JP6413132B2 - Blood circulation device - Google Patents

Description

The present invention relates to a blood circulation promoting device.

A device that uses a magnet for a blood circulation promoting device or a massage device or a device that uses a protrusion is known. The former is like a bandage with a magnet, for example, and the latter is like a walnut ball that is held on the palm and rolled on the palm.

JP-A-10-244010 JP2006-209115A

  However, the effect of the magnet is different from the effect of the magnet, and the effect of the protrusion is different from the effect of the protrusion, and there is no instrument having a synergistic effect of both effects. If an electromagnetic field effect that promotes blood flow by combining the effect of the magnet and the protrusion instead of the electric type can be obtained, an unprecedented great effect can be obtained with a simple configuration.

  In order to achieve such an object, the present invention provides a blood circulation promoting device having a surface layer portion having a plurality of protrusions for rolling the skin surface, wherein the protrusions and the other surface layer portions are magnetic fields. We have developed a blood circulation device that is constructed to have different strengths.

  Next, in addition to the above features, the present invention has developed a blood circulation promoting device that includes a magnet in the central portion inside the surface layer portion, and the surface layer portion contains at least a diamagnetic material.

  Next, in addition to the above features, the present invention develops a blood circulation promoting device that includes a diamagnetic material inside the surface layer portion, and the surface layer portion contains at least a magnetic material having the same magnetic pole in the surface normal direction. did.

  Next, the present invention has developed a blood circulation promoting device in which the surface layer portion is made of a plastic material in which a diamagnetic material is kneaded, in addition to the above features.

  Next, in addition to the above features, the present invention has developed a blood circulation promoting device in which the protrusion is a protrusion having a shape that bites into the front of the skin.

  Next, the present invention has developed a blood circulation promoting device in which, in addition to the above features, the number of protrusions per surface layer unit area is 10 or more and 30 or less per square centimeter.

  According to the blood circulation promoting device of the present invention, it is possible to provide a blood circulation promoting device having an electromagnetic field effect that promotes blood flow by combining the effect of a magnet and the effect of a protrusion, not an electric type. ;

1 is an overall view of a blood circulation promoting device in the present invention. It is a conceptual diagram of the central part in this invention. It is a conceptual diagram of the magnetic field change by rolling on an unspecified surface in the present invention. It is a conceptual partial exploded view of the surface layer part and the center part in this invention. It is a conceptual sectional view of the central part in the present invention. It is a conceptual diagram which shows that the strength of the magnetic field of a nucleus part has arisen under the influence of the diamagnetic substance in this invention. It is a conceptual diagram which shows that the strength of the magnetic field of a surface layer part has arisen under the influence of the diamagnetic body in this invention. It is a figure which shows the usage example of the implementation goods in this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, Example 1 is in Claim 1, Example 2 in Claim 2, Example 3 in Claim 3, Example 4 in Claim 4, Example 5 in Claim 5, Embodiment 6 corresponds to claim 6 respectively, and the contents of the present invention are not limited to the following embodiments, and various modifications can be made without departing from the scope of the present invention.

<Overview>
The invention of the present embodiment is a blood circulation promoting device in which the strength of a magnetic field is increased.

  As shown in FIG. 1, the invention of this embodiment has a surface layer portion having a plurality of protrusions for rolling the skin surface, and the magnetic field strength differs between the protrusions and the other surface layer portions. This is a blood circulation promoting device.

  As shown in FIG. 2, the invention of this example combines substantially hemispheres (0201) and has a shape like a sphere, but is not limited to this form. As shown in FIG. 1, the substantially hemispherical body includes a plurality of upper hemispheres (0202) and lower hemispheres (0203) that can rotate in different directions on the left and right. However, the shape of the protrusion is not limited as long as the protrusion is uneven in the surface layer portion. In the invention of this embodiment, a part or all of the members constituting the invention of this embodiment is made of a magnetic material, and thus has a magnetic force. Furthermore, the member comprised with the magnetic body is arrange | positioned so that a strong and weak difference may arise in the magnetic field which skin receives. For example, by forming the entire surface layer portion as a magnet that generates a magnetic force line in the normal direction on the surface, the magnetic field lines can be concentrated on the projection portion, and the other portions can be made relatively weak. Also, the magnetic field strength can be similarly increased by embedding the magnet so that the magnetic poles of all the embedded magnets have the same orientation only in the protruding portion and not embedding the magnet in the other portions. be able to.

