CN215689731U - Neck massager - Google Patents

Abstract

The utility model discloses a neck massager which comprises a wearing bracket, a plurality of vibration massage units and a control part, wherein at least part of the vibration massage units form a vibration massage control group, the vibration massage units in the vibration massage control group are arranged in an arc shape with a concave middle part, the vibration massage units in the vibration massage control group comprise a plurality of symmetrical unit pairs, each symmetrical unit pair comprises two vibration massage units which are arranged in a bilateral symmetry mode relative to a central plane of the wearing bracket, the control part is used for controlling the plurality of symmetrical unit pairs to work in sequence along a direction far away from the central plane, and the two vibration massage units in each symmetrical unit pair work simultaneously. Therefore, the massage effect that two thumbs simultaneously slant upwards can be simulated, the massage force is high, and the massage mode more accords with the symmetrical characteristics of human neck muscle and structure.

Description

Neck massager

Technical Field

The utility model relates to the technical field of massage equipment, in particular to a neck massager.

Background

The massage machine in the related art is provided with a massage head for massaging a human body, but many massage machines may have a problem that a massage feeling is not obvious, resulting in a poor massage effect of the massage machine.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the first purpose of the utility model is to provide a neck massager, which can simulate the massage effect of the oblique pushing of the thumb, has high massage strength, and has good massage effect, and the massage mode is more in line with the characteristics of the neck muscles and structures of human bodies.

In order to achieve the above object, the present invention provides a neck massager, comprising: a wearing bracket defining a neck-surrounding space; a plurality of vibration massage units, wherein the plurality of vibration massage units are arranged on one side of the wearing bracket facing the neck surrounding space, at least part of the plurality of vibration massage units form at least one single-side massage control group, the single-side massage control group is positioned on one side of a central plane of the wearing bracket and is obliquely arranged relative to the central plane, the single-side massage control group comprises a plurality of vibration massage units which are arranged at intervals along the transverse direction, and the height of the vibration massage unit which is closer to the central plane of the wearing bracket is lower, or the height of the vibration massage unit which is closer to the central plane of the wearing bracket is higher; and the control part is used for controlling the vibration massage units in the single-side massage control group to work in sequence so as to realize inclined massage.

According to the neck massage instrument provided by the embodiment of the utility model, the single-side massage control group is arranged on one side of the central plane of the wearing support and is obliquely arranged relative to the central plane, and the single-side massage control group comprises the plurality of vibration massage units which are transversely arranged at intervals, so that when the vibration massage units in the single-side massage control group are controlled to sequentially work, the massage effect of obliquely pushing the thumb can be simulated, the real massage effect of a human body is fully matched, the massage force is high, the oblique pushing massage mode is more in line with the characteristics of neck muscles and structures of the human body, and the massage effect is good.

Optionally, in some embodiments, the lower the height of the vibratory massage units in the one-sided massage control group that are closer to the center plane of the wearable bracket, the lower the height of the vibratory massage units in the one-sided massage control group are, the lower the edge of the wearable bracket is.

Optionally, in some embodiments, at least one of the unilateral massage control groups comprises a central vibratory massage unit located on a central plane of the wearable support, the lower the height of the vibratory massage unit in the unilateral massage control group that is closer to the central plane.

Optionally, in some embodiments, the number of the one-sided massage control groups is at least two, and at least one of the one-sided massage control groups is respectively disposed on two sides of the central plane of the wearable bracket.

Optionally, in some embodiments, the one-sided massage control groups include a first one-sided massage control group and a second one-sided massage control group respectively located at both sides of the center plane of the wearing bracket as the height of the vibration massage unit closer to the center plane of the wearing bracket is lower, wherein,

the first single-side massage control group and the second single-side massage control group share one central vibration massage unit located on the central plane; alternatively, the first and second electrodes may be,

the first and second single-sided massage control groups do not include a central vibratory massage unit located on the center plane; alternatively, the first and second electrodes may be,

the first one-sided massage control group includes a central vibratory massage unit located on the center plane, and the second one-sided massage control group does not include a central vibratory massage unit located on the center plane.

Optionally, in some embodiments, the control portion is further configured to,

controlling the vibration massage units in the single-side massage control group to work in sequence along the direction far away from the central plane; or

And controlling the vibration massage units in the single-side massage control group to work in sequence along the direction close to the central plane.

Optionally, in some embodiments, the control part is further configured to control one of the first and second single-sided massage control groups to operate at least once after controlling the other of the first and second single-sided massage control groups to operate at least once.

Optionally, in some embodiments, at least two of the single-sided massage control groups are symmetrically disposed about a center plane of the wearable mount.

Optionally, in some embodiments, the single-sided massage control group includes a first single-sided massage control group and a second single-sided massage control group respectively located at two sides of a central plane of the wearable bracket, wherein the control portion is further configured to control two of the vibrating massage units symmetrically disposed about the central plane in the first single-sided massage control group and the second single-sided massage control group to operate simultaneously.

Optionally, in some embodiments, the operating time of the simultaneously operating vibratory massage units is less than the operating time interval of two adjacent vibratory massage units.

Optionally, in some embodiments, the working time of the simultaneously working vibrating massage units is 80-120ms, and the working time interval of two adjacent vibrating massage units is 1.5-2.5 times of the working time of the simultaneously working vibrating massage units.

Optionally, in some embodiments, the working time interval between two adjacent vibrating massage units is less than or equal to each working time of the vibrating massage unit.

In some embodiments, each working time of the vibration massage unit is 80-120ms, and the working time interval of two adjacent vibration massage units is 0.5-1.0 times of each working time of the vibration massage unit.

In some embodiments, the vibratory massage unit is operable to vibrate in an oscillatory manner.

In some embodiments, the oscillation manner is that the vibration massage unit oscillates in an up-down direction, a left-right direction, or a circumferential direction.

In some embodiments, the amplitude of oscillation of the vibratory massage units is in the range of 0.1mm to 5.0mm, and the clear distance between two adjacent vibratory massage units is in the range of 6mm to 22 mm.

In some embodiments, the diameter D1 of the vibratory massage unit satisfies: d1 is more than or equal to 10mm and less than or equal to 18 mm.

In some embodiments, the area S6 of the vibratory massage unit satisfies: 80mm²≤S6≤250mm²。

In some embodiments, the clear distance between two adjacent vibratory massage units is in the range of 6mm-22mm, and/or the center distance between two adjacent vibratory massage units is in the range of 16mm-40 mm.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

FIG. 1 is an angled perspective view of a neck massager in accordance with one embodiment of the present invention;

FIG. 2 is a perspective view of another angle of the neck massager shown in FIG. 1;

FIG. 3 is a top view of the neck massager shown in FIG. 2;

FIG. 4 is an enlarged partial view of the neck massager of FIG. 3;

FIG. 5 is a front view of the neck massager shown in FIG. 2;

FIG. 6 is a bottom view of the neck massager illustrated in FIG. 5;

FIG. 7 is a rear view of the neck massager illustrated in FIG. 5;

FIG. 8 is a cross-sectional view taken along line F-F of FIG. 5;

fig. 9 is a flowchart of a massage control method of the neck massager in accordance with one embodiment of the present invention;

FIG. 10 is another angled perspective view of the same neck massager of FIG. 2;

fig. 11 is an angled perspective view of a neck massager in accordance with another embodiment of the present invention.

Reference numerals:

a neck massager 100;

a central plane S0; a first plane S1; a second plane S2; a third plane S3;

the intermediate zone Z1; end zone Z2; first end zone Z21; a second end region Z22;

wearing the bracket 1; a neck-surrounding space 10; an intermediate bracket 11; an intermediate portion 111; an end head portion 112; a clamp arm bracket 12; a control panel 14;

a flexible base 13; a recess 131; a bottom wall 1311 of the recess; inner side walls 1312 of the grooves; an outer sidewall 1313 of the groove;

a vibration massage unit 2; a middle massage group 201; an end massage group 202;

a first vibratory massage unit 21, 21a, 21 b; a second vibratory massage unit 22, 22a, 22 b;

a third vibratory massage unit 23, 23a, 23 b; a fourth vibratory massage unit 24, 24a, 24 b; a fifth vibratory massage unit 25;

a first pair of symmetric units 2A; a second symmetric cell pair 2B;

a head 203; a connecting portion 204; a vibration device 205.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

The following disclosure provides many different embodiments, or examples, for implementing different features of the utility model. To simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, the present invention provides examples of various specific processes and materials, but one of ordinary skill in the art may recognize the applicability of other processes and/or the use of other materials.

The neck massager 100 according to the embodiment of the present invention is described below with reference to the accompanying drawings.

As shown in fig. 1 and 2, the neck massage apparatus 100 includes a wearing bracket 1 and a plurality of vibration massage units 2, the wearing bracket 1 defining a neck-surrounding space 10, the plurality of vibration massage units 2 being provided on a side of the wearing bracket 1 facing the neck-surrounding space 10. That is, when the user wears the neck massage apparatus 100, the wearing frame 1 is wound around the neck of the human body, the neck of the human body is located in the neck-surrounding space 10, and the plurality of vibration massage units 2 are located on the side of the wearing frame 1 close to the neck of the human body, so as to be adapted to contact with the neck of the human body to perform vibration massage on the neck of the human body.

It should be noted that the massage function of the vibration massage unit 2 is not limited to vibration massage, that is, the vibration massage unit 2 may only have the vibration massage function, and may also have a combination of the vibration massage function and other massage functions, wherein the other massage functions may include an electrical stimulation massage function, an air bag squeezing massage function, a hot compress massage function, a phototherapy massage function, an aromatherapy massage function, and the like.

Referring to fig. 3, the wearing bracket 1 has a center plane S0, and it can be understood that, in general, the center plane S0 is opposite to the center of the cervical vertebrae of the human body when the user wears the neck massager 100. In some specific examples, the wearing support 1 may present a shape that is bilaterally symmetric about the center plane S0, or a shape that is generally bilaterally symmetric about the center plane S0, that is, the wearing support 1 as a whole is bilaterally symmetric about the center plane S0. However, the present invention is not limited thereto, and in other embodiments of the present invention, a part of the portion of the wearable brace 1 located on the left side of the center plane S0 may be asymmetric in structure with a part of the portion of the wearable brace 1 located on the right side of the center plane S0.

