KR102540821B1 - Core-shell structrual pillow applied with cranio-sacral therapy - Google Patents

Abstract

The present invention relates to a core-shell structural pillow applied with a cranio-sacral therapy. The pillow according to an embodiment of the present invention comprises: a cervical support core which supports the cervical vertebrae; a plurality of fourth ventricular compression cores which are connected to the rear of the cervical support core and formed to be long in the front and rear directions to stimulate the surrounding of the external occipital protuberance of a user; and a lateral support core of which the lateral front is connected to the cervical support core, and the lateral rear faces side surfaces of the fourth ventricular compression cores. Moreover, a contraction space, which is an empty space, is formed between the fourth ventricular compression cores and the lateral support core.

Description

Core-shell structural pillow applied with cranio-sacral therapy}

The present invention relates to a pillow with a core-shell structure to which cranial sacrum therapy is applied, and more particularly, to a pillow that increases the effect of inducing cerebrospinal fluid circulation and at the same time can obtain the same effect even when sleeping in a different posture.

The human body has a 'flexion cycle in which cerebrospinal fluid is produced and the skull expands' and an 'extension cycle in which cerebrospinal fluid production stops and contracts'. It is called two sacral therapy to normalize the flow of cerebrospinal fluid that circulates between the skull and the sacrum. Recently, pillows that show the effect of two sacral therapy during sleep have been released.

However, since a pillow that is too focused on functions concentrates pressure on a part of the back of the head, it may give a sense of heterogeneity and discomfort rather than inducing a comfortable sleep, which is the original function of the pillow. In order to solve this problem, there is an attempt to increase comfort by using a material with good elasticity, but in this case, there is a problem in that functionality is lost.

Therefore, along with the function of two sacral therapy, a pillow that can provide comfort, which is the original function of the pillow, is needed.

The problem to be solved by the present invention is as follows.

First, to provide a pillow capable of increasing the effect of inducing circulation of cerebrospinal fluid.

Second, to provide a pillow capable of inducing circulation of cerebrospinal fluid even when the posture or position is changed.

Third, to provide a pillow that does not reduce the effect of inducing circulation of cerebrospinal fluid even when a material having good elasticity is used.

The tasks of the present invention are not limited to the tasks mentioned above, and other tasks not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a pillow according to an embodiment of the present invention includes a cervical support core for supporting the cervical vertebrae; a plurality of fourth ventricular compression cores that are connected to the rear of the cervical spine support core and are formed long in an anterior-posterior direction to stimulate the periphery of the user's external laryngeal convexity; and a lateral front portion connected to the cervical spine support core, a lateral rear portion including a side support core facing a side surface of the fourth ventricle compression core, and an empty space between the fourth ventricle compression core and the side support core. space is formed.

In addition, the pillow according to an embodiment of the present invention, the cervical support core for supporting the cervical spine; a plurality of fourth ventricular compression cores that are connected to the rear of the cervical spine support core and are formed long in an anterior-posterior direction to stimulate the periphery of the user's external laryngeal convexity; and a side support core connected to the cervical spine support core and disposed on a side surface of the fourth ventricle compression core, wherein an expansion space, which is a U-shaped empty space, is formed in the center of the fourth ventricle compression core, wherein the extension space is formed. The left and right sides of the space are in contact with the fourth ventricle compression core, and the front side is in contact with the cervical spine support core.

In addition, a pillow according to another embodiment of the present invention is a core-shell structure pillow, wherein the core includes: a cervical spine support core for supporting the cervical spine; a plurality of fourth ventricular compression cores that are connected to the rear of the cervical spine support core and are formed long in an anterior-posterior direction to stimulate the periphery of the user's external laryngeal convexity; and a lateral front portion connected to the cervical spine support core, a lateral rear portion including a side support core facing a side surface of the fourth ventricle compression core, and an empty space between the fourth ventricle compression core and the side support core. A space is formed, and the shell is formed inclined to support the cervical vertebrae, and the cervical vertebrae support part disposed above the cervical vertebrae support core; a plurality of side support units disposed above the side support core and supporting the side head of the user when the user lies on the side; and a laryngeal accommodating portion formed with a fourth ventricle compression protrusion formed between the back of the cervical spine support and the plurality of side support portions to accommodate and support the occipital region and to stimulate the periphery of the external laryngeal condyle of the user, wherein the fourth ventricle compression protrusion is disposed above the fourth ventricle compression core, and the laryngeal accommodating part has a constriction hole formed around the fourth ventricle compression protrusion. Details of other embodiments are included in the detailed description and drawings.

First, it is possible to provide a pillow capable of increasing the effect of inducing circulation of cerebrospinal fluid.

