Dynamic neck tension relief pillow

This invention refers to a dynamic neck tension relief pillow consisting of a sleeping pillow.

5. The sleeping pillow is one of those commodities known to everyone without exception, which we can lay on top of the covers of any mattress on any bed for sleeping. Almost all of us use it when we lie down and rest our neck and head on it, either to relax or during our sleep for as long as we are sleeping. The sleeping pillow is simply a

10. classic, whether non-anatomic or anatomic or ergonomic, it can be constructed from natural or synthetic fibres or from feathers or from natural or synthetic foam, and in general it comes in all sizes, kinds and qualities.

15. Almost all of us, when we go to bed to relax or to sleep, use one of those sleeping pillows which are known to everyone. Our neck and head, from the moment they touch the sleeping pillow, begin to form the arc of a circle, descending lower and lower until the moment they reach their greatest arc and their descending movement onto the

20. sleeping pillow stops. Then the opposing force from the sleeping pillow has become equal and opposite to the weight of our head so that our head balances on the sleeping pillow and does not descend any lower. We observe for now that at the time we start to sleep or rest on our pillow certain forces have been created, the forces created by the

25. descending progress of our head because of its weight and because of the path it followed, that is, the arc of a circle, and the opposing forces which were developed by the sleeping pillow, that is, the reaction to

the weight of our neck and head and to the horizontal movement which our head and neck completed synchronously with the tracing of the arc of the circle. These forces are mainly at right angles to our neck as a reaction to the weight of our head, however there are also

5. component forces as a reaction of the sleeping pillow to the horizontal movement which is created from the downward movement of the arc of the circle of our head and neck, which, when calculated, give us a resultant force which is horizontal in relation to our neck. The size of this horizontal force which, according to the situation, changes

10. towards our neck, depends on the hardness of the pillow we are using, on the shape of the pillow, that is, if it is an anatomical or a simple non anatomical sleeping pillow, and on the difference between the height of the sleeping pillow and the size of the person using the sleeping pillow and his/her position in relation to the sleeping pillow. And so,

15. from the moment that our head and neck, when we lie down on our bed to relax or to sleep, comes in contact with the sleeping pillow, until the moment when it finishes its descent and balances on top of the sleeping pillow, it traces an arc of a circle with its centre at the point where the flexibility of our neck begins. We divide this arc of

20. the circle into two parts, the length of the route which is traced by our neck and head above the imaginary straight line of our spinal column and of the length of the route which is traced by our head and neck under the imaginary straight line of our spinal column. When the length of the upper route according to the above is greater than the

25. length of the lower route in relation to the imaginary line of our spinal cord, our pillow creates as a reaction a resultant force which is horizontal in relation to our spinal column and with a direction

towards our spinal column, lightly pressing on our spinal column throughout the duration of our sleep. The size of this horizontal pressure on our neck is analogous to the difference in length of the two upper routes which our head traces. If the route below the

5. imaginary straight line of our spinal column is greater than the route which was traced by our head and neck above the imaginary straight line of our spinal column, then we again have the creation of a small horizontal force towards our spinal column, however in this case we have an opposite direction, that is, this small horizontal force has an

10. opposite direction to the side of our spinal column, lightly pulling our neck for the whole duration of our sleep. When this happens it is good, but unfortunately it happens rarely. When this horizontal force to which I referred above has a direction towards our spinal column, in spite of the fact that our spine is constructed so that during the day

15. it receives many and great loads without being damaged, at night when we sleep it is more vulnerable, and especially for someone who has the beginnings of a hernia in one or more of the vertebra of the neck, or if because of deformation of the muscles the space between the vertebrae of the neck has been reduced and the vertebrae press on the

20. intermediary sliding material of cartilage or spinal marrow or some vessel for the transfer of liquids or blood or some nerve lightly at the beginning of deformation, then this horizontal compression stress does not permit the neck and the muscles of the neck to rest well, because they are deformed in our sleep.

25. Unfortunately when we sleep, most of the time this horizontal compression has an impetus against our spinal column because there is an attempt to choose a sleeping pillow so that during our sleep the

imaginary line of our neck will coincide with the imaginary line of our spinal column, with the result that the route of the arc of the circle traced by our neck and head is greater than the upper part of the imaginary line of our spinal column. At the point where the flexibility

5. of our neck starts, many times our neck is not in contact with the sleeping pillow when we are sleeping on our side, hi this case two things happen: a) Because the weight of our head and neck remains the same, it is distributed in this first case onto a smaller contact area with the

10. sleeping pillow, so we have a greater pressure per cm ² , and the best thing for our health is for the same weight of our head and neck to be distributed over the greatest possible contact area with the sleeping pillow in order to minimalize as much as possible the pressure per cm ² which we receive, in reaction from the sleeping pillow.