For example, in some examples, the wearable mount 1 may be generally curvilinear, or a combination of curvilinear and linear. For example, the curve may be: the whole wearing support 1 is in an arc shape or other curve shapes similar to the arc shape. Also for example, the combination of curved and linear shapes may be such that the intermediate bracket 11 described later (as shown in figure 6) is curved (e.g., curved or other curved shape approximating an arc), the arm support 12 is linear, and so forth. It should be noted that, in the description herein, the directions "up", "down", "left", "right", "front", "rear" refer to: when the user wears the neck massager 100, the human body has "up", "down", "left", "right", "front" and "back" directions.

Referring to fig. 3, two first planes S1 and two second planes S2 are formed parallel to the central plane S0, the two first planes S1 are respectively disposed on the left and right sides of the central plane S0, the two second planes S2 are respectively disposed on the left and right sides of the two first planes S1, that is, each first plane S1 has a second plane S2 on the side away from the central plane S0, the area between the two first planes S1 is a middle area Z1, and the area between the first plane S1 and the second plane S2 on the same side is an end area Z2. Wherein, the distance between the two first planes S1 is X1, the distance W between the two second planes S2 is the maximum width of the neck space 10 in the left-right direction, 0.4W ≦ X1 ≦ 0.6W, for example, X1 ═ 0.4W, X1 ≦ 0.45W, X1 ═ 0.5W, X1 ═ 0.55W, X1 ≦ 0.6W, and so on.

As shown in fig. 2 and 3, the plurality of vibratory massage units 2 includes a middle massage group 201 and two end massage groups 202. The middle massage group 201 is arranged in the middle zone Z1, and the middle massage group 201 comprises at least three vibrating massage units 2. The two end massage groups 202 are respectively arranged in the end areas Z2 on both sides, and the end massage group 202 comprises at least one vibrating massage unit 2. That is, the middle zone Z1 is provided with at least three vibratory massage units 2, and each end zone Z2 is provided with at least one vibratory massage unit 2. This ensures that the vibration massage units 2 in the middle zone Z1 are more numerous, and the muscles of the neck of the human body facing this zone are numerous, so that the massage effect can be enhanced by the large number of vibration massage units 2.

It should be noted that the phrase "the middle massage group 201 is provided in the middle zone Z1" means that half or more than half of the root portion of any one of the vibratory massage units 2 in the middle massage group 201 is located in the middle zone Z1. "the end massage group 202 is provided in the end zone Z2" means that more than half of the root of any one of the vibratory massage units 2 in the end massage group 202 is located in the end zone Z2. Here, the "root portion of the vibratory massage unit 2" refers to an end portion of the vibratory massage unit 2 connected to the wearing bracket 1, i.e., an end portion of the vibratory massage unit 2 on a side away from the neck-surrounding space 10. More specifically, for any one of the vibratory massage units 2, if half or more than half of its root is located in the middle zone Z1, the vibratory massage unit 2 belongs to the middle massage group 201, and if more than half of its root is located in the end zone Z2, the vibratory massage unit 2 belongs to the end massage group 202.

As shown in fig. 3 and 4, the mounting angle of at least one of the vibrating massage units 2 in the end massage group 202 is greater than the mounting angle of any of the vibrating massage units 2 in the middle massage group 201, that is, the mounting angle of one, or some, or all (i.e., each) of the vibrating massage units 2 in the end massage group 202 is greater than the mounting angle of any of the vibrating massage units 2 in the middle massage group 201. From this, the mounting angle of the vibration massage unit 2 of middle zone Z1 is all comparatively mild, and the mounting angle of at least one vibration massage unit 2 of tip zone Z2 is comparatively inclined to can accord with human neck profile shape, make each vibration massage unit 2 all with the better laminating of human neck, realize more effective vibration massage effect.

It should be noted that the installation angle is an angle between the central axis of the vibration massage unit 2 and the central plane S0. Among them, the "central axis of the vibratory massage unit 2" can be understood as: the vibrating massage unit 2 extends from the wearing bracket 1 to the axial direction around the neck space 10, for example, in some examples, the vibrating massage unit 2 includes a connecting portion 204 in a column shape, the connecting portion 204 is connected to the wearing bracket 1, and the central axis of the connecting portion 204 is the central axis of the vibrating massage unit 2.

Most of the neck massage apparatuses in the related art are provided with static massage heads and have a multi-purpose electric stimulation function to perform massage, but the present invention is to provide a vibration massage unit 2 on a wearing bracket 1 of the neck massage apparatus 100 and provide a plurality of vibration massage units 2 to perform massage through a vibration function, wherein the attachment of the plurality of vibration massage units 2 to the neck of a human body is a design difficulty of the neck massage apparatus 100.

When the neck massage apparatus 100 according to the embodiment of the present invention is worn, since the middle zone Z1 corresponds to the flat zone of the back side of the neck of the human body and the flat zone has a large number of muscles, at least three vibration massage units 2 are provided in the middle zone Z1, and the large number of vibration massage units 2 massage the large number of muscles of the back side of the neck of the human body, thereby improving the massage effect. And the mounting angle of the at least three vibrating massage units 2 is less than the mounting angle of at least one vibrating massage unit 2 in the end massage group 202, so that the mounting angle can be gentle, the mounting angle can be well attached to the flat area at the rear side of the neck of the human body, and the massage effect on the flat area at the rear side of the neck of the human body can be further improved.

And the tip region Z2 corresponds the great side position of human neck radian, sets up to installation angle great through at least one vibration massage unit 2 with tip region Z2 to can with the better laminating of the great side position of human neck radian, and then play effectual vibration massage effect to the great side position of human neck radian. Moreover, the end region Z2 is closer to the aorta of the neck than the middle region Z1, and is not suitable for arranging too many vibrating massage units 2, so that at least one vibrating massage unit 2 is arranged in the end region Z2, so that the number of the vibrating massage units 2 in the end region Z2 can be set according to the characteristics of the neck of the human body, and a better massage effect can be achieved for the side position with a large radian of the neck of the human body.

In addition, under some specific conditions, set up the installation angle of at least one vibration massage unit 2 of tip region Z2 to great, can with the great side position of human neck radian better laminating to can play centre gripping, parcel effect to a certain extent to the great side position of human neck both sides radian, promote the steadiness that the user wore.

For example, in the specific example shown in fig. 2 and 4, each end massage group 202 comprises a first vibratory massage unit 21 and a second vibratory massage unit 22, and the middle massage group 201 comprises two third vibratory massage units 23, two fourth vibratory massage units 24 and a fifth vibratory massage unit 25. Of course, the configurations of the end massage group 202 and the middle massage group 201 are not limited thereto, and this example is intended to be illustrative, to clearly describe that "the mounting angle of at least one of the vibratory massage units 2 in the end massage group 202 is greater than the mounting angle of any of the vibratory massage units 2 in the middle massage group 201", and should not be construed as limiting the configurations of the end massage group 202 and the middle massage group 201.

Referring to fig. 4, it may be that the mounting angle a1 of the first vibratory massage unit 21 is greater than each of the mounting angle A3 of the third vibratory massage unit 23, the mounting angle a4 of the fourth vibratory massage unit 24, and the mounting angle a5 of the fifth vibratory massage unit 25. It is also possible that the mounting angle a2 of the second vibratory massage unit 22 is greater than each of the mounting angle A3 of the third vibratory massage unit 23, the mounting angle a4 of the fourth vibratory massage unit 24, and the mounting angle a5 of the fifth vibratory massage unit 25. It is also possible that the mounting angle a1 of the first vibratory massage unit 21 is greater than each of the mounting angle A3 of the third vibratory massage unit 23, the mounting angle a4 of the fourth vibratory massage unit 24, and the mounting angle a5 of the fifth vibratory massage unit 25, while the mounting angle a2 of the second vibratory massage unit 22 is also greater than each of the mounting angle A3 of the third vibratory massage unit 23, the mounting angle a4 of the fourth vibratory massage unit 24, and the mounting angle a5 of the fifth vibratory massage unit 25.

In some embodiments of the present invention, as shown in fig. 4, the mounting angle of the vibratory massage unit 2 of the end massage group 202, which is farthest from the center plane S0, is greater than the mounting angle of any of the vibratory massage units 2 of the middle massage group 201. Note that the "distance between the vibratory massage unit 2 and the center plane S0" means: the distance between the root of the vibrating massage unit 2 and the center plane S0 along the length of the wearing bracket 1. For example, the first vibratory massage unit 21 shown in fig. 4 is the vibratory massage unit 2 farthest from the center plane S0 in the end massage group 202, and the mounting angle a1 of the first vibratory massage unit 21 is greater than the mounting angle A3 of the third vibratory massage unit 23, and greater than the mounting angle a4 of the fourth vibratory massage unit 24, and greater than the mounting angle a5 of the fifth vibratory massage unit 25.

From this explanation, two vibration massage unit 2 apart from the midplane S0 farthest among all vibration massage unit 2, or, be close to the installation angle of wearing two vibration massage unit 2 at support 1 both ends great, comparatively slope to can laminate better with the great side position of human neck both sides radian, play more effective massage effect, and promote centre gripping, parcel effect to a certain extent, make the user wear more comfortablely, more firm.

It should be noted that in the embodiment of the present invention, the two end massage groups 202 may be symmetrically disposed about the central plane S0, or substantially symmetrically disposed. However, the present invention is not limited thereto, and in other embodiments of the present invention, the two end massage groups 202 may not be symmetrically disposed about the center plane S0, but either end massage group 202 needs to satisfy the definition of the end massage group 202 of the present application.

In some embodiments of the present invention, as shown in fig. 4, the end massage group 202 includes at least two vibratory massage units 2, and the mounting angle of the vibratory massage unit 2 in the end massage group 202, which is farthest from the center plane S0, is greater than the mounting angle of any of the remaining vibratory massage units 2 in the end massage group 202. That is, of all the vibratory massage units 2 of the end massage group 202, the mounting angle of the vibratory massage unit 2 farthest from the center plane S0 is largest. The mounting angle a1 of the first vibratory massage unit 21 is greater than the mounting angle a2 of the second vibratory massage unit 22 as shown in fig. 4, for example.

