HAND REST METHOD AND APPARATUS
Field of the Invention
This invention relates to the field of blood pressure reduction methods and apparatus.
Background of the Invention
There have been numerous medicines being released recently to reduce blood pressure. Some of these medicines have adverse systemic effects. The Applicant's method has no adverse systemic effects and mechanically reduces blood pressure at least in the hands and arms.
Summary of the Invention
The present invention provides a method and apparatus for reducing blood pressure mechanically by introducing various design embodiments to achieve an elevated hand position.
Additionally, the invention provides easy hand separation from the strap in case of a fall or for other safety reasons.
The present invention also improves the bio-mechanics of the hand placement by taking the stress off of the biceps and placing the weight over the shoulders. The device will train the user to hold his hands elevated to encourage this healthy habit.
Brief Description of the Drawings
Fig. 1 Perspective view in situ.
Fig. 2 Alternate embodiment perspective view in situ.
Fig. 3 Alternate embodiment perspective view in situ.
Fig. 4 Alternate embodiment perspective view in situ. Fig. 5 Alternate embodiment perspective view in situ; Fig. 6 Alternate embodiment perspective view in situ. Fig. 7 Alternate embodiment perspective view in situ. Fig. 8 Alternate embodiment perspective view in situ. Fig. 9 Alternate embodiment perspective view in situ. Fig. 10 Alternate embodiment perspective view in situ. Fig. 11 Alternate embodiment perspective view in situ. Fig. 12 Alternate embodiment perspective view in situ. Fig. 13 Alternate embodiment perspective view in situ. Fig. 14 Alternate embodiment perspective view in situ. Fig. 15 Alternate embodiment perspective view in situ. Fig. 16 Alternate embodiment perspective view in situ. Fig. 17 Alternate embodiment perspective view in situ. Fig. 18 Alternate embodiment perspective view in situ. Fig. 19 Alternate embodiment perspective view in situ. Fig. 20 Alternate embodiment perspective view in situ. Fig. 21 Alternate embodiment perspective view in situ. Fig. 22 Alternate embodiment perspective view in situ. Fig. 23 Alternate embodiment perspective view in situ. Fig. 24 Alternate embodiment perspective view in situ. Fig. 25 Alternate embodiment perspective view in situ. Fig. 26 Alternate embodiment perspective view in situ. Fig. 27 Alternate embodiment perspective view in situ. Fig. 28 Alternate embodiment perspective view in situ. Fig. 29 Alternate embodiment perspective view in situ.
Detailed Description of the Invention
High blood pressure is an ever present fact of modern life. It can have genetic, environmentally controllable and uncontrollable causes. The
known remedies beyond diet and exercise are powerful drugs that affect blood chemistry. The cures can have significant effects on bodily systems. An approach that is sometimes used, but is not practical to a normal life, is lying down. This puts the heart and the rest of the body in close elevational proximity . Thus the heart doesn't have to work nearly as hard to pump blood less than 1 foot vertical and substantially horizontally. When standing the heart needs to provide enough pressure to force the blood down to the feet and up to the brain in a closed system. Also, the blood must be pumped down to the fingers and back. High blood pressure in the hands can cause swelling and puffiness as wen as tingling and blotchiness.
This invention focuses on the hands. If the hands are held at heart level mechanically, the blood pressure can be reduced in the whole system and in the hands in particular.
The invention is the introduction of a group of designs to achieve this beneficial hand function. By reducing the mechanical pressure on the circulatory system the other remedies can have a more rapid effect. Thus, a person with high blood pressure can do at least these things before engaging in a drug regime. If the pressure can be relieved, the body can begin the repair process necessary.
The fact that holding one's hand at heart level is difficult for long periods and requires muscle effort which may lead to cramping and fatigue. The optimum would be to hang the hands at that level.
