Spinal traction device

A traction device includes a base panel having a frame member pivotally attached to an edge thereof. The frame member is formed of a telescoping leg with a telescoping arm extending from its upper end. The frame member supports a tensioning cable having a neck harness at a distal end for fastening to a patient's head. A proximal end of the cable is attached to a tensioning mechanism slidably mounted on the leg. The tensioning mechanism includes a telescoping, pneumatic cylinder that is extended with a compressible bulb. The cylinder engages a pivotal lever that pulls the cable downwardly when the cylinder is extended, thereby applying tension to the harness.

BACKGROUND OF THE INVENTION

The present invention relates to a device that allows a patient to easily apply spinal traction in a home or office.

DESCRIPTION OF THE PRIOR ART

Spinal traction is often applied to patients having various back or neck ailments. Conventional in-home devices are difficult to erect and often require the assistance of another person. Furthermore, because the devices are typically mounted on a door, the user is prevented from performing other tasks, such as watching television. Accordingly, there is currently a need for an easier, more convenient means of applying traction.

A review of the prior art reveals a myriad of traction devices. For example, U.S. Pat. No. 2,808,049 issued to Graham discloses a traction device including a vertical support having a plate at a lower end for anchoring beneath a chair; at an upper end is an arm that supports a spring-biased head harness for applying traction to a user's spine.

U.S. Pat. No. 5,074,287 issued to Avitt discloses a cervical traction device including a pivoting arm having a head harness at one end and a weight stack on an opposing end. A motorized cam intermittently raises the weight stack to periodically relieve the applied traction.

U.S. Pat. No. 3,003,498 issued to Hotas discloses a spinal traction chair including a frame having a seat supported thereon. A desired amount of weight may be loaded onto a traction device to apply a desired amount of traction force to a harness.

U.S. Pat. No. 2,633,124 issued to Yellin discloses a traction apparatus including a seat having a post vertically extending therefrom. A harness at the upper end of the post is variably tensioned by a motor beneath the seat.

U.S. Pat. No. 5,658,245 issued to McGinnis et al. discloses a traction device that is attachable to a vehicle seat.

U.S. Pat. No. 3,068,859 issued to Treutelaar discloses a therapeutic traction device comprising a base frame having a shaft vertically extending therefrom; a spring-biased tensioning cord and associated head harness are secured to an upper end of the shaft.

As indicated above, at least one of the references, the patent to Graham, discloses a traction device that can be supported by a chair. However, all of the prior art devices use springs, weight stacks or motors to apply tension to a traction cable. Such mechanisms are bulky, heavy, expensive and require numerous components, which are difficult to construct, assemble and operate. Furthermore, none of the prior art devices include a means for adjusting the traction vector to assure that it is parallel to a chair backrest. The present invention addresses this need by providing a traction device having an expandable, pneumatic cylinder that applies a desired amount of tension to a traction cable; a head harness is mounted on a pivotal frame that can be angularly adjusted to be parallel to a chair backrest, regardless of its slope.

SUMMARY OF THE INVENTION

The present invention relates to a traction device comprising a base panel having a frame member pivotally attached to an edge thereof. The frame member is formed of a telescoping leg with a telescoping arm extending from its upper end. The frame member supports a tensioning cable having a neck harness at a distal end for fastening to a patient's head. A proximal end of the cable is attached to a tensioning mechanism slidably mounted on the leg. The tensioning mechanism includes a telescoping, pneumatic cylinder that is extended with a compressible bulb. The cylinder engages a pivotal lever that pulls the cable downwardly when the cylinder is extended, thereby applying tension to the harness.

It is therefore an object of the present invention to provide a device that allows a user to conveniently apply traction in the comfort of a home or office.

It is another object of the present invention to provide a traction device that is angularly and length-adjustable.

DESCRIPTION OF THE PREFERRED EMBODIMENT

The present invention relates to a traction device comprising a base panel1having a frame member2pivotally attached to an edge thereof. The frame member is formed of a telescoping leg3with a telescoping, pivotal arm4extending from an upper end thereof. Attached to the base panel, and adjacent to the leg, is an adjustment plate5having a plurality of radially-disposed apertures6thereon, each for selectively aligning with an opening on the leg; a locking pin is inserted into the aligned apertures, allowing the angle of the leg relative to the base panel to be adjusted, as desired. For example, some chairs have oblique backrests20whereby a vertical leg would create a traction vector that is not parallel with the spine. Conversely, a user may attain greater relief from a misaligned traction vector for a given ailment or injury.

Both the arm and the leg include a pulley7that guides a tensioning cable8along the frame member. A neck harness9of the type generally known in the art is disposed at a distal end of the cable for securing to a patient's head. A proximal end of the cable extends through a height-adjustable tensioning mechanism10mounted on the leg. The tensioning mechanism is formed of a housing11having a telescoping, pneumatic cylinder22received therein. A compressible bulb12allows a user to pressurize the cylinder to a desired level within a predetermined range. The bulb includes a check valve that maintains pressure within the cylinder until air is released by a relief valve13. When pressurized, the cylinder extends to lift an end of a pivotal lever21, causing an opposing end to pull the cable downwardly to apply tension to the harness. A pressure gauge14allows a user to monitor the relative amount of tension being applied.

To use the traction device, a patient simply slides the base panel beneath a chair or other anchoring device and adjusts the frame height and angle. The tensioning mechanism housing is vertically adjusted on the frame leg so that the harness is applying a minimal amount of force to the neck when the user is seated. The cylinder is extended until the desired amount of tension is applied to the harness.

The above-described device is not limited to the exact details of construction and enumeration of parts provided herein. Furthermore, the size, shape and materials of construction of the various components can be varied.