15. b) At the highest point, where our neck is not in contact with the sleeping pillow because of the weight of our head and neck we have per cm ² forces with energy perpendicular to our neck and with impetus towards the earth. I believe that these small perpendicular forces are capable of not allowing our muscles and our neck itself to

20. sleep satisfactorily and to rest as much as they need, because of the fact that the muscles of our neck and all the parts which make up our neck receive at this point, in this case, a slight bending which, with time, is enough to create deformation to the members which make up our neck.

25. We see that the classic, non-anatomic pillows which are familiar to all of us many times present the greatest problems and in spite of the fact that, along general lines, they are good, the people occupied

with the evolution and improvement of technology invented the anatomic and the ergonomic sleeping pillows.

The anatomic pillows familiar to us all reduce this force which is horizontal to our neck, the compression stress in relation to the

5. classic non-anatomic sleeping pillows familiar to us all comes into contact better with the whole length of our neck, greatly reducing the small forces vertical to our neck, which as I mention above had the tendency to compress our neck into bending. In this way we also reduce the pressure per unit of surface area because we increase the

10. surface where our neck and head are in contact with the sleeping pillow. Of course, the simple non-anatomic sleeping pillows which are stuffed with natural fibers, with wool, cotton or synthetics, for instance polyester, or the feathers of birds, are also soft, our head sinks into them and since they have a large contact area, we have a reduce

15. pressure towards the points of our neck and head per cm ² . When we sleep it is better for our body and neck to be compressed with the least possible load, which is moreover the reason why we sleep in a position parallel to the earth using a mattress and sleeping pillow which have been improved, and we are now also trying to improve the sleeping

20. pillow even more so that during the period when we are lying down or when we are asleep we can get the best rest possible, because I believe that rest is the source of life.

According to the present invention, the dynamic neck tension 25. relief pillow has the characteracteristic that it also includes a movement mechanism.

The dynamic neck tension relief pillow comes in two kinds:

In the first kind the sleeping pillow is constructed so that it is permanently incorporated with the movement mechanism.

In the second kind we simply place the sleeping pillow or even place it and hold it steady on top of the portable movement mechanism

5. and we remove it from there whenever we want to.

The dynamic neck tension relief sleeping pillow is portable and in order to use it we place it on top of the covers of whatever mattress on whatever bed, in the same position in which until today we have placed and used an ordinary sleeping pillow. The movement

10. mechanism collects energy in a natural way from the load of the weight of our neck and head, and every time it is released from the load of the weight of our neck and head, and for whatever height it is released, it returns the collected energy in a natural way by raising one of the 4 sides of the sleeping pillow to the same height as the height

15. which it was released from the weight of our head and neck, and specifically, it raises that side which is closer to the point where the mattress ends, tracing an ascending arc of a circle from a 0 degree angle minimum up to a 45 degrees acute angle maximum, and thus it remains waiting in this position while it forms an inclined plane above

20. the covers, and in this position the sleeping pillow is ventilated over the whole area of its lower surface.

Every time we lie down on the bed to rest or to sleep and lay our neck and head on the neck tension relief pillow with dynamic movement, it starts from the default angle which we have set earlier

25. and traces the length of a descending arc of a circle, while simultaneously it also covers the length of a horizontal movement towards the imaginary line of our spinal column and in a direction

opposite to the side of our spinal column until the degrees of the angle of the inclined plane go to zero and the dynamic neck tension relief pillow becomes level or almost level above the mattress. The greater the length of the descending arc of a circle, the greater the length of

5. the horizontal movement which the pillow covers, and the smaller the length of the descending arc of the circle, the smaller is the length of the horizontal movement which it covers towards the imaginary line of our spinal column.

Every time the neck tension relief pillow receives the load of

10. weight from our head and neck when we lie down on the bed and turn and rest our head and neck on it, and for as much length as it traces a descending arc of a circle until the default angle of inclination becomes 0 degrees, the sleeping pillow finishes its descent on the mattress, and our head and neck finish their descent and rest on the

15. sleeping pillow, with an easy earlier adjustment of the default angle, each time it traces as great a descending arc of a circle as the horizontal length it covers, it copies in a natural way and is exactly the same as the horizontal length which our head and neck cover every time they go up or down on it. With this adjustment of the angle of

20. inclination in the default position, it neutralizes all the horizontal forces which compress our neck and relieves the neck. Usually with this adjustment of the default position, we use it for the whole duration of our sleep.