From this, can laminate better with the great side position of human neck both sides radian, play more effective massage effect, and promote the centre gripping to a certain extent, the parcel effect, make the user wear more comfortable, more firm, and guarantee that the inclination of the regional Z2 vibration massage unit 2 who is close to middle zone Z1 position of tip is little, can correspond human neck rear side both sides radian little region, thereby adapt to human neck profile better, realize laminating better, further promote massage effect.

In some embodiments of the present invention, as shown in fig. 4, the end massage group 202 includes at least two vibratory massage units 2, and the mounting angle of at least one of the vibratory massage units 2 of the end massage group 202, except for the vibratory massage unit 2 farthest from the center plane S0, is greater than the mounting angle of any of the vibratory massage units 2 of the middle massage group 201. That is, regardless of whether the mounting angle of the vibratory massage unit 2 (e.g., the first vibratory massage unit 21 shown in fig. 4) farthest from the center plane S0 in the end massage group 202 is larger than the mounting angle of any of the vibratory massage units 2 in the middle massage group 201, the mounting angle of at least one of the other vibratory massage units 2 (e.g., the second vibratory massage unit 22 shown in fig. 4) in the end massage group 202 is larger than the mounting angle of any of the vibratory massage units 2 in the middle massage group 201. From this, can with the side position that the radian is little to human neck both sides better laminating, play effectual massage effect to promote centre gripping, parcel effect to a certain extent, make the user wear more comfortable, more firm.

In some embodiments of the present invention, as shown in fig. 3 and fig. 4, a third plane S3 parallel to the central plane S0 is formed between the first plane S1 and the second plane S2 on the same side, a region between the second plane S2 and the third plane S3 on the same side is a first end region Z21, and a region between the first plane S1 and the third plane S3 on the same side is a second end region Z22, wherein a distance between the two third planes S3 is X2, 0.6W < X2 ≦ 0.75W, for example, X2 ═ 0.61W, X1 ≦ 0.65W, X1 ═ 0.7 ≦ 0.7W, X1 ═ 0.75W, and so on.

As shown in fig. 3 and 4, in some embodiments, the massage tip group 202 includes the vibratory massage units 2 (e.g., the first vibratory massage unit 21 shown in fig. 4) located in the first end region Z21, i.e., half or more than half of the root of at least one vibratory massage unit 2 in the massage tip group 202 is located in the first end region Z21. Therefore, the massage head can be well attached to the side edge positions with large radian at two sides of the neck of a human body, the massage effect is effectively achieved, and the clamping and wrapping effects are improved to a certain extent.

For example, in some embodiments, the mounting angle of any one of the vibratory massage units 2 located in the first end region Z21 is greater than the mounting angle of any one of the vibratory massage units 2 in the middle massage group 201. Therefore, the massage head can be well attached to the side edge positions with large radian at two sides of the neck of a human body, the massage effect is effectively achieved, and the clamping and wrapping effects are improved to a certain extent.

For example, in some specific examples, in the end massage group 202, the vibration massage unit 2 farthest from the central plane S0 may be located in the first end region Z21, so as to better fit the side position with larger curvature on both sides of the neck of the human body, thereby achieving effective massage effect and enhancing the holding and wrapping effect to some extent.

For example, in some specific examples, the end massage group 202 includes the vibratory massage units 2 located at the first end region Z21, and the mounting angle of any of the vibratory massage units 2 located at the first end region Z21 is 30 ° to 60 °, e.g., 30 °, 35 °, 40 °, 45 °, 50 °, 55 °, 60 °, and so on. From this, the vibration massage unit 2 that is located first end region Z21 can be relative with the great side position of human neck both sides radian, sets up to great 30 ~ 60 through the installation angle with the vibration massage unit 2 in this region to can play with the better laminating effect in this position of human neck, promote massage effect, and promote centre gripping, parcel effect to a certain extent, make the user wear more comfortablely, more firm.

In some embodiments, as shown in fig. 3 and 4, the end massage group 202 includes vibratory massage units 2 (e.g., the second vibratory massage unit 22 shown in fig. 4) located in the second end region Z22, i.e., more than half of the root of at least one vibratory massage unit 2 in the end massage group 202 is located in the second end region Z22. Therefore, the massage head can be attached to the side positions with slightly smaller radian at two sides of the neck of the human body, and massage on the side positions with slightly smaller radian at two sides of the neck of the human body is realized.

For example, in some embodiments, the mounting angle of any one of the vibratory massage units 2 located in the second end region Z22 is greater than the mounting angle of at least one of the vibratory massage units 2 in the middle massage group 201. From this, can guarantee that the inclination that corresponds with the little side position of human neck both sides radian is great with vibration massage unit 2 to realize better and neck laminating, and play centre gripping, parcel effect to a certain extent, and thus can realize effective massage to the little side position of human neck both sides radian.

For example, in some specific examples, the mounting angle of any one of the vibratory massage units 2 located in the second end region Z22 is greater than the mounting angle of any one of the vibratory massage units 2 in the middle massage group 201. From this, can guarantee better that the inclination that corresponds with the little side position of human neck both sides radian is great with vibration massage unit 2 to realize better and the neck laminating, and play centre gripping, parcel effect to a certain extent, thereby can realize effective massage to the little side position of human neck both sides radian.

For example, in some specific examples, the end massage group 202 includes the vibratory massage units 2 located in the second end zone Z22, and the mounting angle of any of the vibratory massage units 2 located in the second end zone Z22 is 15 ° to 30 °, e.g., 15 °, 19 °, 23 °, 27 °, 30 °, and so on. From this, the vibration massage unit 2 that is located the regional Z22 of second end can be relative with the little side position of human neck both sides radian, sets up to little 15 ~ 30 through the installation angle with the vibration massage unit 2 in this region to can play with the better laminating effect in this position of human neck, promote massage effect, and form certain clamping action, make the user wear more comfortable, more firm.

In some embodiments of the present invention, as shown in fig. 3 and 4, the massage-tip set 202 includes the vibratory massage unit 2 located in the first end zone Z21 and the vibratory massage unit 2 located in the second end zone Z22, and the installation angle of any vibratory massage unit 2 located in the first end zone Z21 is greater than the installation angle of any vibratory massage unit 2 located in the second end zone Z22. The mounting angle a1 of the first vibratory massage unit 21 is greater than the mounting angle a2 of the second vibratory massage unit 22 as shown in fig. 4, for example.

From this, can guarantee that the inclination that is located the regional Z21 vibration massage unit 2 of first end is great to can with the great side position of human neck both sides radian better laminating, promote massage effect, and promote centre gripping, parcel effect to a certain extent, make the user wear more comfortable, more firm.

In some embodiments of the utility model, as shown in fig. 3 and 4, the angle between any of the vibratory massage units 2 located in the first end zone Z21 and any of the vibratory massage units 2 located in the second end zone Z22 is greater than the angle between any of the vibratory massage units 2 located in the second end zone Z22 and any of the vibratory massage units 2 in the middle massage group 201. For example, as shown in fig. 4, the angle β 1 between the first vibratory massage unit 21 located in the first end zone Z21 and the second vibratory massage unit 22 located in the second end zone Z22 is greater than the angle β 2 between the second vibratory massage unit 22 located in the second end zone Z22 and the fifth vibratory massage unit 25 of the middle massage group 201, which is mounted at the smallest angle. It should be noted that the included angle between the two vibrating massage units 2 refers to the included angle between the central axes of the two vibrating massage units 2.

From this, can further guarantee that the inclination that is located the regional Z21 vibration massage unit 2 of first end is great to can with the great side position of human neck both sides radian better laminating, promote massage effect, and promote centre gripping, parcel effect to a certain extent, make the user wear more comfortable, more firm.

It should be noted that, according to the neck massage apparatus 100 of the embodiment of the present invention, the vibration massage unit 2 with the largest installation angle may be the vibration massage unit 2 farthest from the central plane S0, or may be the other vibration massage units 2 in the end massage group 202, or may be the vibration massage units 2 with the same installation angle of each vibration massage unit 2 in the end massage group 202, and all the vibration massage units 2 with the largest installation angle. Also, in other embodiments of the present invention, each end massage group 202 may include only one vibratory massage unit 2. Alternatively, the massage tip set 202 may comprise only at least one vibratory massage unit 2 located in the first tip zone Z21, and not the vibratory massage unit 2 located in the second tip zone Z22. Still alternatively, the massage-tip set 202 may comprise only at least one vibratory massage unit 2 located in the second tip zone Z22, and not the vibratory massage unit 2 located in the first tip zone Z21, and so on.

In some embodiments of the present invention, as shown in fig. 4, the installation angle of any one of the vibrating massage units 2 in the middle massage group 201 is 0 ° to 30 °, for example, 0 °, 5 °, 10 °, 15 °, 20 °, 25 °, 30 °, and so on. From this, can guarantee that middle zone Z1's vibration massage unit 2's installation angle is less, and inclination is comparatively mild to can adapt to the flat region of neck profile rear side, the laminating is effectual, thereby promotes massage effect.

Further, the installation angle of any one of the vibrating massage units 2 in the middle massage group 201 is 0 ° to 15 °, for example, 0 °, 5 °, 10 °, 15 °, and so on. From this, can guarantee that middle zone Z1's vibration massage unit 2's installation angle is less, and inclination is comparatively mild to can adapt to the flat region of neck profile rear side, the laminating is effectual, thereby promotes massage effect. Still further, the maximum mounting angle of any one of the vibrating massage units 2 in the middle massage group 201 may be 11 ° to 15 °, for example, 11 °, 12 °, 13 °, 14 °, 15 °, and so on, that is, the mounting angle of any one of the vibrating massage units 2 in the middle massage group 201 is not more than 11 ° to 15 ° at most. Therefore, the installation angle of the vibration massage unit 2 of the middle area Z1 can be better ensured not to be too large, the inclination angle is more gentle, the neck contour rear side flat area can be better adapted, the attaching effect is better, and the massage effect is improved.

In some embodiments of the present invention, as shown in fig. 4, the middle massage group 201 includes vibratory massage units 2 located on at least one of the left and right sides of the center plane S0, that is, at least one vibratory massage unit 2 of the middle massage group 201 is located on one side (left or right side as shown in fig. 4) of the center plane S0. Alternatively, at least one vibratory massage unit 2 of the intermediate massage group 201 is not located on the central plane S0. Therefore, the massage of the middle massage group 201 can be obtained by ensuring that the back side of the neck of the human body is positioned in at least one side area of the left side and the right side of the cervical vertebra, so that the massage effect is improved.