  In the present embodiment, since the magnetic field is applied to the entire device and the strength of the magnetic field is increased and decreased, the strength of the magnetic field is also applied to the skin. In addition, as shown in FIG. 3, since it is used to roll the skin surface, a dynamic magnetic field is applied to the bloodstream (ionic fluid), resulting in the force that moves the ionic component in the bloodstream. Works (Fleming's left-hand rule). This has the effect of promoting blood flow. Therefore, blood circulation is improved. Further, as shown in FIG. 8, by rolling the skin surface, a strong magnetic field and a weak magnetic field are alternately switched, and as shown in FIG. 3, a weak magnetic current flows in the body as a result of fluctuations in the magnetic field. The weak electric current relieves the tension of the muscles, so that the stiffness of the body is relaxed, and the rigid blood vessels are loosened by the pressure from the muscles, which also promotes blood flow. In addition to this, the protrusion can give a greater stimulus to the blood flow by giving a physical stimulus to the skin surface in the same manner as the massage effect by finger pressure. Furthermore, since the protrusions relax the muscle stiffness by the finger pressure, the body tension is relieved and the blood flow can be further enhanced. Therefore, this example combines physical stimulation, magnetic stimulation, and electromagnetic stimulation all together, giving stimulation from the skin surface to the back of the body at the same time, and has an effect on blood cells and muscles in blood vessels. This increases the effect of promoting blood flow. In particular, when the protrusion is sharper, the protrusion pushes the skin surface, so that these effects extend not only to the skin surface but also to the back of the skin.

<About the surface layer>
As shown in FIG. 4, the surface layer portion has a hollow inside, and is configured so that a substantially hemispherical body (0401) such as a magnet is disposed in the hollow portion. In this specification, it is called the central part.) The surface layer portion covers the central portion (0402) and is fixed with an adhesive, but may be fixed by other methods. The substantially hemisphere constituting the central portion rotates in different directions at the top and bottom. Each hemisphere can rotate in either the left or right direction. The surface layer portion rotates in the same direction as the substantially hemisphere to which each of the surface layers is fixed in accordance with the movement of the approximately hemisphere. Although it is assumed that the surface layer portion is made of a material having a certain degree of hardness, for example, a flexible material such as a plastic resin or a silicone resin can be formed as a base material. The shape of the surface layer portion may be a shape based on a square, a shape based on a triangle, or a shape based on another polygon, according to the shape of the present embodiment. It doesn't matter.

<About the center>
As shown in FIG. 5, the rotating part has a lubricating plate (0503) on both sides of the plane of the metal plate (0504), and a core part (0502) on the surface side of the lubricating plate other than the metal plate side. have. The metal plate and the lubricating plate have a disc shape, and a columnar column is fixed at the center. The lubricating plate may be made of, for example, a plastic material, but may be made of other materials. The core is made of a substantially hemispherical body, and the center is configured to be rotatable around the columnar column (metal bar). That is, the core has a recess near the top, and the cavity is provided at the center of the recess (0506). Both ends of the metal rod are configured to be larger (0507) than the cavity diameter. For this purpose, for example, an annular stopper (0501) for fitting the metal rod is provided on the top of the metal rod, and the annular stopper is prevented from being removed by crushing the top of the metal rod. Or the pipe | tube is covered so that it may become larger than the said cavity diameter on the top part of the said metal rod, It is made not to remove | eliminate the said annular | circular stop. In this way, the core does not fall out of the metal rod. The central part is not limited as long as the core part is included. The rotating unit is preferably rotated, but may have a structure that does not rotate. According to the shape of this embodiment, the member constituting the rotating part may be a shape based on a square, a shape based on a triangle, or a shape based on another polygon. It does not matter.

<About metal plates>
The metal plate may have a structure capable of connecting two blood circulation promoting devices. Or you may have a structure which can connect several this blood circulation promotion instrument. As a structure which can be connected, for example, a method of connecting the holes by bridging the holes formed in the metal plate with a connection ring or the like can be considered. Alternatively, it may be possible to connect two blood circulation promoting devices in a shape like so-called glasses. In the latter case, since the state of the blood circulation promoting device is fixed, the direction of the magnetic pole is always unified, so that the effect of using this blood circulation promoting device is high.