Or when it is necessary, we pre-set a little greater incline in the

25. dynamic neck tension relief pillow when it is in the default position so that when we use it, it covers a littler greater horizontal length than the horizontal length which our head and neck cover and in the same

direction. The additional horizontal length we adjust at whatever distance we want so that in practice we feel as good as possible if we have a problem with incipient hernias to our neck, and we use it throughout the duration of our sleep. The sleeping pillow, because it is

5. softer than our neck, changes its shape temporarily and collects the additional horizontal length from the horizontal length given by our neck and head, and since it functions like a spring, it converts this into a force of reaction. It returns this force of reaction to our neck and head throughout the time when we are resting or sleeping on it and

10. with the passage of time, we relieve our neck of the compression stress. When we feel better we bring back the earlier setting and we use it so that when we sleep our neck is not compressed by any horizontal force.

The dynamic neck tension relief pillow is constructed in two

15. types.

The second type is a spring all by itself, it collects energy in a natural way when it receives the load of our head and neck on top of it, every time for the whole length of the descending arc of a circle until the inclination of the angle of the inclined plane which it forms from

20. the degrees which we have set in the default position becomes 0 degrees and it returns this functioning by itself in a natural way as a spring for as much height as it is released from our head and neck every time and for as many times as we raise and lower our neck and head during sleep from the angle of 0 degrees of inclination to the

25. greatest and 45 degrees angle of inclination, however it stops following the ascending length of the arc of a circle of our neck and head at the degree of angle of the default setting where we had set and

started the descending arc of a circle.

While the first type additionally also consists of one of the raising devices in order to collect and to return the tracing of the arc of a circle and additionally consists of one or two hinges which unite the

5. two levels which make it up, because these are separate. These two hinges are the center for the arc of a circle which the dynamic neck tension relief pillow traces. When the first type includes the first raising component the sleeping pillow is suspended with elastic rubber in the default position from the minimum of 0 degrees to the

10. maximum of 45 degrees angle of inclination of the inclined surface, it also includes the setting mechanism for the angle of inclination, when it includes the second raising component it consists of the fixed support which is connected at the lower level, of the movable support, and of the elastic rubber. The movable support is based in the

15. perforated stable support where it is suspended from the elastic rubber on the lower side while on the upper side it is connected to one side of the upper level. The rubber raises the movable support and the movable support raises the upper level and the sleeping pillow to the default position from 0 degrees to 45 degrees maximum every time

20. above the covers on any mattress of any bed. The device for setting the default angle is of course also included.

However we have many choices among many raising devices:

We can place it on the imaginary axis which unites the

25. hingesand is the center of the levels and use spiral springs of any shape and form, in order to collect energy and to return it by raising the neck tension relief sleeping pillow to the default position above the

mattress from an angle of 0 degrees to a maximum inclination of 45 degrees.

We have the possibility of using pulling springs so that with an eccentric connection on the two levels of the first type of movement 5. mechanism, the sleeping pillow will be drawn and will tend to rise to the default position with the centre of the arc of the circle always on the hinges.

We have the possibility of placing a conical helical compression spring between the two levels of the first type of movement 10. mechanism, so that with the hinges as the centre of the arc of a circle, one side of the pillow will rise to the default position above the mattress, always between a 0 degree default angle minimum and 45 degrees maximum.

Of course we have the possibility with the first type of 15. movement mechanism to use other additional raising components so that the sleeping pillow will be raised to the default position, like for instance counterpoises and other things.

Additionally the dynamic neck tension relief pillow consists of 20. a pillow which is a collar and we hold our head and neck on it in such a way that they cannot slide on the surface which comes in contact with the pillow, and we have the use of the greatest force in the attempt at horizontal repulsion of our neck and head with a direction opposite to the side of our spinal column, for pulling the neck while 25. we are lying down, and only after a doctor's demonstration, if the doctor allows and for as much time as is indicated. In addition the movement mechanism consists of an additional

supporting component, we can optionally place this component whenever we want between two levels of the movement mechanism. It stabilizes and does not allow the raised side of the dynamic neck tension relief pillow to move and to complete a descending arc of a

5. circle, it strengthens the movement mechanism and makes it more resistant to the load of weight and allows us to watch television or to converse or to read more easily while we are lying on it, since when we lie down on it the upper side of the sleeping pillow remains raised. The advantages of this invention are that the dynamic neck