In some embodiments of the present invention, as shown in fig. 4, the mounting angle of any one of the vibratory massage units 2 (e.g., the third vibratory massage unit 23 and the fourth vibratory massage unit 24 shown in fig. 4) located on one side (left or right side as shown in fig. 4) of the center plane S0 in the middle massage group 201 is 10 ° to 30 °. From this, can guarantee that the inclination angle of the regional relative vibration massage unit 2 of at least one side that is located in the cervical vertebra left and right sides with human neck rear side is comparatively gentle, vibration massage unit 2 can be comparatively laminated with this region of neck to promote massage effect.

In some embodiments of the present invention, as shown in fig. 4 and 5, the middle massage group 201 comprises at least one symmetrical pair of cells, one symmetrical pair of cells comprising two vibrating massage units 2 arranged in bilateral symmetry about the central plane S0. For example, as shown in fig. 4 and 5, in the middle massage group 201, the third vibratory massage units 23 are two and bilaterally symmetric about the center plane S0, designated as a first symmetric unit pair 2A, and in the middle massage group 201, the fourth vibratory massage units 24 are two and bilaterally symmetric about the center plane S0, designated as a second symmetric unit pair 2B. When the cervical vertebra massager is worn, the central plane S0 approximately corresponds to the position of the cervical vertebra of a human body, and the two vibration massage units 2 which are symmetrically arranged left and right relative to the central plane S0 approximately aim at muscles on two sides of the cervical vertebra, so that the regions, positioned on the left and right sides of the cervical vertebra, on the rear side of the neck of the human body can be ensured to obtain the massage of the middle massage group 201, and the massage effect is improved.

In some embodiments of the utility model, as shown in fig. 4 and 5, the middle massage group 201 comprises a plurality of symmetrical unit pairs, and at least two symmetrical unit pairs are spaced apart in the height direction of the wearing frame 1. Wherein the "height direction" refers to the up-down direction of the human body (up-down direction as shown in fig. 5) when the user wears the neck massager 100. For example, in the example shown in fig. 4 and 5, the two third vibratory massage units 23 are the first symmetrical unit pair 2A, the two fourth vibratory massage units 24 are the second symmetrical unit pair 2B, and the first symmetrical unit pair 2A and the second symmetrical unit pair 2B are arranged at a distance in the height direction. Therefore, the region of the back side of the neck of the human body, which is positioned in the certain height range of the left side and the right side of the cervical vertebra, can obtain the massage of the middle massage group 201, thereby improving the massage effect.

In some embodiments of the present invention, as shown in fig. 4 and 5, the distance between two vibratory massage units 2 in one symmetrical unit pair is a unit pitch, wherein the unit pitch of each symmetrical unit pair is smaller than that of any symmetrical unit pair below the symmetrical unit pair in a plurality of symmetrical unit pairs arranged at intervals in the height direction of the wearing frame 1. That is, in the height direction of the wearable stand 1, the unit pitch of the upper symmetrical unit pair is smaller, and the unit pitch of the lower symmetrical unit pair is larger. Therefore, the arrangement of the symmetrical unit pairs in the middle massage group 201 accords with the distribution trend of muscles on the back side of the neck of the human body, and the massage effect of the region can be improved.

For example, in the example shown in fig. 4 and 5, the cell pitch of the first symmetric cell pair 2A is L1, the cell pitch of the second symmetric cell pair 2B is L2, the first symmetric cell pair 2A is located above the second symmetric cell pair 2B, and the cell pitch L1 of the first cell pair is smaller than the cell pitch L2 of the second cell pair below it. For another example, the middle massage group 201 further includes a third symmetric unit pair located below the second symmetric unit pair 2B, and the unit interval of the third symmetric unit pair is L3, such that L1 < L2 < L3, and so on.

In some embodiments of the present invention, as shown in fig. 4 and 5, at least one vibratory massage unit 2 (e.g., the fifth vibratory massage unit 25 shown in fig. 5) of the middle massage group 201 is located on the center plane S0. That is, the center plane S0 passes through at least one vibratory massage unit 2 in the middle massage set 201. Therefore, the back cervical vertebra area of the neck of the human body can be ensured to obtain the massage of the middle massage group 201, and the massage effect is improved.

For example, in the specific example shown in fig. 4 and 5, the mounting angle of any one of the vibratory massage units 2 (e.g., the fifth vibratory massage unit 25 shown in fig. 5) located on the center plane S0 is 0 ° to 3 °, and may be, for example, 0 °, 1 °, 2 °, 3 °, and so on. Therefore, the inclination angle of the vibration massage unit 2 on the central plane S0 is ensured to be small, and the central axis of the vibration massage unit is parallel or approximately parallel to the central plane S0, so that the vibration massage unit can correspond to the cervical vertebra of a human body, keep the flat pasting of the cervical vertebra, and play a targeted massage effect on the cervical vertebra.

In some embodiments of the present invention, as shown in fig. 4 and 5, one of the vibratory massage units 2 (e.g., the fifth vibratory massage unit 25 shown in fig. 5) located on the center plane S0 is lower than any of the remaining vibratory massage units 2 of the entire vibratory massage units 2 in the height direction of the wearing frame 1. For example, in the example shown in fig. 4 and 5, the fifth vibratory massage unit 25 is included in the middle massage group 201 on the center plane S0, and the fifth vibratory massage unit 25 is the lowermost vibratory massage unit 2 among all the vibratory massage units 2 in the height direction in which the frame 1 is worn. Therefore, the vibration massage unit 2 can be closer to the position of the cervical vertebra needing massage, thereby further improving the whole massage effect.

For example, in the example shown in fig. 5, the highest point of the fifth vibratory massage unit 25 may be lower than the height centerline L of the wearable bracket 1 at the position of the center plane S0, thereby further ensuring that the height of the fifth vibratory massage unit 25 is lower to better approach the position of the cervical vertebrae to be massaged, thereby further improving the overall massage effect.

In some embodiments of the present invention, as shown in fig. 4 and 5, the massage face of one of the vibratory massage units 2 located on the center plane S0, which is lower than the vibratory massage unit 2 of any of the remaining vibratory massage units 2 among the whole vibratory massage units 2 in the height direction of the wearing frame 1 (e.g., the fifth vibratory massage unit 25 shown in fig. 5), is projected toward the center direction (e.g., the front side shown in fig. 4) near the neck space 10 than the massage face of the remaining at least one vibratory massage unit 2 among the middle massage group 201, i.e., the lowermost vibratory massage unit 2 on the center plane S0 is projected toward the center direction around the neck space 10 than the remaining at least one vibratory massage unit 2 among the middle massage group 201. As shown in fig. 4, for example, the massage face of the fifth vibratory massage unit 25 projects forwardly of the massage face of the remaining at least one vibratory massage unit 2 of the middle massage group 201.

When the massage head is worn, the lowermost vibration massage unit 2 (such as the fifth vibration massage unit 25 shown in fig. 5) is located at the lowermost part of the wearing support 1, the lowermost part of the wearing support 1 is easily attached to the neck, even the lowermost vibration massage unit 2 is tilted, and the situation that the attachment is not good may occur, at this time, because the lowermost vibration massage unit 2 (such as the fifth vibration massage unit 25 shown in fig. 5) is set to protrude towards the direction around the center of the neck space 10, the situation that the attachment is not good can be effectively avoided, and the vibration massage unit 2 (such as the fifth vibration massage unit 25) is ensured to be always attached to the neck, so that the massage effect is ensured. Alternatively, in some embodiments of the present invention, the vibrating massage unit 2 (e.g., the fifth vibrating massage unit 25 shown in fig. 5) may be in a pre-compressed state under the traction of the overall gravity of the neck massager 100 during wearing, so as to better fit the neck.

In a specific example, as shown in fig. 4 and 5, the lowest vibratory massage unit 2 on the center plane S0 is convex toward the center of the neck space 10 compared to any of the remaining vibratory massage units 2 in the middle massage group 201, that is, the lowest vibratory massage unit 2 on the center plane S0 is the most convex in the middle massage group 201. As shown in fig. 4, for example, the massage face of the fifth vibratory massage unit 25 is convex forward compared to the massage face of each of the remaining vibratory massage units 2 in the middle massage group 201. Therefore, the fitting effect of the vibration massage unit 2 (such as the fifth vibration massage unit 25) to the neck can be better ensured when the massage device is worn.

In some embodiments of the present invention, as shown in fig. 4 and 5, the massage face of any one of the vibrating massage units 2 in the middle massage group 201 is convex toward the center near the neck-surrounding space 10 compared to the massage face of any one of the vibrating massage units 2 above it. That is, the massage surface of the vibrating massage unit 2 which is located more upward is farther from the center of the cervical space 10, and the massage surface of the vibrating massage unit 2 which is located more downward is closer to the center of the cervical space 10. For example, in the example shown in fig. 4 and 5, the third vibratory massage unit 23 is higher than the fourth vibratory massage unit 24, the fourth vibratory massage unit 24 is higher than the fifth vibratory massage unit 25, the fifth vibratory massage unit 25 protrudes forward from the fourth vibratory massage unit 24, and the fourth vibratory massage unit 24 protrudes forward from the third vibratory massage unit 23.

From this, when can avoiding wearing, the perk appears in middle massage group 201, the not good condition of laminating, through set up middle massage group 201 to protrusion forward gradually from the top down to can guarantee that each vibration massage unit 2 of middle massage group 201 all keeps the laminating state with the neck all the time, guarantee massage effect.

In some embodiments of the present invention, as shown in fig. 5, the middle massage group 201 includes five vibratory massage units 2, and the five vibratory massage units 2 in the middle massage group 201 are spaced around the height center point of the wearing bracket 1 at the center plane S0. For example, in the example shown in fig. 5, the intermediate massage group 201 comprises: two third vibratory massage units 23, two fourth vibratory massage units 24 and one fifth vibratory massage unit 25, the five vibratory massage units 2 being arranged circularly around the center point of the wearing bracket 1. Therefore, the back area of the neck of the human body can be comprehensively massaged, and the massage effect is improved.