<Overview>
In addition to the features of the first embodiment, the invention of the present embodiment is a blood circulation promoting device that includes a diamagnetic material in the surface layer portion, thereby enhancing the blood circulation promoting effect by increasing or decreasing the magnetic field.

  The invention of the present embodiment is characterized in that, in addition to the features of the first embodiment, the center portion includes a magnet (for example, the entire core portion), and the surface layer portion uniformly contains at least a diamagnetic material. This is a blood circulation promoting device.

  The core is composed of a magnet. All the cores have the same magnetic poles. As the diamagnetic material constituting the surface layer portion, it may be possible to use biotite containing a large amount of germanium and germanium ore, but the type is not limited as long as it is a diamagnetic material. Parts other than the respective parts may be constituted by magnets, but in order to enhance the effect of magnetic force, it is desirable that magnets are used in the respective parts.

As shown in FIG. 6, the magnetic field that is uniformly generated in all directions from the magnet arranged in a substantially spherical body is weakened by the diamagnetic material, so that the strength of the magnetic field is generated. For example, a design in which the surface layer area where the protrusions are evenly arranged is 2 square centimeters to 5 square centimeters, and the density of the protrusions is about 10 square centimeters to 30 square centimeters. At this time, if the spherical blood circulation promoting device is rolled by a human hand for about 2 centimeters per second to about 10 centimeters per second, an electromagnetic wave of about 5 Hz to 25 Hz is generated in the vicinity of the skin surface, and electromotive force is generated on blood as a conductor. Work or force acts on the blood that is ion. The higher this frequency, the greater the electromotive force and the greater the force. Conversely, when the frequency is low, the effect is almost lost.
Therefore, a magnet of about 15000 gauss is used as a permanent magnet, and the strength of the magnet touching the skin is set to a difference value of about 10000 gauss. If it occurs on the skin and the next time the protrusion retracts), an electromotive force of about 0.001 volts is generated in the tissue on the skin surface by calculation. Since the electromotive force in the human body is about 1 microvolt to 1 picovolt, an electromotive force of about 1000 to 100000 times is generated in the body, and there is an effect of sufficiently activating a flow such as blood flow. .
In addition, since a difference occurs in the difference value depending on the size of the protrusion of the diamagnetic material, the magnitude of the electromotive force flowing on the skin surface changes. In this blood circulation promoting device, the bottom is 3 mm in height, and the height is 3 mm in height, but the length from the surface layer to the top of the protrusion becomes longer, so the diamagnetic material has a stronger force to weaken the magnetic force, The difference value increases. When the difference value increases, a larger electromotive force is generated, and thus the blood circulation promoting effect is further increased.

  In this embodiment, as shown in FIG. 6, the surface layer portion is provided with the protrusion, and since the protrusion includes a diamagnetic substance, the diamagnetic force is strong at the protrusion portion. Since it works (see H1, H3, H5, H7, H9, H11, and H13 in the figure), the magnetic field is greatly weakened. In the smooth portion of the surface layer portion without the protrusion, the diamagnetic force is weak (see H2, H4, H6, H8, H10, and H12 in the figure), so that the magnetic field is small and weakened. Although not shown in the figure, in the area from H6 to H8 in the figure, there is some disturbance in the way of strength. Since the entire device has a magnetic field, and the strength of the magnetic field is increased and decreased, the strength of the magnetic field is also given to the skin (0601). In addition, as shown in FIG. 8, since it is used to roll the skin surface, a dynamic magnetic field is applied to the bloodstream (ionic fluid), and as a result, the force that moves the ionic component in the bloodstream. Works (Fleming's left-hand rule). This has the effect of promoting blood flow. Therefore, blood circulation is improved. Further, by rolling the skin surface, the strong magnetic field and the weak magnetic field are alternately switched. As shown in FIG. 3, a weak current flows in the body as a result of fluctuations in the magnetic field. The weak electric current relieves the tension of the muscles, so that the stiffness of the body is relaxed, and the rigid blood vessels are loosened by the pressure from the muscles, which also promotes blood flow. In addition to this, the protrusion can give a greater stimulus to the blood flow by giving a physical stimulus to the skin surface in the same manner as the massage effect by finger pressure. Furthermore, since the protrusions relax the muscle stiffness by the finger pressure, the body tension is relieved and the blood flow can be further enhanced. Therefore, this example combines physical stimulation, magnetic stimulation, and electromagnetic stimulation all together, giving stimulation from the skin surface to the back of the body at the same time, and has an effect on blood cells and muscles in blood vessels. This increases the effect of promoting blood flow. In particular, when the protrusion is sharper, the protrusion pushes the skin surface, so that these effects extend not only to the skin surface but also to the back of the skin.