10. tension relief pillow is a sleeping pillow of our choice, any one of the sleeping pillows which are familiar to us all, which circulate on the market, which every one of us has selected and uses today in his/her sleep. If we use this sleeping pillow of our choice in conjunction with the movement mechanism, we develop it, it becomes mobile and gives

15. us the advantage of eliminating all the defects which it had until now because of being fixed on top of the mattress. We keep all its advantages and add new advantages, because in a natural way the invention gives movement to all the familiar sleeping pillows which circulate and will circulate on the market, a movement equal to the arc

20. of the circle and horizontal movement traced by our head and neck during the time in which we are lying down and sleeping on the dynamic neck tension relief pillow. It relieves our neck from horizontal forces which create compression stress in our neck and since the invention relieves our neck and throat of the energy of

25. horizontal force in the direction of our spinal column, therefore it relieves our neck and throat of one of the reasons, because this horizontal force which presses on the muscles and the vertebrae of our

neck in a direction towards our spinal column, or compression stress, is sometimes although not always a cause which creates or continues health problems to our neck and throat, since many times deformation is created to various members making up our neck and throat, with the

5. passage of time, because it functions by adding.

For the second kind, the second type has the advantage that it converts the non-anatomic simple classical sleeping pillow to an anatomical pillow, and in general the second kind and all the types of the invention have this advantage, that they convert non-anatomic

10. sleeping pillows to anatomic sleeping pillows. This is an advantage because we increase the surface area of our neck which comes in contact with the surface of the sleeping pillow. Thus we reduce the pressure which is vertical to our neck during the time we rest or sleep per cm and at the same time we relieve the points of the neck which

15. do not come into contact with the surface of the pillow of small but existing forces of bending which they received on that specific point.

The dynamic neck tension relief pillow has the advantage that it becomes softer, it absorbs the sudden vibrations, the movements of our head and neck on top of it become calmer because it functions as a

20. suspension and gives our neck and head the advantage of not receiving sudden compressions but softer ones, balancing on it in a position where it receives the least compression.

With the first type of the second kind we have the advantage of using all of the sleeping pillows which are familiar to everyone in all

25. types and all qualities which exist on the market, in all the heights.

We also have the advantage that when want to use a simple classical non-anatomic sleeping pillow of natural or synthetic fibers or

of feathers, we can attach the appropriate additional component to the bottom part of the upper level of the movement mechanism, and this converts the simple non-anatomic classical sleeping pillows to anatomic pillows.

5. When we see the dynamic neck tension relief pillow on the mattress in the default position and it is set to allow us to lie down on it, usually it forms an inclined plane. In this higher default position I believe that the dynamic neck tension relief pillow has the advantage that is more tasteful to the lady of the house.

10. In addition in this higher default position the invention gives the sleeping pillow the advantage of being aerated from the bottom side as well, something which I believe is also desirable to the lady of the house because the sleeping pillow becomes healthier for the person. This invention has the possibility of working together with all the

15. sleeping pillows which are familiar to everyone which circulate on the market in all qualities, all types and all dimensions, and it does not alter its height.

The movement mechanism converts the sleeping pillows to dynamic neck tension relief pillows in a natural way. The driving force

20. is the load of weight from our neck and head.

The great advantage of this invention is that in practice these movements of the dynamic neck tension relief pillow are the same as the horizontal movements which our neck and head make, when we turn our neck and head and rest or sleep on top of it. We have the possibility, with

25. the setting mechanism, to set it so that it gives exactly the same length of horizontal movement as our neck and head give and since it also has the same direction, with this setting we have the possibility of neutralizing the

difference in length of movements. In this way we achieve the same length of horizontal movement of the sleeping pillow as the horizontal length given by our head and neck, so we neutralize the horizontal force which until today has acted on and compressed our head and neck into stress

5. during the time we were resting or sleeping on a plain sleeping pillow without a movement mechanism. In many cases the horizontal force which acts on our neck with a direction toward our spinal column, with the passage of time and if our neck is prone to be sensitive, succeeds in overcoming the muscles' defences and if we do not use a dynamic neck

10. tension relief pillow one or more than one vertebra give way under the pressure of compression stress, and then a temporary deformation to the various members which make up our head and neck begins, and although our organism is healthy, the quality of our lives and of those around us becomes ugly, like for instance, snoring, or when the root of

15. a nerve is lightly pressured for the first time because the vertebrae have given way and because of the results of this giving way, the root of a nerve which gives orders for the functioning of the right hand, then we have unbearable pain.