Further, as shown in fig. 4 and 5, two third vibratory massage units 23 may be disposed in bilateral symmetry about the center plane S0, two fourth vibratory massage units 24 may be disposed in bilateral symmetry about the center plane S0, the unit pitch of the two third vibratory massage units 23 is smaller than the unit pitch of the two fourth vibratory massage units 24, and the fifth vibratory massage unit 25 is located on the center plane S0. The third vibratory massage unit 23 is higher than the fourth vibratory massage unit 24, the fourth vibratory massage unit 24 is higher than the fifth vibratory massage unit 25, the fifth vibratory massage unit 25 protrudes forwards from the fourth vibratory massage unit 24, and the fourth vibratory massage unit 24 protrudes forwards from the third vibratory massage unit 23.

It should be noted that, according to the neck massage apparatus 100 of the embodiment of the present invention, the number of the vibration massage units 2 included in the middle massage group 201 is not limited, and may be more than 5 or less than 5, and the vibration massage units 2 are not limited to the arrangement, for example, only the vibration massage units 2 located on the central plane S0 may be provided, for example, only the vibration massage units 2 located on both sides of the central plane S0 may be provided, and the vibration massage units 2 located on both sides of the central plane S0 may also be asymmetrically arranged, and so on.

In some embodiments of the present invention, as shown in fig. 2 and 3, the vibrating massage unit 2 (the first vibrating massage unit 21 shown in fig. 2) of the end massage group 202, which is farthest from the center plane S0, is higher than any of the remaining vibrating massage units 2 of all the vibrating massage units 2 (i.e., of the middle massage group 201 and the end massage group 202) in the height direction of wearing the cradle 1. That is, the vibration massage unit 2 farthest from the center plane S0 in the end massage group 202 is the vibration massage unit 2 that is the uppermost in the height direction in which the cradle 1 is worn, of all the vibration massage units 2. From this, accord with human neck profile more, can be closer to the great side position of human neck both sides radian, play more to massage effect to form more effectual clamping action, make the user wear more comfortable, more firm.

In some embodiments of the utility model, as shown in fig. 2 and 3, at least one vibratory massage unit 2 in the end massage group 202 (the second vibratory massage unit 22 as shown in fig. 2) is higher than at least one vibratory massage unit 2 in the middle massage group 201 in the height direction of wearing the support 1, and is lower than at least one vibratory massage unit 2 in the middle massage group 201 at the same time. That is, at least one vibratory massage unit 2 in the middle massage group 201 is higher than one vibratory massage unit 2 in the end massage group 202 (the second vibratory massage unit 22 as shown in fig. 5), while at least one vibratory massage unit 2 in the middle massage group 201 is lower than the vibratory massage unit 2 in the end massage group 202 (the second vibratory massage unit 22 as shown in fig. 5). Therefore, the end part region Z2 can be ensured to have some vibration massage units 2 to massage the central position region of the two sides of the neck, thereby improving the whole massage effect.

In some embodiments of the utility model, as shown in fig. 4 and 5, the total number of vibrating massage units 2 in the end massage group 202 is less than the total number of vibrating massage units 2 in the middle massage group 201. Therefore, according to the neck massage apparatus 100 of the embodiment of the present invention, the end massage group 202 may be a sparse region with a small number of vibration massage units 2, the middle massage group 201 may be a dense region with a large number of vibration massage units 2, the dense region corresponds to a middle region with a flat neck, and there are many muscles in the middle region, the dense distribution of the vibration massage units 2 may enhance the massage effect, the experience is better, the sparse region is located at two sides of the dense region, and corresponds to a side region where the front neck and the back neck transition, and the region is a region where the aorta is located, and has dense nerves and is not suitable for over stimulation, and the small number of vibration massage units 2 play a role in protecting the human body, thereby ensuring the use safety.

For example, in some specific examples, the total number of the vibrating massage units 2 in the middle massage group 201 is greater than or equal to 5, such as 5, 6, 7, 8, etc., and the total number of the vibrating massage units 2 in the end massage group 202 is 1 to 2. Therefore, the massage effect of the compact area corresponding to the middle area with the flatter neck can be ensured, and meanwhile, the sparse area can play an effective clamping and protecting role on the area where the aorta is located.

In some embodiments of the present invention, as shown in fig. 4 and 5, the sum of the massage areas of the vibratory massage units 2 in the end massage group 202 is smaller than the sum of the massage areas of the vibratory massage units 2 in the middle massage group 201. Therefore, according to the neck massage apparatus 100 of the embodiment of the present invention, the end massage group 202 may be a sparse region with a smaller total massage area of the vibration massage unit 2, the middle massage group 201 may be a dense region with a larger total massage area of the vibration massage unit 2, the dense region corresponds to a middle region with a flatter neck, and there are more muscles in the middle region, the dense distribution of the vibration massage unit 2 may enhance the massage effect, and the experience is better, the sparse region is located at two sides of the dense region, and corresponds to a side region where the front neck and the back neck transition, and the region is a region where the aorta is located, and nerves are dense, which is not suitable for over stimulation, and the vibration massage unit 2 with a smaller number plays a role in protecting the human body, thereby ensuring the use safety.

In some embodiments of the present invention, as shown in fig. 4 and 5, the spacing between any adjacent two of the vibratory massage units 2 in the end massage group 202 is greater than the spacing between any adjacent two of the vibratory massage units 2 in the middle massage group 201. Therefore, according to the neck massage apparatus 100 of the embodiment of the present invention, the end massage groups 202 may be sparse regions with large distance between the vibration massage units 2, the middle massage groups 201 may be dense regions with small distance between the vibration massage units 2, the dense regions correspond to the middle regions with flat neck, there are more muscles in the middle regions, the dense distribution of the vibration massage units 2 can enhance the massage effect, the experience is better, the sparse regions are located at two sides of the dense regions, and correspond to the side regions where the front neck and the back neck transition, the regions are regions where the aorta is located, nerves are dense, are not suitable for over stimulation, the vibration massage units 2 with small number play a role in protecting the human body, and the use safety is ensured.

In some embodiments of the present invention, as shown in fig. 6 and 7, the wearing frame 1 includes a middle frame 11 and two clip arm frames 12, the two clip arm frames 12 are respectively connected to the left and right ends of the middle frame 11, the middle frame 11 includes a middle portion 111 and two end heads 112, the middle portion 111 is located in a middle region Z1, the two end heads 112 are respectively located in two end regions Z2, the middle massage set 201 is located in the middle portion 111, the end massage set 202 is located in the end heads 112, and the maximum height of the middle portion 111 is greater than the maximum height of the end heads 112. Therefore, the shape of the wearing bracket 1 can meet the setting requirements of the end massage group 202 and the middle massage group 201, and also can meet the contour shape of the neck of a human body, so that the weight and the material of the wearing bracket 1 are reduced as much as possible, the cost is reduced, and the wearing comfort of a user is improved.

In some embodiments of the utility model, as shown in figure 7, the height of the intermediate bracket 11 decreases progressively in the direction from the central plane S0 to the clamp arm bracket 12. That is, the height of the middle frame 11 is gradually reduced from the middle to both ends, so that the area of the middle part 111 of the middle frame 11 can be larger, and thus, in some examples, the middle massage group 201 including a larger number of vibration massage units 2 can be arranged by using the middle part 111 to form a dense area, so as to ensure that sufficient interference-proof gaps are left between adjacent vibration massage units 2 in the dense area, avoid mutual interference collision when the vibration massage units 2 vibrate, enlarge the massage area of the middle part of the neck, and improve the massage effect.

In some embodiments of the present invention, as shown in fig. 7, the upper end edge of the intermediate bracket 11 is configured as a central concave curve. Therefore, the neck contour shape of the user can be conformed, so that the user can wear the neck contour shape more comfortably, and the material and the weight can be saved. In some embodiments of the present invention, as shown in fig. 7, the lower end edge of the middle bracket 11 is configured as a middle downward convex curve. Therefore, the neck contour shape of the user can be met, the vibration massage unit 2 can be correspondingly arranged on the neck and the part below the neck, the massage area is expanded, and the whole massage effect is improved.

In some embodiments of the present invention, as shown in fig. 5, the massage face of each vibratory massage unit 2 is a circular face having a diameter D, and the height H of the middle support 11 at the center plane S0 is 2D-3D, e.g., 2D, 2.5D, 3D, etc. From this, can guarantee that the quantity of vibration massage unit 2 is unlikely to too many, reduce structure complexity and cost, can also guarantee that the quantity of vibration massage unit 2 is unlikely to too little, guarantee that each vibration massage unit 2 can all have different installation angle separately for each vibration massage unit 2's massage face can all laminate with the user neck better, promotes whole vibration massage effect.

In some embodiments of the present invention, as shown in fig. 8, the vibration massage unit 2 includes a head 203, a connection portion 204, and a vibration device 205, the vibration device 205 is disposed in the head 203, one end of the connection portion 204 is connected to the head 203, and the other end of the connection portion 204 is connected to the wearing bracket 1. Thus, by disposing the vibration device 205 in the head 203, the vibration device 205 can be ensured to be close to the neck of the user, so as to exert a vibration massage effect well and reduce energy consumption.

The connecting portion 204 and the head portion 203 may be integrally formed or may be separately formed and assembled. The connecting portion 204 and at least a portion of the wearing bracket 1 may be integrally formed or separately formed and assembled. Of course, the present invention is not limited thereto, and in other embodiments of the present invention, the vibratory massage unit 2 may further include: at least one of an electrical stimulation massage device, an air bag squeezing massage device, a hot compress massage device, a phototherapy massage device, an aromatherapy massage device, and the like.

In some embodiments of the present invention, as shown in fig. 8, the connecting portion 204 has a cylindrical shape, and may be, but is not limited to, a cylindrical shape, such as a prism shape, and the like. In some embodiments of the present invention, as shown in fig. 8, at least a portion of the connecting portion 204 has a cross-sectional area that is smaller than a cross-sectional area of the vibration device 205. Thus, the vibration device 205 can be restrained by the connection portion 204 so as to prevent the vibration device 205 from separating from the head portion 203.

In addition, when the connecting portion 204 and the head portion 203 are integrally molded, at least a portion of the connecting portion 204 may be elastically deformed, so that the vibration device 205 may be mounted in the head portion 203 by the elastic deformation of the connecting portion 204. When the connecting portion 204 and the head portion 203 are formed as separate parts and are assembled, the vibration device 205 may be first installed in the head portion 203, and then the head portion 203 and the connecting portion 204 may be assembled together.