Second, it is possible to provide a pillow capable of obtaining an effect of inducing circulation of cerebrospinal fluid even when the posture or position is changed.

Third, it is possible to provide a pillow in which the effect of inducing circulation of cerebrospinal fluid is not reduced even when a material having good elasticity is used.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a simplified representation of the circulation of cerebrospinal fluid.
Figure 2 (a) represents the flow of cerebrospinal fluid and the movement of the skull and lumbar spine during the flexion cycle, and Figure 2 (b) represents the flow of cerebrospinal fluid and the movement of the skull and lumbar spine during the extension cycle.
Figure 3 (a) shows relaxation of the occipital region and flow of cerebrospinal fluid during the flexion cycle, and Fig. 3 (b) shows contraction of the occipital region and flow of cerebrospinal fluid during the extension cycle.
Figure 4 (a) represents the operation method of the fourth ventricle compression method (CV4), and Figure 4 (b) represents the operation method of the fourth ventricle expansion method (EV4).
5 is a plan view of a pillow according to an embodiment of the present invention.
Figure 6 is a perspective view of a pillow according to an embodiment of the present invention.
7 is a front view of a pillow according to an embodiment of the present invention.
8 is a rear view of a pillow according to an embodiment of the present invention.
9 is a perspective view of a core according to an embodiment of the present invention.
10 is a plan view of a core according to an embodiment of the present invention.
11 is a front view of a core according to an embodiment of the present invention.
12 is a rear view of a core according to an embodiment of the present invention.
13 is a perspective view of a pillow having a core-shell structure according to an embodiment of the present invention, in which the shell is transparently expressed.
14 is a plan view of a pillow having a core-shell structure according to an embodiment of the present invention, in which the shell is transparently expressed.
15 is a front view of a pillow having a core-shell structure according to an embodiment of the present invention, in which the shell is transparently expressed.
16 is a cross-sectional view at 16-16 of FIG. 13, in which the shell is transparently expressed.

Advantages and features of the present invention, and methods for achieving them, will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the present embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs It is provided to fully inform the holder of the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numbers designate like elements throughout the specification.

Hereinafter, the present invention will be described with reference to the drawings.

1 is a simplified representation of the circulation of cerebrospinal fluid. Figure 2 (a) represents the flow of cerebrospinal fluid and the movement of the skull and lumbar spine during the flexion cycle, and Figure 2 (b) represents the flow of cerebrospinal fluid and the movement of the skull and lumbar spine during the extension cycle. Figure 3 (a) shows relaxation of the occipital region and flow of cerebrospinal fluid during the flexion cycle, and Fig. 3 (b) shows contraction of the occipital region and flow of cerebrospinal fluid during the extension cycle. Figure 4 (a) represents the operation method of the fourth ventricle compression method (CV4), and Figure 4 (b) represents the operation method of the fourth ventricle expansion method (EV4).

Referring to Figures 1 to 4, the parietal bone 51 (parietal bone) is a square flat bone covering the back of the brain containing the brain. There are two parietal bones 51, and each protrudes outward. The two parietal bones 51 are connected by a sagittal suture 56. The parietal bone 51 is connected to the occipital bone 53 by a factor suture 55. The temporal bone 52 is located in the temporal region. The skull 45 is a flexible tissue that contracts during a flexion cycle and expands during an extension cycle. With the above structure, the skull 45 can repeat contraction and relaxation. Craniosacral rhythm contains information about stress or immunity. The two sacral movements of healthy people are very stable with 8-12 cycles of flexion and extension.

Flexion (expansion) corresponds to expansion or expansion. The craniosacral rhythm can be detected manually. The feeling of flexion transmitted to the hand can be understood as 'feeling of swelling' or 'feeling of widening as the whole body rotates outward', and is also called 'external rotation'.

Extension (compression) is the opposite concept or feeling of flexion. Extension can be understood as contraction. The temple can be understood as 'the feeling of being sucked in deeply'. Extension is sometimes described as a feeling of narrowing as the entire body rotates inward. The temple is also called 'inner rotation'.

The cycle of movement of the two sacrum 'bending' and 'extension' or 'expansion' and 'contraction' is made up of two processes. Between flexion and extension can be called the 'neutral point'. The human body is placed in a state of 'relaxation' in which tension is released along with the feeling of being stopped at the neutral point. The cycle of flexion and extension is constant and preferably the same. If the cycles of flexion and extension are different or inconsistent, abnormal phenomena may occur in the body.