In these cases if we use the dynamic neck tension relief pillow

20. as a tool in the service of our organism, with the appropriate setting we increase the horizontal movement which the dynamic neck tension relief pillow creates in order to make it greater than the horizontal movement given by our neck and head, the length of this additional horizontal movement is converted at the time we lie down on top of

25. the invention to a force which has an opposite direction to the side of our spinal column.

This new force is distributed equally to every vertebra, kept

small, is safe, and attempts to push back the vertebrae by exactly the same amount for each one, in a direction opposite to the side of our spinal column. Thus if we use the dynamic neck tension relief pillow during all the time we lie down to rest or to sleep, with the passage of

5. time the vertebrae stop subsidence, our organism receives an advantage, and we can feel the attempt to restore the circulation of functions in the members of the throat and neck and of our vertebrae to their natural form, position and functioning.

Putting the dynamic neck tension relief pillow to use as a tool in

10. the service of our organism gives us an advantage for our organism but also to the doctor or physical therapist in their attempt to heal us if the various members which make up the throat and the neck have undergone temporary deformation and not permanent, irreversible deformation.

15. When we feel in practice that we have gotten better in our neck but also in our back, we reset it using the setting mechanism and return to the setting at which when we lie down on top of the invention, our neck does not receive any horizontal compression at all, whether stress or pulling.

20. We have the possibility to choose the appropriate setting in practice for every case in order to improve as much as possible the health of our neck and throat and we feel this improvement in practice.

The horizontal force which the dynamic neck tension relief pillow creates when we have set it and it relieves our neck is lessened

25. a great deal because the sleeping pillow, since it changes shape more easily than our neck, absorbs the movement and undergoes temporary deformation. Since however it wants to return to its natural shape it

now acts like a spring and transfers to our head and neck a small force of attraction or repulsion which for the time space when we are relieving the neck has the advantage that it is safe.

In addition the length of this horizontal movement which the

5. dynamic neck tension relief pillow creates is small, we set it to whatever value we want. It is never transferred by itself, it maintains itself and is always distributed evenly per unit of length to the whole length of our neck and of course if we finish the process of relieving the neck from compression stress, then we set the angle of the sleeping

10. pillow, approximately from 0 degrees to 25 degrees in order to neutralize all the horizontal forces which compress our neck, whether they are compression or pulling and once we understand in practice how to relieve our neck of all the horizontal forces then at this setting we can use the dynamic neck tension relief pillow for an indefinite

15. time with complete safety, in order to maintain the improved health of our neck and throat and by extension the quality of our lives.

Figure 1 shows a movement mechanism in a perspective which brings back the movement with the attraction rubber (4) as a 20. means of raising and when we use an additional component of raising, for brevity we call this the first type, on which we can place any kind of sleeping pillow of our choice, whenever we want, and for brevity we call this the second kind.

Figure Ia and Ib show two side views of the movement 25. mechanism. Figure Ic shows another side view which hypothetically symbolizes our spinal column, our neck and head by approach.

Figures 1 d and 1 e show two other side views of the first type of movement mechanism with a sleeping pillow (8) permanently by its construction incorporated on top of it, and for brevity we call it the first kind, or also portable mechanism with another kind loaded onto 5. it.

Figure 2 shows a movement mechanism in perspective which returns the movement by itself without additional means of raising and for this reason for brevity we call it the second type. We can place any sleeping pillow (8) we want on top of it, whenever we want, 10. second kind.

Figures 2a and 2b show two side views of the movement mechanism.

Figures 3 shows a movement mechanism of the second type in perspective, which is from its construction incorporated with any sleeping pillow 15. (8) of the first kind or carries any sleeping pillow whenever we want it to carry a sleeping pillow (8), and place and hold it on top of the second kind

Figures 3a is a side view of the dynamic neck tension relief pillow.

Figures 4 shows a movement mechanism in perspective, which 20. brings back the movement with the attracting rubber (4) which is held on the edge of the pierced stable support (6) and raises the dynamic neck tension relief pillow by raising the movable support (9) which is based inside the stable support (6) and is another different additional raising component and therefore we call this movement 25. mechanism the first type for brevity, which is incorporated from its construction permanently with any sleeping pillow (8) of the first kind, which circulate or will still circulate, or we place any sleeping

pillow (8) on top of it whenever we want to, we usually want what we like, the second kind.

Figure 4a shows a side view of the dynamic neck tension relief pillow. Figure 4b shows another side view of the dynamic 5. neck tension relief pillow.

One way of using the invention is described with reference to the figures.

The dynamic neck tension relief pillow consists of a sleeping 10. pillow (8) and a movement mechanism.