<Overview>
In addition to the features of the first embodiment, the invention of the present embodiment is a blood circulation promoting device that uses a diamagnetic material inside the surface layer portion and uses a magnetic material in the surface layer portion.

  In addition to the features of the first embodiment, the invention of this embodiment includes a diamagnetic material disposed inside the surface layer portion, and the surface layer portion contains at least a magnetic material having the same magnetic pole in the surface normal direction. The blood circulation promoting device according to 1,

  The core is made of a diamagnetic material. The diamagnetic material may be used in any portion as long as it is inside the surface layer portion, but in order to generate a magnetic wave more effectively, a diamagnetic material is used for the core portion. desirable. The diamagnetic material disposed in the core is germanium. Biotite containing a lot of raw germanium may be used. Other diamagnetic materials may be used. The magnetic material of the surface layer part must be processed so that the magnets are cast or heat-treated so as to have the same magnetic pole in the front normal direction. If the casting treatment or the heat treatment is not performed, even if the magnetic field is weakened by the diamagnetic material, a uniform magnetic field wave is not generated, so that the vibration of blood cells is not continuously increased and the blood circulation promoting effect is not enhanced.

A magnetic field that is uniformly generated in all directions from a magnet arranged in a substantially spherical body is weakened by the diamagnetic material, so that the strength of the magnetic field is generated. For example, a design in which the surface layer area where the protrusions are evenly arranged is 2 square centimeters to 5 square centimeters, and the density of the protrusions is about 10 square centimeters to 30 square centimeters. At this time, if the blood circulation promoting device of the stadium is rolled by human hands at a rate of about 2 centimeters per second to about 10 centimeters per second, an electromagnetic wave of about 5 Hz to 25 Hz is generated in the vicinity of the skin surface, and an electromotive force is generated on blood as a conductor Work or force acts on the blood that is ion. The higher this frequency, the greater the electromotive force and the greater the force. Conversely, when the frequency is low, the effect is almost lost.
Therefore, a magnet of about 15000 gauss is used as a permanent magnet, and the strength of the magnet touching the skin is set to a difference value of about 10000 gauss. If it occurs on the skin and the next time the protrusion retracts), an electromotive force of about 0.001 volts is generated in the tissue on the skin surface by calculation. Since the electromotive force in the human body is about 1 microvolt to 1 picovolt, an electromotive force of about 1000 to 100000 times is generated in the body, and there is an effect of sufficiently activating a flow such as blood flow. .
In addition, since a difference occurs in the difference value depending on the size of the protrusion of the diamagnetic material, the magnitude of the electromotive force flowing on the skin surface changes. In this blood circulation promoting device, it is a substantially conical protrusion with a bottom face of 3 millimeters and a height of 2 millimeters, but as the length from the surface layer portion to the protrusion top portion increases, the diamagnetic material has a stronger force to weaken the magnetic force, The difference value increases. When the difference value increases, a larger electromotive force is generated, and thus the blood circulation promoting effect is further increased.