The flexion cycle and the extension cycle are caused by the circulation of cerebrospinal fluid (CSF). Cerebrospinal fluid is produced in the ventricles. The ventricle refers to the space inside the human brain and is surrounded by the ependymal membrane. There are three ventricles of the side ventricle, the third ventricle and the fourth ventricle (60). There are two left and right side ventricles, and there is one each of the third and fourth ventricles 60, so all four ventricles constitute the ventricle system.

Among the two sacrum therapy, the CV4 and EV4 techniques are those that generate a steel point by applying the technique to the back of the subject.

The 4th ventricle compression method, that is, the 4th Ventricular Compression Variation (CV-4 Technique), is a method of compressing both sides of the external occipital prominence (54) in the larynx. CV4 is a method for stillpoint palpation, which refers to compression or narrowing of the ventricles.

The CV4 technique reduces the ability of the occipital cortex to affect pressure changes in the spinal cord by inducing a still point by resisting the rhythm in the flexion cycle. Thus, the spinal pressure within the skull 45 is increased and the cerebrospinal fluid is diverted to all other possible pathways. Because of this, the CV4 technique promotes the movement and exchange of cerebrospinal fluid.

The 4th ventricle expansion method, that is, the EV4 technique (Expansion of 4th Ventricle) is a method of inducing a still point in the extension cycle. The fourth ventricular dilatation method is a method of compressing the external occipital prominence (54) of the larynx. The external occipital protuberance (54) is the most protruding part in the middle of the large squama that occupies the back of the occipital bone (53). EV4 corresponds to the extension period, and expands the fourth ventricle 60 in the skull 45 by resisting the protrusion of the external laryngeal ridge 54 with the fingers through internal rotation through compression.

Through the 4th ventricular compression method and/or the 4th ventricle dilatation method, the movement of the entire cranial sacral system disappears and becomes a completely stopped state. This is called a still-point. The steel point is made semi-forced by compression and/or expansion of the fourth ventricle (60).

The two sacral system may exhibit convulsions, pulsations, or shaking movements, and when resistance is attempted by compression and/or expansion of the fourth ventricle 60, the activity of the two sacral systems eventually momentarily stops. At this point, a steal point occurred.

During the stillpoint process, the body begins to relax. From this point on, the pain that occurred earlier will gradually disappear. And the dysfunction of the waist and pelvis begins to be corrected naturally. Subsequently, the breathing of the pisisulja is also stabilized, and the tense muscles begin to relax. This stillpoint lasts from a few seconds if short to a few minutes if long. When the still point phenomenon is over, the movement of the two sacral systems resumes. In general observation, symmetrical and increased amplitudes of motion are perceived. After the still point, the activity of the two sacral system improves and the movement is restored symmetrically. The steel point is effective in smoothly controlling the activities of the two sacral systems.

5 is a plan view of a pillow according to an embodiment of the present invention. Figure 6 is a perspective view of a pillow according to an embodiment of the present invention. 7 is a front view of a pillow according to an embodiment of the present invention. 8 is a rear view of a pillow according to an embodiment of the present invention.

5 to 8, the pillow according to an embodiment of the present invention includes a laryngeal accommodating portion 20 for accommodating and supporting the laryngeal region; A cervical vertebra support 10 that is inclined and supports the cervical vertebrae; Side support parts 30 that are formed on the left and right sides of the cervical support part 10 and the laryngeal accommodating part 20 to support the user's side head when the user lies on his side; a fourth ventricular pressure protrusion 23 protruding from the laryngeal receptacle 20; and a bridge 25 formed inside the laryngeal accommodating part 20 and connecting the fourth ventricular compression protrusion 23 and the side support part 30.

The laryngeal accommodating unit 20 accommodates the laryngeal region. The laryngeal accommodating part 20 forms a groove to accommodate the laryngeal region. The laryngeal accommodating part 20 is formed at the rear. The cervical spine support 10 is formed in front of the laryngeal accommodating unit 20 . The cervical spine support 10 fixes and supports the cervical spine of the user. The cervical spine support 10 fixes and supports the user's neck.

A ridge line 15 is formed between the cervical spine support 10 and the laryngeal accommodating unit 20 . The user's occiput is located behind the ridge 15, and the user's neck muscles and the user's cervical vertebrae are located in front of the ridge 15. The ridge line 15 forms a boundary between the laryngeal accommodating part 20 and the cervical spine support part 10. Based on the ridge 15, the cervical vertebra support 10 is lowered toward the front, and the laryngeal accommodating portion 20 is lowered toward the rear. The ridge 15 relaxes the user's cervical vertebrae by raising them between the cervical vertebrae and the back of the head.