The sleeping pillow (8) is any one of the sleeping pillows, without exception, which exist and it does not need any more description because it is well known.

The other part of which the invention consists is the movement 15. mechanism of the sleeping pillow (8). It raises the side (M) of the sleeping pillow (8), tracing an ascending arc of a circle, while simultaneously it gives a length of horizontal movement, and it is constructed in two types. In the figures I refer to the two types.

The movement mechanism consists ofabase(l). On the bottom part of 20. the base in the first type there is a hinge (J). The hinge is connected to the upper level (2) and allows it to move in a half rotation tracing an arc of a circle increasing the angle (n) up to 45 degrees and decreasing the angle (n) down to 0 degrees.

In the first type nothing obstructs the invention from finding an application and with various raising components because we have many choices, to raise the 25. upper side to the default position (M) of the dynamic neck tension relief pillow in order to form the angle (n) towards the mattress and from 0 degrees to and including 45 degrees.

In figure 1 we see that the upper plane (2) is connected to the upper side with the rubber (4), the rubber of attraction (4) hangs from the support (6) interposing the setting mechanising), through the setting mechanism (3), we stretch or release the rubber (4) and in this way we increase or decrease the angle (n) of the

5. movement mechanism to the degrees desired by us when it is in default position, with the acute angle (n) we have the possibility of setting it through the setting mechanism (3) from 45 degrees maximum to 0 degrees minimum when the movement mechanism is in default position.

The descent of plane (2) is achieved of course with the load

10. from the weight of our head and neck.

In figure Ia we see that the two planes (1) (2) are set to form between them the default position acute angle (n) 20 degrees. In figure Ib the levels (1) and (2) are set to be parallel in the default position and the angle (n) is 0 degrees.

15. In addition in figure Ib we see that the setting mechanism (3) is suspended on the side of the support (6). The support (6) is pierced and we have the possibility for the rubber (4) to be placed inside it and the setting mechanism to be located where the rubber comes out. For the first type in figure 4 we see another raising

20. component which raises the level (2) or the sleeping pillow (8).

This raising component consists of the stable support (6). Inside the stable support (6) is based the mobile support (9), the mobile support (9) is constructed preferably from teflon material or ertalon or any other appropriate material which bends easily.

25. Inside the stable support (6) is the rubber of attraction (4), the rubber (4) is held on the edge of the stable support (6), is based on the bottom part of the mobile support (9) and raises the sleeping pillow (8)

by means of the moving support (9) (of course, instead of rubber we can also use a helical spring or counterweights), at the point where the rubber (4) comes out of the stable base (6) we suspend the setting mechanism (3), with the setting mechanism (3) we stretch the rubber

5. (4), the level is raised more (2) and we increase the acute angle (n) of the sleeping pillow in relation to the mattress.

The maximum we can increase the angle (n) with the setting mechanism (3) in the default position 45 degrees and the minimum we can decrease the angle (n) with the setting mechanism (3) in the

10. default position of the movement mechanism is 0 degrees.

This reintroduction component does not show when the dynamic neck tension relief pillow is on top of the bed in the default position because the stable support (6) is under the bed, between the mattress and the bed.

15. In the perspective of figure 1 we see the component (5) which holds the sleeping pillow (8) on top of the second kind of the first and of the second type of movement mechanism. The holding component (5) is elastic and with preferably two plastic or elastic hooks on the edges or clips.

20. The second type for the first and second kind in figure 2 and figure 3 functions as a unified spring (1) and (2) level of reintroduction of the movement which raises the side (M) of the sleeping pillow (8), increasing the acute angle (n) to 45 degrees maximum, consists of the cord (11) which connects the levels (1) and

25. (2), it is held on one level and based on the other level. At the point where the cord is based, we suspend the setting mechanism (3) and with the help of the setting mechanism (3) we increase the length of the

cord (11) on the second type and in this way we can increase the angle (n) of the neck relief sleeping pillow to degrees the minimum at the default position, usually however we set it and use it at 0 degrees to 25 degrees. It consists of the protective stopper (10), is portable and we 5. place it or we remove it whenever we want to on the first and second types, it is placed between the bed and the mattress and it does not show. In this way we stabilize the dynamic neck relief pillow on top of the bed.

Figure 3 shows the setting mechanism (3) in a different 10. position than figure 2. We have this possibility when our work becomes better.

The scale at which I have figured the movement mechanism of the dynamic neck relief pillow is 1 to five on all the figures.

Figure 2 shows two side views, figure 2a and figure 2b. 15. The acute angle (n) on figure 2a is set to the maximum, 45 degrees.