  In this embodiment, as shown in FIG. 7, a diamagnetic material is used for the core portion, so that the diamagnetic force acts strongly in the surface layer portion having no projection close to the magnet (see FIG. 7). Medium (see h2, h4, h6, h8, h10, h12), the magnetic field is greatly weakened. Since the diamagnetic force acts weakly at the protrusions (see h1, h3, h5, h7, h9, h11, and h13 in the figure), the magnetic field is small and weakened. Although not shown in the figure, in the area from h6 to h8 in the figure, there is some disturbance in the way of strength. Since the entire device has a magnetic field and is configured so that the strength of the magnetic field is strong and weak, the strength of the magnetic field is also applied to the skin (0701). In addition, as shown in FIG. 8, since it is used to roll the skin surface, a dynamic magnetic field is applied to the bloodstream (ionic fluid), and as a result, the force that moves the ionic component in the bloodstream. Works (Fleming's left-hand rule). This has the effect of promoting blood flow. Therefore, blood circulation is improved. Further, by rolling the skin surface, the strong magnetic field and the weak magnetic field are alternately switched. As shown in FIG. 3, a weak current flows in the body as a result of fluctuations in the magnetic field. The weak electric current relieves the tension of the muscles, so that the stiffness of the body is relaxed, and the rigid blood vessels are loosened by the pressure from the muscles, which also promotes blood flow. In addition to this, the protrusion can give a greater stimulus to the blood flow by giving a physical stimulus to the skin surface in the same manner as the massage effect by finger pressure. Furthermore, since the protrusions relax the muscle stiffness by the finger pressure, the body tension is relieved and the blood flow can be further enhanced. Therefore, this example combines physical stimulation, magnetic stimulation, and electromagnetic stimulation all together, giving stimulation from the skin surface to the back of the body at the same time, and has an effect on blood cells and muscles in blood vessels. This increases the effect of promoting blood flow. In particular, when the protrusion is sharper, the protrusion pushes the skin surface, so that these effects extend not only to the skin surface but also to the back of the skin.

<Overview>
The invention of the present embodiment is a blood circulation promoting device using a plastic material in which a diamagnetic material is kneaded into the surface layer portion in addition to the characteristics of the second embodiment.

  In addition to the features of the second embodiment, the invention of the present embodiment is characterized in that a plastic material kneaded with a diamagnetic material is used for the surface layer portion.

  The diamagnetic material kneaded into the plastic is germanium. Biotite containing a lot of rough germanium may be used. Other diamagnetic materials may be used. When a diamagnetic substance is kneaded into a plastic, a diamagnetic substance is mixed between the plastics. Therefore, when the particles of the diamagnetic substance are large, the bond between the plastic and the diamagnetic substance becomes fragile, causing damage to the surface layer portion. For this reason, it is desirable that the diamagnetic substance is finely kneaded into a plastic material.

<Overview>
The invention of the present embodiment is a blood circulation promoting device in addition to the characteristics described in any one of the embodiments described above, wherein the shape of the protrusion is a shape that bites into the skin.

  In addition to the feature described in any one of the first to fourth embodiments, the invention of the present embodiment has a feature that the projection is a projection that is shaped to bite into the skin surface.

  The protrusions are intended to give a pleasant degree of stimulation with a relaxing effect when the invention of this embodiment is rolled on the skin surface. Therefore, a conical shape having a certain thickness is desirable instead of a protrusion like a needle, but other shapes may be used.

<Overview>
The invention of the present embodiment is a blood circulation promoting device in which the number of the protrusions is 10 to 30 per unit surface area in addition to the feature described in any one of the embodiments.

  In addition to the features described in any one of the above embodiments, the invention of the present embodiment has the number of protrusions per unit area of the surface layer portion of 10 pieces / square centimeter or more and 30 pieces / square centimeter or less. Has characteristics.

  The protrusions determine the distribution of places where the magnetic field is strong and weak. If the protrusions are too dense, a strong magnetic field and a weak magnetic field will not appear remarkably, so the number per unit area needs to be 30 or less per square centimeter. If the protrusions are too sparse, the wave of the magnetic field becomes a gentle wave, the swaying of the red blood cells becomes dull, and a high blood flow promoting effect cannot be expected. Therefore, the number per unit area needs to be 10 pieces / square centimeter or more. It is.

<Other embodiments>
In this blood circulation promoting device, a magnet or a diamagnetic material such as germanium or plastic is used as a material constituting the surface. These substances are harmful if they enter the body. Therefore, when using this blood circulation promoting device, in order to prevent the substances that make up this blood circulation promoting device from entering the body from the wound, it may be possible to coat with a harmless substance even if it is taken into the body. . As an example of a substance that is harmless even if taken into the body, it is conceivable to coat with gold. For example, a material of 24 gold (100% gold) and 100% platinum is used.