The fourth ventricular pressure protrusion 23 is formed long in the front-back direction, and the bridge is formed long in the left-right direction. The fourth ventricular compression protrusion 23 is disposed long in the front-back direction at a position facing both sides of the user's external laryngeal ridge. At the center of the laryngeal accommodating part 20, a central groove 21, which is a groove formed long in the front-back direction, is formed.

The central groove 21 accommodates the user's external laryngeal protuberance. On the left and right sides of the central groove 21, fourth ventricle compression protrusions 23 formed long in the front-back direction are formed.

The fourth ventricle compression projection 23 presses the fourth ventricle around the external occipital condyle of the user. The pressure applied to the fourth ventricle by the fourth ventricular compression protrusion 23 increases due to the central groove 21 . The fourth ventricle pressure protrusion 23 induces a steel point.

The bridge 25 is formed in the laryngeal accommodating part 20 . The bridge 25 is connected to the fourth ventricle compression projection 23. The bridge 25 is formed in the left and right directions from the approximate center of the laryngeal accommodating part 20 .

The bridge 25 is formed to be long in the transverse direction and is connected to the center of the fourth ventricle compression protrusion 23 in the anteroposterior direction. The fourth ventricular pressure protrusion 23 is formed in the front-back direction, and the bridge 25 is formed in the left-right direction. The fourth ventricle pressure protrusion 23 and the bridge 25 come into contact with each other.

The bridge 25 is formed long in the transverse direction, one side is connected to the upper side of the side support 30 and the other side is connected to the upper side of the fourth ventricle compression protrusion 23. The bridge 25 is formed in a 'sh' or 'L' shape. The bridge 25 connects the fourth ventricular compression protrusion 23 formed long in the front-back direction to the side support 30 formed on the side.

The side support portion 30 is formed on the left and right sides of the laryngeal accommodating portion and the cervical spine support portion, respectively. The side support portion 30 is formed on the left and right sides of the laryngeal accommodating portion 20 and the cervical spine support portion 10, respectively. The user may turn on his or her side during sleep. The side support 30 supports the user's side head.

The side support 30 is connected to the bridge 25 on one side of the upper side.

The bridge 25 connects the upper surface of the fourth ventricle compression protrusion 23 and the upper surface of the side support 30, and increases in height toward the side support 30. The bridge 25 connects the upper surface of the fourth ventricle pressure protrusion 23 and the upper surface of the side support 30, and is formed at an angle. The bridge 25 gently connects the fourth ventricle compression protrusion 23 and the side support 30. When a height difference occurs between the fourth ventricle compression protrusion 23 and the side support 30, the user may feel uncomfortable in changing posture during sleep. The bridge 25 gently raises the path from the fourth ventricle compression protrusion 23 to the side support 30.

The bridge 25 improves the supporting force of the fourth ventricle compression protrusion 23 . When the material of the pillow has a high contraction amount, the weight of the back of the head contracts the fourth ventricle compression protrusion 23, so that the function of the fourth ventricle compression protrusion 23 may be reduced. Since the bridge 25 limits the amount of contraction of the fourth ventricle compression projection 23, the pressure applied by the fourth ventricle compression projection 23 to the fourth ventricle is maintained.

A pillow according to an embodiment of the present invention includes a laryngeal accommodating unit 20 for accommodating and supporting the laryngeal region; A cervical vertebra support 10 that is inclined and supports the cervical vertebrae; Side support parts 30 that are formed on the left and right sides of the cervical support part 10 and the laryngeal accommodating part 20 to support the user's side head when the user lies on his side; And a bridge 25 protruding in the transverse direction from the laryngeal accommodating portion 20 and connected to the upper surface of the side support portion 30, increasing in height from the center of the laryngeal accommodating portion 20 toward the side support portion 30 do. The bridge 25 makes the slope of the side support 30 and the fourth ventricle compression protrusion 23 gentle. Therefore, the user can easily change the posture during sleep.

The bridge 25 is formed at a position dividing the laryngeal accommodating part 20 in the front-back direction. The bridge 25 is formed at a position facing the center of the back of the head. The bridge 25 is connected to the center of the compression projection 23 of the fourth ventricle in the front-back direction so as to minimize the amount of contraction of the compression projection 23 of the fourth ventricle. The bridge 25 connects the center of the back of the head and the side support 30 so that even when the back of the head rotates or moves in the lateral direction, the movement path forms a gentle slope.

Pillow according to an embodiment of the present invention, the cervical spine support portion 10 is formed inclined to support the cervical spine; A plurality of side support parts 30 for supporting the user's side head when the user lies sideways; And a laryngeal accommodating portion formed between the back of the cervical vertebrae support 10 and the plurality of side support portions 30 to accommodate and support the larynx and to have a fourth ventricular compression protrusion 23 for stimulating the periphery of the external laryngeal convexity of the user ( 20), and the laryngeal accommodating part 20 has a constriction hole 40 formed around the fourth ventricle compression protrusion 23.