In the default position when we lie down or rest or sleep, we turn our neck together with our head on top of the sleeping pillow (8).

Level (2) of the movement mechanism from the weight which our head and neck have because of gravity, moves towards the earth

20. tracing an arc of a circle with a downward direction until the angle (n) is decreased to 0 degrees and the (2) level comes into parallel position with level (1) as in figure 2b, in this position of the figure 2b forces are created which are equal and opposite to the weight of our neck and head, and our head and neck stop their downward movement

25. and balance on top of the invention.

Since we have divided level (2) into equal distances from the beginning of the lower side (A) to (B), from (B) to (C), from (C) to

(D), from (D) to (E), from (E) to (Z) and we end up at the end of the upper side of level (2) which is (H) on figure 2a, we see in practice that when level 2 was moved downward by the weight of our head and neck, it traced an arc of a circle and took the form of figure 2b, we

5. see however that simultaneously with the arc of the circle it also made one more horizontal movement towards level (1) which remains stable in a direction opposite to the side of our spinal column.

This horizontal movement has a length at the beginning of level (2) in position (A) which is also the centre of the arc of a circle of zero

10. millimeters, at the ending of the upper side of level to at point (n) it gives a length equal to 75 millimeters. In addition we see that the length of this horizontal movement through the movement mechanism of the first and second types, is distributed over the whole length of the level in exactly equal distances by length of division of the surface,

15. that is which we divided: point (B) from the 45 degree angle where it was in the default position to the 0 degrees to which it descended gave a length of horizontal movement of approximately 15 millimeters, point (C) from 45 degrees to 0 degrees gave a length of horizontal movement of 15 millimeters of (B) plus 15 millimeters of its own,

20. point (D) from the 45 degrees to the 0 degrees of the arc of the circle which it traced gave a length of horizontal movement of 15 millimeters of (B) plus (15 millimeters) of (C) plus 15 millimeters of its own, point (E) from the 45 degrees until 0 degree angle (n) descent gave a horizontal movement of 15 millimeters of (B) plus 15

25. millimeters of (C) plus 15 millimeters of (D) plus 15 millimeters of its own, point (Z) until it descended from the 45 degree acute angle (n) of figure 2a to the 0 degree angle (n) of figure 2b gave a horizontal

movement of 15 millimeters of (B) plus 15 millimeters of (C) plus 15 millimeters of (D) plus 15 millimeters of (E) and plus 15 millimeters of horizontal movement of its own, gives us in total approximately 75 millimeters of route of horizontal movement.

5. Of course it is not necessary for the descent to start from the default position (n) of 45 degrees, we can start the descent of level (2) from a default angle (n) which is much smaller than 45 degrees like in the figures Ia, Ib, Ic, Id and Ie. However, this acute default angle (n) will be set by us to the degrees which please us or to the degrees

10. which the doctor or physical therapist indicates to us each time we use the dynamic neck tension relief pillow. I believe that the angle (n) which is most pleasing is around from 0 degrees to about 25 degrees.

In this way since we see in figures 2a and 2b that the horizontal movement of the movement mechanism is distributed in the

15. same way to the whole length of the surface which comes into contact with our head and neck per unit of length. That means that the horizontal movement that is created and transferred to us per unit of surface area is distributed with complete safety and we are not in danger, at some more vulnerable spot along the length of our neck,

20. that there may be an attempt at greater lengthening, either more durable or weaker, all the points of our neck receive exactly the same length of reintroduced horizontal movement, in the natural position along all the length where our neck and head are in contact with the sleeping pillow (8).

25. In addition if the horizontal force which is created by the dynamic neck tension relief pillow is greater than the factor of friction of slipping with our head and neck, then we have slipping and so again

we are completely safe with the use of the dynamic neck tension relief pillow.

Figure 4, beyond the perspective, also shows two side views. Figure 4a and figure 4b. Figure 4a shows the sleeping pillow

5. (8) in default position with acute angle (n) approximately 45 degrees, figure 4b shows the sleeping pillow (8) with angle (n) approximately 0 degrees.