Fig. 1 shows a basic design for a garment 1 having pockets 2 at sternum or heart level. The hands can be placed in these pockets 2 and allowed to rest there. This sort of garment 1 can range from a designer vest or jacket to an outer wear coat to a wind breaker. The purpose would
be to have the wearer's hands elevated when they are not engaged in work. Thus, when a person is standing around or riding a bus or talking to someone, the hands are elevated above the pants pocket, belt or jacket pocket level. When a person is walking, the hands could be elevated as well.
Fig. 1 further includes a support loop 3 which maybe incorporated in the pocket 2. This could be reinforced to support the weight of the arm which might prove too much for the pocket 2 lower seam.
Fig. 2 shows a combination of pockets 2 and outer loops 3. The loops 3 provide a greater range of motion when walking. Further, the loop 3 may be engaged by different combinations of fingers and thumbs. The possibilities of height adjustment are nearly endless. For example, the person may hook his thumbs in the loop or his index fingers or combination of index and middle fingers, etc.
Fig. 3 shows another variant. A strap 4 is anchored to a garment 1. The strap 4 can be laced through and around fingers as shown for adjustment of height and comfort.
Fig. 4 shows the pockets 2 as described above can be closed with zippers, Velcro™ ., buttons and other closing means are also anticipated.
Fig. 5 shows an adjustable loop 3. The loop 3 can be at a number of different positions to establish a comfortable height.
Fig. 6 shows the use of a pocket 2 and loops 3 in combination.
Figs. 7 and 8 show the swinging motion of the stirrups 3 and the combination of the loop 3 and finger interlace grip.
Figs 9 and 10 show a strap 10 with stirrups at the ends. The strap 10 can be sewn to the vest or slid through loops like a belt on the garment. This design moves the weight to the upper shoulders and back. This design also allows more reciprocal hand and arm movement when walking, as the strap 10 may slide back and forth. The strap 10 may include an elastic band to allow more movement. Fig. 10 shows a different closure on the vest.
Fig. 11 shows a fixed strap with an array of finger holes. The wearer can hook in any combination of fingers or thumbs. The array allows different hand height positions.
Fig. 12 shows a pair of thumb pockets 11. The thumb pockets 11 leave a hole in the outer seam for inserting a wearer's thumbs to hold the hands up. The pocket is a normal patch pocket otherwise.
Fig. 13 shows finger rings 12 that can be attached to cords or ribbons 13. The rings 12 can be metal, leather or fabric loops. The cords or ribbons 13 can be semi-elastic.
Fig. 14 is similar to Fig. 13 with larger loops 3 for inserting palms.
Fig. 15 shows rings like Fig. 13 but placed within the pocket 2.
Fig. 16 is similar to Fig. 1 but only providing small slash pockets11 for thumb holders.
Fig. 17 shows full sleeves 14. All of the above presentations may be for jackets or shirts as wen.
Fig. 18 shows open tubular pockets 15.
Fig. 19 shows a T -bar 16 attached to a neck yoke 17. The attachment may be elastic.
Fig. 20 shows an abbreviated shirt 18 for more cooling when walking or exercising.
Fig. 21 shows an adjustable leather strap 19 which can be used. Fig. 22 shows such a strap 19 in situ.
Fig. 23 shows stirrups 3 which can be worn out front or slid into a slot 20 and held from within a pocket 2.
Fig. 24 shows stirrups 3 which can be buttoned on which makes them removable and more free in movement.
Figs. 25 and 26. This invention also contemplates providing wrist support which may eliminate repetitive motion injuries by extending the support to a lower level, such as while working at a keyboard as shown. Fig. 26 shows a cross strap 21 for securing and stabilizing the strap.
Fig. 27 shows a cross strap 21 can be applied to the neck strap 10 configuration of Fig.10.
Fig. 28 shows a strap of resilient material so the wearer can exercise his grip muscles while elevating his hands.
Fig. 29 shows a wearer holding a weight while elevating the hands. This device has possible industrial applications for repetitive lifting or repetitive motions.
Obviously, numerous (additional) modifications and variations of the present invention are possible in light of the above teachings. It is, therefore, to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.