polymers, and combinations thereof. For example, the protrusion 104 may be formed in the shape of a cylinder from a metal (such as aluminum), polymer (such as nylon), ceramic (such as clay), wood (such as oak), etc. The cylinder may or may not contain voids. For instance, as will be described with regards to
The protrusion 104 can be constructed in a variety of fashions. For example, the protrusion 104 can be cast, injection molded, milled on a CNC mill, turned on a lathe, etc. For instance, the protrusion 104 can be constructed of a polymer by injection molding. The indentation 114 can be formed at a first end of the protrusion 104 during the injection molding process. Furthermore, the protrusion 104 can be constructed of a polymer rod and the indentation 114 can be cut into the polymer rod on a lathe. The cushion 116 can simply slip over a second end of the protrusion 104. The cushion 116 can be constructed of materials such as, but not limited to, rubber, ceramics, polymers, etc.
The indentation 114 can take many shapes. For instance, the indentation 114 can be a dimple located on the protrusion 104 or the indentation 114 can be a groove covering the full or a partial circumference of the protrusion 104. In addition, while
As shown in
The resistance element 106 can be constructed from a variety of materials and in a number of fashions. As shown in
In addition to materials such as cork and rubber, springs may be used as the elastic element 120. The elastic element 120 can also be selected from a plurality of elastic elements. For instance, the elastic element 120 can be a compression spring that is selected from a plurality of compression springs. In some example configurations, each of the compression springs can have a different spring constant. The differing spring constants can allow the user to select a compression spring that can result in a higher or lower force being required to be applied to the handle 102 in order to cause the protrusion 104 to traverse within the first slot 110.
A single elastic element can be used to customize the force required to cause the protrusion 104 to traverse within the first slot 110. For example, the elastic element 120 can be a compression spring located between the first element 118 and the second element 122. To increase or decrease the force required to cause protrusion 104 to move, the user can rotate the cap 126 clockwise or counterclockwise, respectively, to compress or decompress the elastic element 120.
During use, a user may wish to apply a given pressure to an area of a person's body using the portable therapeutic apparatus 100. During using the user can set a first desired pressure by adjusting the adjustment element 108. More specifically, the user can turn the cap 126 to cause the threaded rod 124 to move into or out of the handle 102 as indicated by arrow 128. The threaded rod 124 may include markings that are calibrated to result in given forces being required to cause the protrusion 104 to move. For instance, to apply the first desired pressure, the user may rotate the cap 126 until a first marking located on the threaded rod 124 is proximate the handle 102. The user may then place the second end of the protrusion 104 on the desired area to be treated. Once the protrusion 104 is in contact with the desired area to be treated, the user can apply a force to the handle 102. As shown in
To apply a second desired force, the user can adjust the adjustment element 108 (e.g., by rotating the cap 126) such that a second marking that indicates the second desired force is adjacent the handle 102. Upon repositioning the adjustment element 108, the user can repeat the stages outlined above to apply the second desired pressure to the desired area (or another area) of the body.
The resistance element 406 includes a slip element 408 and an extension element 410. As shown in
The extension element 410 can be a tension spring or a compression spring that is selected from a plurality of tension springs or compression springs. During operation, the extension element 410 acts to counter the force applied by the user. For example, a stiff compression spring can cause the user to have to apply a greater force to the handle 402 in order to get the handle 402 to travel within a first slot 412. In other words, the force exerted by the resistance element 406 can remain constant regardless of the extension element 410 used. However, because a stiffer extension element 410 (e.g., a stiffer compression spring) can push back on the handle 402, the user may have to apply a force great enough to overcome the force exerted by the resistance element 410 plus the force of the extension element 410. Thus, once the handle 402 is able to travel within the first slot 412, the user may be applying a greater force to the handle 402 than if the user were using a less stiff extension element 410, or no extension element 410. To change the extension element 410, the user can remove a cap 426 and replace the extension element 410 that can fit within a hollow portion of the protrusion 404. In embodiments without a hollow protrusion, the extension element 410 can fit against an end portion of the protrusion 404. The extension element 410 also serves to provide resistance against the movement of the protrusion 404 when sliding in the first slot 412. This can be beneficial with certain individuals. An extension element can also be used with the embodiments shown in the other figures. For example, with regard to
During use, a user can rotate the wheel 526 to cause the threaded rod 524 to move within the second slot 112 as indicated by arrow 528. To keep the threaded rod 524 from rotating when the wheel 526 is rotated, a key 532 can project from a surface of the second slot 112. The key 532 can slide within a keyway 534 formed in the threaded rod 524. The wheel 526 can include markings that are calibrated to result in given forces being required to cause the protrusion 104 to move. For instance, to apply the first desired pressure, the user may rotate the wheel 526 until a first marking located on the wheel 526 is visible in the groove 530. The first marking may correlate the first desired pressure into a force required to cause movement of the protrusion 104.
While certain embodiments of the invention have been described, other embodiments may exist. While the specification includes examples, the invention's scope is indicated by the following claims. Furthermore, while the specification has been described in language specific to structural features and/or methodological acts, the claims are not limited to the features or acts described above. Rather, the specific features and acts described above are disclosed as examples for embodiments of the invention.
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| Entry |
|---|
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| Number | Date | Country | |
|---|---|---|---|
| 20160338899 A1 | Nov 2016 | US |