The constriction hole 40 is formed around the fourth ventricle compression protrusion 23 . When the larynx applies pressure to the fourth ventricle compression projection 23, the fourth ventricle compression projection 23 contracts. The upper side of the fourth ventricle compression protrusion 23 is contracted, but the amount of contraction is limited because other elements exist around it. The size of the contraction hole 40 decreases when the lower side of the fourth ventricle compression protrusion 23 expands. The constriction hole 40 is a space in which the fourth ventricle compression protrusion 23 is allowed to expand. The constriction hole 40 allows the fourth ventricle compression projection 23 to expand, thereby increasing the contact area between the larynx and the fourth ventricle compression projection 23.

The fourth ventricle compression projections 23 are formed in plurality in the longitudinal direction, and the constriction hole 40 is formed in an outer direction away from the center of the fourth ventricle compression projection 23 . The fourth ventricle compression projections 23 are formed in plurality and are formed long from the front to the rear, and a central groove 21 long in the front-back direction is formed between the plurality of fourth ventricle compression projections 23. The central groove 21 is formed long in the front and rear direction from the center of the pillow.

The constriction hole 40 is a space that allows the fourth ventricle compression protrusion 23 to easily expand to the outside. The constriction hole 40 gradually widens the contact area between the fourth ventricle compression protrusion 23 and the back of the head.

In a state where the user's head is not on the laryngeal support, that is, in the initial state, the normal line N perpendicular to the upper surface of the fourth ventricle compression protrusion 23 is inclined toward the center of the laryngeal receptacle 20. When the user's head is positioned on the occipital support, the fourth ventricle pressure protrusion 23 expands in the direction of the side support 30, and the normal line N also moves in the direction of the side support 30. That is, the fourth ventricle compression protrusion 23 initially covers the user's head, but gradually and relatively distributes the pressure applied to a part of the occipital region, giving the user a more comfortable feeling.

The contraction hole 40 allows the user to feel less heterogeneity and discomfort even if the pillow is made of a material with a relatively low degree of deformation and relatively low elasticity. A material with a low degree of deformation can basically increase the stimulation force of the fourth ventricle compression protrusion 23, and the constriction hole 40 increases comfort. Such a shape allows the fourth ventricular compression protrusion 23 to be more closely attached to the periphery of the external laryngeal condyle, despite the shape of the occipital region, which differs from person to person. The constriction hole 40 increases the degree of freedom of the shape of the fourth ventricle compression protrusion 23 . That is, the degree of close contact between the external occipital condyle and the fourth ventricle compression protrusion 23 can be uniform even for a person with a relatively flat larynx or a person with a more protruding occipital head.

It includes a bridge 25 formed inside the laryngeal receptacle 20 and formed long from the fourth ventricular compression protrusion 23 toward the side support 30, and the fourth ventricle compression protrusion 23 is formed long in the front-back direction. The bridge is formed long in the left and right directions, and the constriction hole 40 has one side in contact with the bridge 25 and the other side in contact with the fourth ventricle compression protrusion 23.

The bridge 25 suppresses excessive and rapid deformation of the fourth ventricle compression projection 23 . A material with high elasticity may cause the user's head to fall too quickly, causing the cervical vertebrae to bend rapidly, and may interfere with the user's sound sleep. Since the user continuously changes his/her posture during sleep, a shock caused by the posture change interferes with a good night's sleep. The bridge 25 induces a sound sleep of the user by slowing down the deformation speed of the fourth ventricle pressure protrusion 23 .

It is formed inside the laryngeal receptacle 20 and includes a bridge 25 formed long from the fourth ventricle compression protrusion 23 toward the side support 30, and the constriction hole 40 is the front and side of the bridge 25 formed at the rear.

The contraction hole 40 may be divided into a first contraction hole 41 formed in front of the bridge 25 and a second contraction hole 42 formed in the rear of the bridge 25 . The first contraction hole 41 may have a larger diameter than the second contraction hole 42 . As the size increases, the peripheral fourth ventricle compression protrusion 23 becomes wider, the upper surface lowers, and the side surface expands more toward the constriction hole 40. The first constriction hole 41 allows the front of the laryngeal support to expand more, lower, and widen more than the rear.

It is formed inside the laryngeal receptacle 20 and includes a bridge 25 formed long in the direction from the fourth ventricle compression protrusion 23 to the side support 30, the bridge 25 is formed long in the transverse direction, one side is connected to the upper side of the side support 30 and the other side is connected to the upper side of the fourth ventricle compression protrusion 23.