  The sharpness of the tip of the protrusion installed on the surface layer portion of the blood circulation promoting device should be 30 degrees or more and 120 degrees or less. The degree of sharpness refers to a value obtained by subtracting the sum of the inner angles of the planes in contact with each other from 360 degrees. For example, in the case of a cube, three planes are terminated at one vertex, and the sum of the internal angles of each surface in contact with the vertex is 90 degrees × 3 = 270 degrees, and the degree of sharpness is 360 degrees to 270 degrees. 90 degrees minus the degree. In the case of a cone, since the vertex coincides with the fan-shaped vertex of the developed view, the surface in contact with the vertex corresponds to the tip of the fan-shaped. Therefore, the degree of sharpness is a value obtained by subtracting the angle of the fan-shaped central angle from 360 degrees. The higher the degree of sharpness, the sharper the sharpness. If the degree of sharpness is greater than 120 degrees, there is a danger that the protrusion will touch the hand, which is dangerous. Furthermore, if the degree of sharpness is less than 30 degrees, it does not bite into the skin, so a physical effect such as finger pressure cannot be obtained. Even if the degree of sharpness does not match the optimum condition, it can be implemented if it has the same structure as the blood circulation promoting device, but it cannot be expected to obtain the same effect.

  In the present blood circulation promoting device, as an example of an embodiment in which the degree of sharpness is the optimum condition, it is conceivable that the protrusion has a substantially conical shape with a height of 2 mm and a bottom diameter of 3 mm. In this case, the size of the center angle is 270 degrees, which is 3/4 of 360 degrees. Accordingly, the degree of stickiness is 90 degrees, and the protrusion has the optimum degree of stickiness.

  As an example of the embodiment of the present blood circulation promoting device, it is conceivable that the diameter from which the protrusion of the sphere is removed is about 20 mm to 40 mm. If it is smaller than 20 mm, the blood flow promoting effect is weakened because the amount of change in the magnetic field when the blood circulation promoting device is rolled on the skin surface is small. If it is larger than 40 mm, it cannot be put in the hand, so that it is difficult to roll quickly and the change rate of the magnetic field becomes slow, so that the blood circulation promoting effect is weakened. Accordingly, the optimum diameter is 20 mm to 40 mm with the sphere protrusions removed. Even if the optimum condition is not satisfied, the device can be implemented as long as it has the same child structure as the blood circulation promoting device, but it cannot be expected to obtain the same effect.

<Other effects>
The present blood circulation promoting device is supposed to be held in the hand when it is rolled and used, and can give concentrated stimulation to the hand. The stimulus passes through the nerve and is sent to the brain. Therefore, by giving intensive stimulation in a short time, it is possible to give intensive stimulation to the brain in a short time, so that the function of the brain can be activated. Therefore, an effect as blur prevention can be expected.

  In addition, since the upper and lower hemispheres rotate in the left and right directions in the present blood circulation device, in order to perform this rotational motion with one hand, it is necessary to perform a complicated motion with a fingertip. Since the brain performs complex activities in order to perform complex movements, the brain is stimulated. Therefore, an effect as blur prevention can be expected. When rotating with both hands, it is necessary to make different movements with the left and right hands. Making different movements to the left and right hands at the same time is a complex movement and gives a strong stimulus to the brain. Therefore, an effect as blur prevention can be expected.

  In addition to the stimulus that the substance given to the fingertip comes into contact, the blood circulation promoting device is expected to have a high effect for dementia spinning by combining the complicated thinking of moving one's hand in a complicated manner.

Claims (6)

A blood circulation promoting device having a surface layer portion provided with a plurality of protrusions for rolling against the skin surface,
A blood circulation promoting device configured such that the intensity of a magnetic field having the same polarity is different between the protrusion and the other surface layer portion. The central part inside the surface part includes a magnet,
The blood circulation promoting device according to claim 1, wherein the surface layer portion contains at least a diamagnetic material. A diamagnetic material is arranged inside the surface layer,
The blood circulation promoting device according to claim 1, wherein the surface layer portion includes at least a magnetic material having the same magnetic pole in a surface normal direction.   The blood circulation promoting device according to claim 2, wherein the surface layer portion is made of a plastic material kneaded with a diamagnetic material.   The blood circulation promoting device according to any one of claims 1 to 4, wherein the protrusion is a protrusion having a shape that bites into a skin surface.   6. The blood circulation promoting device according to claim 1, wherein the number of the protrusions per surface layer unit area is 10 or more and 30 or less per square centimeter.

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