If with the load of the weight of our head and neck or with the setting mechanism (3) we force the dynamic neck tension relief pillow

10. to descend down and to trace the length of the arc of a circle from the default angle (n) of 45 degrees shown by figure 4a to the 0 degrees shown by figure 4b, then the sleeping pillow on its upper side and we take the height (I), the height (K), the height (L), we also have the edge of the sleeping pillow (U) and the edge (M). When the sleeping

15. pillow (8), from the default angle (n) of 45 degrees which is shown by figure 4a, scends and becomes horizontal in relation to level (1) or in relation to the mattress, then figure 4b and the angle (n) becomes 0 degrees at point (K) where the height is approximately 50 millimeters, on the upper level it will move (K ₁ ) approximately 35

20. millimeters of horizontal movement because of its height, to point (L) where the height of the sleeping pillow (8) is approximately 65 millimeters, it will be moved on its upper surface (Li) approximately 45 millimeters horizontally at point (I), the sleeping pillow will be moved horizontally on its upper surface when it becomes horizontal

25. and comes into a position like that of figure 4b parallel with level (1) because of its height, which is approximately 85 millimeters, it will give a horizontal movement (I ₁ ) of approximately 60 millimeters.

In figure Ic we compare, completely hypothetically, part of our spinal column with our head and neck.

We take hypothetically the lengths of 7 vertebrae which are equal to each other (Q, T, Y, F, X, W, V), we have hypothetically

5. raised out head to an angle (n) 22,5 degrees in relation to our spinal column, if now we lower our neck and head to an angle (n) of 0 degrees then our head and neck come into an exact horizontal line with the imaginary line of our spinal column, measuring now the distances (Y, F, X, W, and V), we see exactly how much is the

10. horizontal length which corresponds to each separate vertebra when it traces the arc of a circle in relation to the imaginary line of our spinal column, we have at point (Y) horizontal displacement equal to 2,5 millimeters. At point (F) horizontal displacement equal to 5 millimeters. At point (F) horizontal displacement is equal to 5

15. millimeters. At point (X) horizontal displacement is equal to 7,5 millimeters. At point (W) horizontal displacement is equal to 10 millimeters. At point (V) horizontal displacement is equal to 12,5 millimeters. We see also that the length of the horizontal movement is distributed equally in 2,5 millimeters to every equal length between

20. the hypothetical vertebrae of the neck along all the length of our hypothetical neck and hypothetical head, which come into contact with the upper surface of the sleeping pillow (8).

And since the horizontal movement of the movement mechanism in relation to level (1) is distributed in exactly the same

25. way per unit of surface area to the whole length of the sleeping pillow (8) as we see in figures 2a and 2b, we do not run the slightest risk of compressing any point of our neck in any case because we have

exactly the same way of creating horizontal movement with this to our head and neck.

On the contrary, we can very easily, by means of the setting mechanism (3), set and stabilize the default angle (n) at such an angle

5. that we can use the horizontal movement of the movement mechanism to relieve, with complete safety, all the vertebrae of the neck up to a point in our spinal column of the smallest horizontal compression during our sleep, as we see in figure Ic, Id and Ie. It is supposed that the they represent and cover all of our necks without exception

10. and of the movement mechanism of the second and third kinds in whatever way and if they raise one side (M) of the sleeping pillow (8), it is enough for the movement mechanism to restore any sleeping pillow to the default position above the mattress in a natural way, in order to convert it to a dynamic neck tension relief pillow with safety

15. for our health.

Figure 3 shows in perspective a movement mechanism of the first and second kinds of the second type, the perspective shows how the movement mechanism carries a sleeping pillow (8) on level (2), one of the sleeping pillows known to us all, simple, classical, non

20. anatomic, in the default position with angle (n) 45 degrees.

Figure 3a shows at point (8a) the form which the sleeping pillow (8) takes when we relax or sleep on it at an angle (n) of 0 degrees, at point (8a) the soft non-anatomic sleeping pillow has become anatomic because it has followed the form (IA) of the above

25. level (2) of the movement mechanism.

Figure 3a shows the gap (Ia) between the two levels (1 and 2) of the movement mechanism of the second type which is created at the

time we have turned our neck and head on the sleeping pillow (8) and we lie and rest or sleep. This gap allows the sleeping pillow (8) to be aerated from the lower side as well at point (8 a) where our neck and head come into contact with the sleeping pillow (8).

5. In this way, when we are sleeping or resting on the dynamic neck tension relief pillow, it becomes more healthy because if our neck happens to sweat the sleeping pillow is kept drier and healthier because it is aerated.

In the first type of movement mechanism in the figures which

10. are presented here only two different means of raising have been used. However, the use of three or more different components is not prevented, and indeed, components of other different designs and dimensions which raise the side (M) of the sleeping pillow (8) in different ways and simultaneously give a length of horizontal

15. movement.

Nothing prevents the dynamic neck tension relief pillow from having different shapes, different dimensions, and being constructed from different materials which are healthy and good for human beings.