It is formed inside the laryngeal receptacle 20 and includes a bridge 25 formed long from the fourth ventricle compression protrusion 23 in the direction of the side support 30, and the bridge 25 is 'o' or 'L' shape. formed, and the contraction hole 40 is formed at the bending point of the bridge 25.

Pillow according to an embodiment of the present invention, the cervical spine support portion 10 is formed inclined to support the cervical spine; A plurality of side support parts 30 for supporting the user's side head when the user lies sideways; And a laryngeal accommodating portion formed between the back of the cervical vertebrae support 10 and the plurality of side support portions 30 to accommodate and support the larynx and to have a fourth ventricular compression protrusion 23 for stimulating the periphery of the external laryngeal convexity of the user ( 20); It is formed inside the laryngeal receptacle 20 and includes a bridge 25 formed long from the fourth ventricle compression protrusion 23 toward the side support 30, and between the front of the bridge 25 and the cervical spine support 10 A contraction hole 40 is formed.

The upper surface of the fourth ventricle compression protrusion 23 is inclined toward the central groove 21 . The constriction hole 40 is disposed on the outside of the fourth ventricle compression projection 23 so that the fourth ventricle compression projection 23 gradually spreads outward.

A pillow according to an embodiment of the present invention includes a laryngeal accommodating unit 20 for accommodating and supporting the laryngeal region; A cervical vertebra support 10 that is inclined and supports the cervical vertebrae; Side support parts 30 that are formed on the left and right sides of the cervical support part 10 and the laryngeal accommodating part 20 to support the user's side head when the user lies on his side; And a bridge 25 protruding in the transverse direction from the laryngeal accommodating portion 20 and connected to the upper surface of the side support portion 30, increasing in height from the center of the laryngeal accommodating portion 20 toward the side support portion 30 And, a contraction hole 40 is formed in the front and rear of the bridge 25, respectively.

8 is a rear view of a pillow according to an embodiment of the present invention. 9 is a perspective view of a core according to an embodiment of the present invention. 10 is a plan view of a core according to an embodiment of the present invention. 11 is a front view of a core according to an embodiment of the present invention. 12 is a rear view of a core according to an embodiment of the present invention.

8 to 12, a pillow according to an embodiment of the present invention includes a cervical spine support core 100 for supporting the cervical spine; a plurality of fourth ventricular compression cores 230 connected to the back of the cervical support core 100 and formed long in the front-back direction to stimulate the periphery of the external laryngeal convexity of the user; And the lateral front side is connected to the cervical spine support core 100, the side rear side includes a side support core 300 facing the side of the fourth ventricle compression core 230, and the fourth ventricle compression core 230 and the side A contraction space 400, which is an empty space, is formed between the support cores 300.

The pillow according to the present invention is a core-shell structured pillow. However, the core alone performs the function of a pillow sufficiently. Therefore, the core itself can be used as a pillow. The shell may have the same shape as the core, but in the embodiment of the present invention, the shape of the core and the shell are different. When a core and a shell are used simultaneously to make a single pillow, the core is a harder material than the shell.

The contraction space 400 is a space that allows the fourth ventricle compression core 230 to expand or widen or move.

The cervical spine support core 100 includes a cervical central core 110 located in front of the fourth ventricle compression core 230; And a cervical side core 120 disposed in the transverse direction of the cervical central core 110 and connected to the lateral front of the cervical central core 110 and the side support core 300, the contraction space 400 is U-shaped One side in the transverse direction is in contact with the fourth ventricle compression core 230, the other side in the transverse direction is in contact with the side support core 300, and the front side is in contact with the cervical spine side core 120.

The front of the plurality of fourth ventricle compression cores 230 is connected to the cervical central core 110, but the rear of the plurality of fourth ventricle compression cores 230 is formed as a free end. Accordingly, the rear of the plurality of fourth ventricle compression cores 230 is widened due to pressure from the back of the user's head. The contraction space 400 allows the fourth ventricle compression core 230 to spread. Expansion, widening, or movement of the fourth ventricle compression core 230 brings the occipital region and the fourth ventricle compression core 230 closer together, thereby increasing the effect of inducing cerebrospinal circulation and preventing unnecessary pressure concentration, giving the user a more comfortable feeling. give.

In the center of the fourth ventricle compression core 230, an expansion space 500, which is an empty space in the shape of a 'U', is formed, and the left and right sides of the expansion space 500 are in contact with the fourth ventricle compression core 230, respectively. The front side is in contact with the cervical spine support core 100.

The fourth ventricle compression core 230 may be formed in plurality in an '11' shape, and an expansion space 500 is formed between the plurality of fourth ventricle compression cores 230. The expansion space 500 allows the fourth ventricle compression core 230 to open more easily.