In some embodiments of the present invention, as shown in fig. 6 and 8, the wearing support 1 has a plurality of flexible bases 13 protruding toward the neck space 10, each of the flexible bases 13 has a groove 131 formed thereon, and one end of the vibration massage unit 2 extends into the corresponding groove 131 and is in clearance fit with the side wall of the groove 131. For example, the end of the connecting portion 204 remote from the head portion 203 shown in fig. 8 extends into the groove 131, and there is a gap P between the outer surface of the connecting portion 204 and the inner side wall 1312 of the groove 131.

From this, through setting up flexible base 13, and set up recess 131 on flexible base 13 to set up recess 131 as with vibration massage unit 2 clearance fit, thereby make vibration massage unit 2 change when the vibration and take place the swing more, ensure that vibration massage unit 2 vibrates occasionally certain swing range, reinforcing massage effect. Also make vibration massage unit 2 have certain angle adjustment space, can follow the activity of adaptation neck when wearing, keep laminating with the neck. Moreover, when connecting portion 204 with wear support 1 and for components of a whole that can function independently formed part and assembly and link to each other, because the one end of vibration massage unit 2 stretches into in the recess 131 to can utilize recess 131 to shelter from effectively and hide vibration massage unit 2 and wear the connecting gap of support 1, play dirt-proof effect, avoid external environment to cause adverse effect to vibration massage unit 2, promote neck massager 100's life.

In some embodiments of the utility model, as shown in fig. 8, the sidewall thickness of the recess 131 is less than the thickness of the bottom wall 1311 of the recess 131. It should be noted that, when the side wall of the groove 131 is a single annular wall, the thickness of the annular wall is smaller than the thickness of the bottom wall 1311 of the groove 131, and when the side wall of the groove 131 includes two annular walls coaxially disposed, the inner annular wall is the inner side wall 1312 of the groove 131, and the outer annular wall is the outer side wall 1313 of the groove 131, at this time, the thickness of the inner annular wall of the inner ring, that is, the inner side wall 1312 of the groove 131, is smaller than the thickness of the bottom wall 1311 of the groove 131, and the thickness of the outer annular wall of the outer ring, that is, the outer side wall 1313 of the groove 131, is also smaller than the thickness of the bottom wall 1311 of the groove 131. Therefore, the side walls of the groove 131 are thinned, so that the wall thickness of the side walls is smaller than that of the bottom wall 1311 of the groove 131, the vibration massage unit 2 is easier to swing when vibrating, a certain swing range is ensured when the vibration massage unit 2 vibrates, and the massage effect is enhanced.

In some embodiments of the present invention, as shown in fig. 8, the sidewalls of the groove 131 are formed with a corrugated structure. It should be noted that when the sidewall of the groove 131 is an annular wall, the annular wall may be formed with a corrugated structure, and when the sidewall of the groove 131 includes two annular walls coaxially disposed, where the annular wall of the inner ring is the inner sidewall 1312 of the groove 131, and the annular wall of the outer ring is the outer sidewall 1313 of the groove 131, at least one of the annular wall of the inner ring and the annular wall of the outer ring is formed with a corrugated structure. This can further enhance the amplitude of the vibration massage unit 2, thereby enhancing the massage effect.

For example, in some specific examples, as shown in fig. 8, the flexible base 13 may be made of silicone, and a plurality of flexible bases 13 may be connected together, for example, the middle support 11 may have a flexible pad thereon, and the flexible pad has a plurality of flexible bases 13 thereon. The number of flexible bases 13 may be the same as the number of vibratory massage units 2. Flexible base 13 is sunken from the top surface to the bottom surface and is formed recess 131, and the root erection joint of vibration massage unit 2 is in recess 131, can effectively shelter from the root of hiding vibration massage unit 2 like this and the connecting gap of middle support 11, plays dustproof effect, avoids the external environment to the influence that neck massage appearance 100 caused, ensures neck massage appearance 100's life.

For example, in some specific examples, as shown in fig. 8, the vibration massage unit 2 may include a head portion 203 and a connection portion 204, one end of the connection portion 204, which is far away from the head portion 203, is connected in the groove 131, a gap P is left between the connection portion 204 and a side wall of the groove 131, that is, an outer diameter of the connection portion 204 is smaller than an inner diameter of the groove 131, so as to form a swing space of the vibration massage unit 2, so that the vibration massage unit 2 is more prone to swing, a certain swing range is ensured when the vibration massage unit 2 vibrates, the massage effect is enhanced, the vibration massage unit 2 also has a certain angle adjustment space, and the vibration massage unit can follow the movement of the neck portion when being worn and keep fit with the neck portion.

The embodiment of the utility model also provides a massage control method of the neck massager, as shown in fig. 9, the massage control method of the neck massager comprises the following steps:

step S102, a first target massage instruction is obtained.

It should be noted that, for convenience of description, when describing the massage control method provided in the present embodiment, some contents are described by taking the neck massage apparatus described in the foregoing embodiment as an example, the neck massage apparatus to which the massage control method of the neck massage apparatus in the present embodiment is applied may include some or all features of the neck massage apparatus described in the foregoing embodiment, but is not limited to the neck massage apparatus described in the foregoing embodiment, and the massage control method provided in the present embodiment may also be applied to neck massage apparatuses of other structures.

For example, in some specific examples, as shown in fig. 2, a control portion may be disposed at both ends or at any end of the wearing frame 1, and the control portion may include a control panel 14, a control circuit board, and the like, wherein the control panel 14 is disposed at a side of the wearing frame 1 away from the neck-surrounding space 10, and may include a press key or a touch key, and the like, and is mainly used for receiving a massage instruction of the user, and the massage instruction may include a massage mode instruction, a massage force instruction, a heat induction temperature instruction, and the like. In other embodiments, the neck massager can be further connected with the mobile terminal in a communication mode and receive the first target massage instruction sent by the mobile terminal.

The control circuit board is arranged in an inner cavity of the wearing bracket 1, and is provided with a storage module, a processing module, a power supply module and the like, wherein the storage module can be a ROM (read only memory), a flash memory and the like and is mainly used for storing a massage control program of the neck massager, data information generated when the neck massager runs and the like; the processing module is used as a control core of the neck massage apparatus, can be composed of a controller and peripheral circuits thereof, and is mainly used for executing a massage control program of the neck massage apparatus to massage a user, and the like, for example, the processing module receives a massage mode instruction of the user through the control panel 14, determines a corresponding target massage instruction according to the massage mode instruction, and then performs vibration control on the vibration massage unit 2 according to the target massage instruction to massage the user.

For example, in some specific examples, the massage mode command may include a slant-up massage mode command or the like, and the processing module, after receiving the massage mode command through the control panel 14, obtains a first target massage command corresponding to the massage mode command, where the first target massage command may include identification information, massage time, massage order, and the like of each of the vibration massage control groups composed of at least some of the aforementioned plurality of vibration massage units 2, and then controls each of the vibration massage units 2 in the vibration massage control group to perform vibration massage according to the first target massage command.

And step S104, controlling the vibration massage units in the single-side massage control group to work in sequence according to the first target massage instruction so as to realize inclined push massage.

According to the massage control method of the neck massage instrument, the single-side massage control group is arranged on one side of the central plane of the wearing support and is obliquely arranged relative to the central plane, and the single-side massage control group comprises the plurality of vibration massage units which are transversely arranged at intervals, so that when the vibration massage units in the single-side massage control group are controlled to sequentially work, the massage effect of obliquely pushing the thumb can be simulated, the real massage effect of a human body is fully matched, the massage force is high, and the oblique pushing massage mode is more in line with the characteristics of neck muscles and structures of the human body, so that the massage feeling can be obvious and the massage effect is good by simulating the oblique pushing massage manipulation of the thumb on the part with the relatively slow neck nerves.

In some embodiments of the present invention, at least a portion of the plurality of vibratory massage units constitutes at least one single-sided massage control group which is located on one side of a center plane of the wearing bracket and is disposed obliquely with respect to the center plane, the single-sided massage control group includes a plurality of vibratory massage units which are disposed at intervals in a lateral direction, and a height of the vibratory massage unit is lower closer to the center plane of the wearing bracket or is higher closer to the center plane of the wearing bracket.

Specifically, as shown in fig. 10, the vibration massage units 21b, 22b, and 24b of the plurality of vibration massage units may constitute a single-side massage control group, or the vibration massage units 21a, 22a, and 24a of the plurality of vibration massage units may constitute a single-side massage control group, such that the height of the vibration massage unit in the single-side massage control group closer to the central plane of the wearing frame is lower.

Alternatively, as shown in fig. 10, the vibration massage units 23b and 24b of the plurality of vibration massage units may constitute a single-side massage control group, or the vibration massage units 23a and 24a of the plurality of vibration massage units may constitute a single-side massage control group, such that the height of the vibration massage unit in the single-side massage control group, which is closer to the central plane of the wearing frame, is higher.

Therefore, the unilateral massage control group is located wear one side of the central plane of support, and relative the central plane slope sets up, and unilateral massage control group includes along a plurality of vibration massage units of horizontal spaced apart setting simultaneously, and the vibration massage unit in control unilateral massage control group carries out the during operation in proper order like this, can simulate out the massage effect that the thumb pushed to one side, and the abundant real massage of human body feels of fitting, and massage effect is good.

Optionally, in some embodiments, the lower the height of the vibratory massage units in the one-sided massage control group that are closer to the center plane of the wearable bracket, the lower the height of the vibratory massage units in the one-sided massage control group are, the lower the edge of the wearable bracket is.

As a specific example, as shown in fig. 11, the vibration massage units 21, 22, and 24 in the single-side massage control groups located on both sides of the central plane are all disposed near the lower edge of the wearable frame, so as to avoid the spinal regions of 1 to 3 human bodies (the position is located in the upper cervical vertebrae and is closer to the head, where the vibration is transmitted to the brain, resulting in resonant dizziness), thereby avoiding the user from getting dizzy, and making the massage strokes distributed in the left and right massage regions, so that the user experiences more clearly in the zoned massage, and the oblique massage effect is better.

Optionally, as an embodiment, the lower the height of the vibratory massage unit in the one-sided massage control group closer to the center plane of the wearable stand, the lower the height of at least one of the one-sided massage control groups, the central vibratory massage unit located on the center plane.