In the side support core 300, a long valley 310 is formed in the front and rear direction at the center, and long protrusions are formed in the front and rear directions on the left and right sides of the valley 310, and the height decreases toward the valley 310 from the edge. A supporting auxiliary pressure core 330 is formed.

The user unconsciously changes the posture of the pillow during sleep. The user may sleep while looking at the air from the side support core 300 . In this case, the external occipital condyle is inserted into the bone 310, and the auxiliary compression core 330 stimulates the periphery of the external occipital condyle to compress the fourth ventricle.

A pillow according to an embodiment of the present invention includes a cervical spine support core 100 for supporting the cervical spine; a plurality of fourth ventricular compression cores 230 connected to the back of the cervical support core 100 and formed long in the front-back direction to stimulate the periphery of the external laryngeal convexity of the user; and a side support core 300 connected to the cervical spine support core 100 and disposed on the side of the fourth ventricle compression core 230, in the center of the fourth ventricle compression core 230 in a 'U' shape. The expansion space 500, which is an empty space, is formed, and the left and right sides of the expansion space 500 come into contact with the fourth ventricle compression core 230, respectively, and the front side comes into contact with the cervical vertebrae support core 100.

13 is a perspective view of a pillow having a core-shell structure according to an embodiment of the present invention, in which the shell is transparently expressed. 14 is a plan view of a pillow having a core-shell structure according to an embodiment of the present invention, in which the shell is transparently expressed. 15 is a front view of a pillow having a core-shell structure according to an embodiment of the present invention, in which the shell is transparently expressed. 16 is a cross-sectional view at 16-16 of FIG. 13, in which the shell is transparently expressed.

13 to 16, a pillow according to an embodiment of the present invention is a core-shell structured pillow, wherein the core includes a cervical vertebra support core 100 for supporting the cervical vertebrae; a plurality of fourth ventricular compression cores 230 connected to the back of the cervical support core 100 and formed long in the front-back direction to stimulate the periphery of the external laryngeal convexity of the user; And the lateral front side is connected to the cervical spine support core 100, the side rear side includes a side support core 300 facing the side of the fourth ventricle compression core 230, and the fourth ventricle compression core 230 and the side A contraction space 400, which is an empty space, is formed between the support core 300, and the shell is inclined to support the cervical vertebrae, and the cervical spine support 10 disposed above the cervical spine support core 100; a plurality of side support parts 30 disposed above the side support core 300 and supporting the side head of the user when the user lies on the side; and the laryngeal accommodating portion 20 formed between the back of the cervical vertebrae support 10 and the plurality of side support portions 30 to accommodate and support the occipital region and the fourth ventricular compression protrusion 23 for stimulating the user's external laryngeal convexity. ), the fourth ventricle compression protrusion 23 is disposed on the upper side of the fourth ventricle compression core 230, and the laryngeal receiving unit 20 has a contraction hole 40 around the fourth ventricle compression protrusion 23 is formed

The cervical spine support core 100 suppresses the contraction of the cervical spine support 10, the fourth ventricle compression core 230 suppresses the contraction of the fourth ventricle compression protrusion 23, and the side support core 300 suppresses the contraction of the lateral support. Suppressing the shrinkage of (30), the shrinkage hole (40) is formed in the shrinkage space (400).

The fourth ventricle compression core 230 increases the supporting force of the fourth ventricle compression protrusion 23 in the vertical direction. The cervical spine support core 100 increases the vertical direction support of the cervical spine support unit 10 . The side support core 300 increases the vertical support of the side support part 30 . A contraction groove may be formed in the contraction space 400 . The contraction space 400 allows deformation and movement of the fourth ventricle compression protrusion 23 .

The shell is formed inside the laryngeal receptacle 20 and includes a bridge 25 formed long from the fourth ventricle compression protrusion 23 toward the side support 30, and the constriction hole 40 has one side of the bridge ( 25), the other side is in contact with the fourth ventricle compression protrusion 23, the bridge 25 is formed inside the contraction space 400, and the rear end of the fourth ventricle compression core 230 is of the bridge 25 It is formed extending to a position not exceeding the rear end.

The fourth ventricle compression core 230 may be inclined toward the central groove 21 and the expansion space 500 . Such a shape increases the acupressure force with a shape that can be closely adhered to the periphery of the external laryngeal ridge.

The shape of the fourth ventricle compression core 230 provides a greater support force to the front of the fourth ventricle compression protrusion 23, thereby increasing the stimulation force.