That is, as shown in fig. 10 or 11, the one-side massage control group may include the central vibration massage unit 25 located on the center plane, so that the massage stroke of the diagonal push can be increased to enhance the massage effect of the diagonal push.

Optionally, in some embodiments, the number of the one-sided massage control groups is at least two, and at least one of the one-sided massage control groups is respectively disposed on two sides of the central plane of the wearable bracket.

Specifically, as shown in fig. 10, the number of the one-sided massage control groups is 4, that is, two on the left and right, and on the right side, the vibration massage units 21b, 22b, 24b of the plurality of vibration massage units may constitute one-sided massage control group, and the vibration massage units 23b, 24b of the plurality of vibration massage units may constitute the other one-sided massage control group; on the left side, it may be that the vibratory massage units 21a, 22a, 24a of the plurality of vibratory massage units constitute one single-sided massage control group, and the vibratory massage units 23a, 24a of the plurality of vibratory massage units constitute another single-sided massage control group.

Alternatively, as shown in fig. 11, there are 2 single-side massage control groups, and the vibration massage units 21, 22, and 24 located at the left and right sides of the central plane respectively constitute one single-side massage control group.

All set up unilateral massage control group through the midplane left and right sides, when vibration massage unit combination in the unilateral massage control group about controlling carries out work like this, can simulate out the massage effect that two thumbs pushed obliquely simultaneously, improved massage effect to two vibration massage units of symmetry work simultaneously, the massage dynamics is big, and the massage mode of symmetry more accords with the symmetrical characteristics of human neck muscle and structure, and massage effect is good.

Further, the one-sided massage control groups include a first one-sided massage control group and a second one-sided massage control group respectively located at both sides of the center plane of the wearing bracket as the height of the vibration massage unit closer to the center plane of the wearing bracket is lower, wherein,

the first single-side massage control group and the second single-side massage control group share one central vibration massage unit located on the central plane; alternatively, the first and second electrodes may be,

the first and second single-sided massage control groups do not include a central vibratory massage unit located on the center plane; alternatively, the first and second electrodes may be,

the first one-sided massage control group includes a central vibratory massage unit located on the center plane, and the second one-sided massage control group does not include a central vibratory massage unit located on the center plane.

That is, as shown in fig. 10, the first one-sided massage control group may include the vibratory massage units 21a, 22a, 24a, 25, and the second one-sided massage control group may include the vibratory massage units 21b, 22b, 24b, 25, i.e., the common vibratory massage unit 25; alternatively, the first one-sided massage control group may include the vibratory massage units 21a, 22a, 24a, and the second one-sided massage control group may include the vibratory massage units 21b, 22b, 24 b; still alternatively, the first one-sided massage control group may include vibratory massage units 21a, 22a, 24a, 25 and the second one-sided massage control group may include vibratory massage units 21b, 22b, 24 b.

Therefore, when the vibration massage units in the first and second unilateral massage control groups are controlled to work in sequence, the massage stroke can be performed in the left massage area and the right massage area, the partitioned massage is realized, and the oblique massage effect is more obvious.

Optionally, in some embodiments, controlling the vibrating massage units in the one-sided massage control group to work sequentially includes: controlling the vibration massage units in the single-side massage control group to work in sequence along the direction far away from the central plane; or the vibration massage units in the single-side massage control group are controlled to work in sequence along the direction close to the central plane.

Therefore, the massage device can realize the massage of the two sides by respectively rotating in an obliquely upward or downward direction, can simulate the massage manipulation of respectively obliquely pushing the two thumbs, is more suitable for the actual human body massage, and has good massage effect.

As an embodiment, after controlling one of the first and second single-sided massage control groups to operate at least once, the other of the first and second single-sided massage control groups is controlled to operate at least once.

Therefore, the two sides can be circularly and obliquely pushed for massaging, the massage manipulation of circularly and obliquely pushing the two thumbs can be simulated, and the massage effect is improved.

Optionally, as some embodiments, at least two of the one-sided massage control groups are symmetrically disposed about a center plane of the wearable mount.

For example, as shown in fig. 10, one single-sided massage control group composed of the vibration massage units 21b, 22b, 24b among the plurality of vibration massage units and the other single-sided massage control group composed of the vibration massage units 21a, 22a, 24a among the plurality of vibration massage units are symmetrically disposed about the center plane of the wearing frame; alternatively, one single-side massage control group consisting of the vibration massage units 23b, 24b among the plurality of vibration massage units and the other single-side massage control group consisting of the vibration massage units 23a, 24a among the plurality of vibration massage units are symmetrically disposed with respect to the center plane of the wearing bracket.

Through setting up with unilateral massage control group symmetry, can simulate out two thumbs and carry out the massage effect that the symmetry pushed away to one side about both sides, and the massage mode of symmetry accords with the symmetry characteristics of human neck muscle and structure more, and massage effect is better.

Optionally, the one-side massage control group includes a first one-side massage control group and a second one-side massage control group respectively located at two sides of a central plane of the wearable support, where controlling the vibration massage units in the one-side massage control group to sequentially work includes: controlling two of the vibrating massage units symmetrically arranged about the center plane in the first and second single-sided massage control groups to simultaneously operate.

For example, when there are two single-side massage control groups and the two single-side massage control groups are symmetrically disposed, the plurality of symmetrical unit pairs may be controlled to sequentially operate in a direction away from the central plane according to the first target massage instruction, wherein the two vibratory massage units of each symmetrical unit pair operate simultaneously.

All set up first and second unilateral massage control group through the central plane left and right sides, when the vibration massage unit in the unilateral massage control group about controlling carries out the during operation simultaneously, can simulate out the massage effect that two thumbs pushed obliquely simultaneously, improved massage effect like this to two vibration massage units of symmetry work simultaneously, the massage dynamics is big, and the massage mode of symmetry more accords with the symmetry characteristics of human neck muscle and structure, and massage effect is better.

In some embodiments of the present invention, the vibratory massage units 2 in the vibratory massage control group are arranged in a substantially U-shaped, V-shaped, or other arcuate configuration with a concave center. The 'arc-shaped arrangement with the concave middle part' means that the vibration massage units 2 in the vibration massage control group are integrally in an arc shape or other curve shapes similar to the arc shape, and the height of the vibration massage unit 2 positioned at the middle position of the arc shape or other curve shapes similar to the arc shape is smaller than the height of the vibration unit 2 positioned at the two ends of the arc shape or other curve shapes similar to the arc shape along the height direction. Therefore, the massage stroke is distributed to the left massage area and the right massage area, and the user experiences the massage in the subareas more obviously.

In some embodiments of the present invention, the vibratory massage units 2 in the vibratory massage control group comprise a plurality of symmetrical unit pairs, each symmetrical unit pair comprising two vibratory massage units 2 disposed in bilateral symmetry about the center plane S0 of the wearing bracket 1, the plurality of symmetrical unit pairs being spaced apart in the height direction of the wearing bracket 1. For example, in the example shown in fig. 2, the two first vibration massage units 21 are a pair of symmetrical units in the vibration massage control group, the two second vibration massage units 22 are a pair of symmetrical units in the vibration massage control group, the two fourth vibration massage units 24 are a pair of symmetrical units in the vibration massage control group, and the pairs of symmetrical units are spaced apart from each other in the height direction, so that the regions of the back side of the neck of the human body located in a certain height range of the left and right sides of the cervical vertebra can be symmetrically massaged, better conforming to the structural characteristics of the neck, and contributing to the improvement of the massage effect. Moreover, the symmetrical unit pair with the larger unit interval in any two symmetrical unit pairs is higher than the symmetrical unit pair with the smaller unit interval, and the unit interval represents the distance between the two vibration massage units 2 in the symmetrical unit pair, for example, in the example shown in fig. 5, the unit interval L4 of the symmetrical unit pair formed by the two second vibration massage units 22 is larger than the unit interval L2 of the symmetrical unit pair formed by the two fourth vibration massage units 24, so that the arrangement of the symmetrical unit pairs in the vibration massage control group conforms to the distribution trend of muscles at the back side of the neck of the human body, and the massage effect in the region can be improved.

In some embodiments of the present invention, the vibrating massage units 2 in the vibrating massage control group are disposed near the lower edge of the wearing bracket 1 and arranged in an arc shape with a concave middle. For example, in the example shown in fig. 2, the set of vibratory massage controls may include all or a portion of the two first vibratory massage units 21, the two second vibratory massage units 22, and the two fourth vibratory massage units 24, and arranged in a downwardly concave arc shape in the middle. That is, the vibratory massage control group does not include the third vibratory massage unit 23 in the example shown in fig. 2. For example, the set of vibratory massage controls may include two first vibratory massage units 21, two second vibratory massage units 22, and two fourth vibratory massage units 24, and so on. Because the vibration massage units 2 in the vibration massage control group are all arranged close to the lower edge of the wearing support 1, and the vibration massage units 2 at the upper edge do not participate in vibration massage (or the vibration massage units 2 at the position are omitted when the massage apparatus is structurally designed, for example, two third vibration massage units 23 are omitted, such as the example shown in fig. 11), so that the vibration massage units 2 do not vibrate at the parts of the spines 1 to 3 of the human body (the position is located at the upper cervical vertebra and is closer to the head, and the vibration at the position can be transmitted to the brain to cause resonance dizziness), the problem of dizziness of a user can be avoided, meanwhile, because the vibration massage units 2 in the vibration massage control group are arranged into a concave arc shape in the middle, two massage areas at the left and the right can be distributed in a massage stroke, and the experience of the user on the subarea massage is more obvious.

For example, in some specific examples, as shown in fig. 2, after obtaining the first target massage instruction, the processing module controls the two fourth vibratory massage units 24, the two second vibratory massage units 22, and the two first vibratory massage units 21 to sequentially work in a direction away from the central plane S0, that is, starting from the lower portion of the wearing support 1, two sides of the wearing support simultaneously rotate upward in an oblique manner to massage, so as to simulate a massage effect of two thumbs simultaneously moving upward in an oblique manner, and the two vibratory massage units work simultaneously, so that the massage force is greater, and the symmetric massage manner conforms to the symmetric characteristics of the neck muscles and structures of the human body, and the massage effect is better.