The bone 310 formed on the side support core 300 and the auxiliary pressure core 330 provide the effect of craniosacral therapy at a location other than the laryngeal receiving portion 20. The user may sleep lying on his side, or he may sleep while looking at the air from the side support 30. The upper surface of the side support 30 may have a slight difference in height, but too severe a curve or a large difference in height may hit the face or nose when the user changes posture, and concentrate pressure on a part of the face to leave marks or wrinkles may form.

In one embodiment of the present invention, unlike the upper surface of the side support part 30, the shape of the side support core 300 may be formed with a large height difference.

The bone 310 of the side support core 300 and the auxiliary pressure core 330 generate the function of performing two sacral therapy, and the upper surface of the side support part 30 facilitates the user's posture change and is inconvenient when sleeping on the side. to minimize

Although the preferred embodiments of the present invention have been shown and described above, the present invention is not limited to the specific embodiments described above, and in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Various modifications and implementations are possible by those skilled in the art, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

Claims (8)

a cervical vertebra support core for supporting the cervical vertebrae;
a plurality of fourth ventricular compression cores that are connected to the rear of the cervical spine support core and are formed long in an anterior-posterior direction to stimulate the periphery of the user's external laryngeal convexity; and
The lateral front portion is connected to the cervical spine support core, and the lateral rear portion includes a side support core facing the side surface of the fourth ventricle compression core,
The cervical spine support core,
a cervical central core located in front of the fourth ventricle compression core; and
A cervical side core disposed in the transverse direction of the cervical central core and connected to the lateral front of the cervical central core and the side support core;
A contraction space, which is an empty space, is formed between the fourth ventricle compression core and the side support core,
The contraction space is formed in a U shape, one side in the transverse direction is in contact with the fourth ventricle compression core, the other side in the transverse direction is in contact with the side support core, and the front side is in contact with the cervical side core. delete According to claim 1,
An expansion space, which is an empty space in the shape of a 'U', is formed in the center of the fourth ventricle compression core,
The expansion space is
The left and right sides respectively contact the fourth ventricle compression core, and the front side contacts the cervical spine support core. According to claim 1,
The side support core,
A pillow in which a long bone is formed in the front and rear direction at the center, a auxiliary compression core is formed that protrudes long in the front and rear directions on the left and right sides of the bone, and the height decreases from the edge toward the bone. a cervical vertebra support core for supporting the cervical vertebrae;
a plurality of fourth ventricular compression cores that are connected to the rear of the cervical spine support core and are formed long in an anterior-posterior direction to stimulate the periphery of the user's external laryngeal convexity; and
A side support core connected to the cervical spine support core and disposed on a side surface of the fourth ventricle compression core;
An expansion space, which is an empty space in the shape of a 'U', is formed in the center of the fourth ventricle compression core,
The expansion space is
The left side and the right side are in contact with the fourth ventricle compression core, respectively, and the front side is in contact with the cervical spine support core. In the core-shell structure pillow,
the core,
a cervical vertebra support core for supporting the cervical vertebrae;
a plurality of fourth ventricular compression cores that are connected to the rear of the cervical spine support core and are formed long in an anterior-posterior direction to stimulate the periphery of the user's external laryngeal convexity; and
The lateral front portion is connected to the cervical spine support core, and the lateral rear portion includes a side support core facing the side surface of the fourth ventricle compression core,
A contraction space, which is an empty space, is formed between the fourth ventricle compression core and the side support core,
the shell,
a cervical vertebrae supporting part formed at an angle to support the cervical vertebrae and disposed above the cervical vertebrae support core;
a plurality of side support units disposed above the side support core and supporting the side head of the user when the user lies on the side; and
A laryngeal accommodating portion formed with a fourth ventricular compression protrusion formed between the back of the cervical support portion and the plurality of side support portions to accommodate and support the occipital region and to stimulate the periphery of the external laryngeal convexity of the user,
The fourth ventricle compression protrusion is disposed above the fourth ventricle compression core,
The laryngeal receiving portion is a pillow with a constriction hole formed around the fourth ventricle compression protrusion. According to claim 6,
The cervical spine support core suppresses contraction of the cervical spine support,
The fourth ventricle compression core suppresses contraction of the fourth ventricle compression protrusion,
The side support core suppresses contraction of the side support,
The contraction hole is a pillow formed in the contraction space. According to claim 6,
the shell,
Further comprising a bridge formed inside the laryngeal receptacle and extending from the fourth ventricular compression protrusion toward the side support,
The contraction hole,
One side is in contact with the bridge, and the other side is in contact with the fourth ventricle pressure protrusion,
The bridge is formed inside the contraction space,
A pillow extending to a position where the rear end of the fourth ventricle compression core does not exceed the rear end of the bridge.

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