Optionally, the working time of the vibrating massage units working simultaneously is less than the working time interval of two adjacent vibrating massage units. For example, the working time of the simultaneously working vibration massage units is 80-120ms, and the working time interval of two adjacent vibration massage units is 1.5-2.5 times of the working time of the simultaneously working vibration massage units.

Because both sides vibrate simultaneously, the user feels the dynamics a little, therefore the interval time is some long, and the interval time is greater than the vibration time of massage head for massage switching effect is more obvious, and massage effect is better.

In some embodiments of the present invention, the on-time of each symmetric cell pair is less than the on-time interval of two adjacent symmetric cell pairs. For example, in some specific examples, the on-time of each symmetric unit pair is 80-120ms, such as 80ms, 100ms, 120ms, etc., and the on-time interval between two adjacent symmetric unit pairs is 1.5-2.5 times, such as 1.5 times, 2.0 times, 2.5 times, etc., the on-time of each symmetric unit pair. From this, starting from the lower part of wearing support 1, when both sides were simultaneously the wheel move massage to the slant, through setting up longer interval for massage switching effect is more obvious, and massage effect is better.

Further, for convenience of explanation, the respective vibration massage units 2 shown in fig. 2 are renumbered by adding letter a to the number of the vibration massage unit 2 positioned on the left side of the wearing frame 1 in fig. 2, and by adding letter b to the number of the vibration massage unit 2 positioned on the right side of the wearing frame 1, respectively, to distinguish the vibration massage units 2 on the left and right sides, as shown in fig. 10, while each pair of symmetric units is given in the form of bracket (), such as a pair of symmetric units (21a, 21b), representing that the pair of symmetric units is composed of the first vibration massage unit 21a and the first vibration massage unit 21 b.

When the processing module controls the plurality of symmetrical cell pairs to sequentially operate in a direction away from the central plane S0 according to the first target massage instruction, as shown in fig. 10, in some specific examples, the processing module may control the symmetrical cell pairs (24a, 24b), (22a, 22b), (21a, 21b) to sequentially operate, wherein the operation time of each symmetrical cell pair is 100ms, the time interval between two adjacent symmetrical cell pairs is 200ms, and the two vibrating massage units 2 in each symmetrical cell pair operate simultaneously, and so on for a plurality of times, such as 3 times. From this, from wearing the lower part of support 1 and beginning, both sides simultaneously slant upward wheel move massage, simulate out two thumbs massage effect slant upward simultaneously, and both sides vibration massage unit simultaneous workings, the massage dynamics is bigger, massage effect is better, and because 2 simultaneous workings of both sides vibration massage unit, the massage dynamics is big, consequently the operating time of every symmetrical unit pair is less than the operating time interval of two adjacent symmetrical unit pairs, make the massage switching effect more obvious, massage effect is better.

In some embodiments of the present invention, the vibratory massage units 2 in the vibratory massage control group further comprise a central vibratory massage unit located at the central plane S0 below either of the pairs of symmetrical units. For example, in the example shown in fig. 2, the fifth vibration massage unit 25 may be a central vibration massage unit, and since the vibration massage unit is close to the Dazhui acupoint, which is the meeting of the governor vessel, the three yang channels of hands and feet, and the yang maintaining vessel, and has the functions of relieving exterior syndrome, dispelling wind, dispelling cold, warming yang, activating yang, clearing heart fire, calming the nerves, strengthening the brain, eliminating fatigue, strengthening physique, and strengthening the whole body, the fifth vibration massage unit is added to the vibration massage control group, so that the massage effect can be improved by massaging the part in the massage stroke, and the functions of relieving exterior syndrome, dispelling wind, dispelling cold, warming yang, activating yang, clearing heart fire, calming the nerves, strengthening the brain, eliminating fatigue, strengthening physique, and strengthening the whole body.

Further, the massage control method of the massage apparatus further includes: acquiring a second target massage instruction; according to the second target massage instruction, the central vibration massage unit and one vibration massage unit 2 in each symmetric unit pair are controlled to work in sequence along the direction far away from the central plane S0, and then the other vibration massage unit 2 in each symmetric unit pair is controlled to work in sequence along the direction far away from the central plane S0. For example, in some specific examples, the processing module obtains a second target massage command corresponding to the oblique massage mode command after receiving the oblique massage mode command through the control panel 14, the second target massage command may include identification information, massage time, massage order and the like of each vibration massage unit 2 in the central vibration massage unit and each symmetric unit pair, and then controls each vibration massage unit 2 to perform vibration massage according to the second target massage command, for example, first controls the fifth vibration massage unit 25, the fourth vibration massage unit 24, the second vibration massage unit 22 and the first vibration massage unit 21 on the left side of the wearing frame 1 to sequentially operate in a direction away from the central plane S0, and then controls the fourth vibration massage unit 24, the second vibration massage unit 22 and the first vibration massage unit 21 on the right side of the wearing frame 1 to sequentially operate in a direction away from the central plane S0, and the above steps are repeated until the cycle times or cycle time corresponding to the second target massage instruction is reached. Therefore, from the lower part of the wearing bracket 1, the two sides of the wearing bracket circularly and obliquely massage upwards in a wheel-moving way, and the massage effect of the two circular and obliquely upwards thumbs is simulated.

In some embodiments of the present invention, the vibratory massage units in the vibratory massage control group further comprise a central vibratory massage unit located at the central plane S0 below any of the pairs of symmetric units. Further, the massage control method of the massage apparatus further includes: acquiring a third target massage instruction; and according to a third target massage instruction, controlling one vibration massage unit in each symmetrical unit pair to work in sequence along the direction far away from the central plane, and then controlling the central vibration massage unit and the other vibration massage unit in each symmetrical unit pair to work in sequence along the direction far away from the central plane. For example, in some specific examples, the processing module obtains a third target massage command corresponding to the oblique massage mode command after receiving the oblique massage mode command through the control panel 14, the third target massage command may include identification information, massage time, massage order and the like of each vibration massage unit 2 in the central vibration massage unit and each symmetric unit pair, and then controls each vibration massage unit 2 to perform vibration massage according to the third target massage command, for example, first controls the fourth vibration massage unit 24, the second vibration massage unit 22 and the first vibration massage unit 21 located at the left side of the wearing frame 1 to sequentially operate in a direction away from the central plane S0, and then controls the fifth vibration massage unit 25, the fourth vibration massage unit 24, the second vibration massage unit 22 and the first vibration massage unit 21 located at the right side of the wearing frame 1 to sequentially operate in a direction away from the central plane S0, and the above steps are repeated until the cycle times or cycle time corresponding to the third target massage instruction is reached. Therefore, from the lower part of the wearing bracket 1, the two sides of the wearing bracket circularly and obliquely massage upwards in a wheel-moving way, and the massage effect of the two circular and obliquely upwards thumbs is simulated.

In some embodiments of the present invention, the vibratory massage units 2 in the vibratory massage control group further comprise a central vibratory massage unit located at the central plane S0 below either of the pairs of symmetrical units. Further, the massage control method of the massage apparatus further includes: acquiring a fourth target massage instruction; according to the fourth target massage instruction, one vibration massage unit in each symmetrical unit pair is controlled to work in sequence along the direction far away from the central plane, then the central vibration massage unit and the other vibration massage unit in each symmetrical unit pair are controlled to work in sequence along the direction far away from the central plane, then the central vibration massage unit and the one vibration massage unit in each symmetrical unit pair are controlled to work in sequence along the direction far away from the central plane, and then the other vibration massage unit in each symmetrical unit pair is controlled to work in sequence along the direction far away from the central plane. For example, in some specific examples, after receiving the massage mode command of the slant massage type through the control panel 14, the processing module obtains a fourth target massage command corresponding to the command, the fourth target massage instruction may include identification information of the central vibratory massage unit and each vibratory massage unit 2 of each symmetric unit pair, massage time and massage order and the like, and then controls the respective vibratory massage units 2 to perform vibratory massage according to a fourth target massage order, for example, first controls the fourth vibratory massage unit 24, the second vibratory massage unit 22 and the first vibratory massage unit 21 positioned at the left side of the wearing frame 1 to sequentially operate in a direction away from the center plane S0, and then the fifth vibratory massage unit 25, the fourth vibratory massage unit 24 positioned at the right side of the wearing support 1, the second vibratory massage unit 22 and the first vibratory massage unit 21 are controlled to work in sequence in a direction away from the center plane S0; then, the fifth vibratory massage unit 25, the fourth vibratory massage unit 24, the second vibratory massage unit 22 and the first vibratory massage unit 21 positioned at the left side of the wearing bracket 1 are controlled to sequentially operate in a direction away from the center plane S0, and then the fourth vibratory massage unit 24, the second vibratory massage unit 22 and the first vibratory massage unit 21 positioned at the right side of the wearing bracket 1 are controlled to sequentially operate in a direction away from the center plane S0; and the above steps are repeated until the cycle number or cycle time corresponding to the fourth target massage instruction is reached. Therefore, from the lower part of the wearing bracket 1, the two sides of the wearing bracket circularly and obliquely massage upwards in a wheel-moving way, and the massage effect of the two circular and obliquely upwards thumbs is simulated.

In some embodiments of the present invention, the time interval between the operation of two adjacent vibratory massage units 2 is less than or equal to the time of each operation of the vibratory massage unit 2. For example, in some specific examples, each working time of the vibration massage unit 2 is 80-120ms, such as 80ms, 100ms, 120ms, etc., and the working time interval of two adjacent vibration massage units 2 is 0.5-1.0 times, such as 0.5 times, 0.7 times, 1.0 times, etc., of each working time of the vibration massage unit 2. Therefore, when the massage is performed by rotating upwards in a circulating and inclined manner from the lower part of the wearing bracket 1, the massage effect is coherent and better by setting shorter interval time.

For example, in some specific examples, as shown in fig. 10, after obtaining the second target massage instruction, the processing module may control the fifth vibratory massage unit 25, the fourth vibratory massage unit 24b, the second vibratory massage unit 22b, the first vibratory massage unit 21b, the fourth vibratory massage unit 24a, the second vibratory massage unit 22a, and the first vibratory massage unit 21a to operate in sequence, wherein the operation time of each vibratory massage unit is 100ms, and the time interval between two adjacent vibratory massage units is 80ms, and thus the operation is repeated for a plurality of times, such as 3 times. Therefore, from the lower part of the wearing bracket 1, the two sides of the wearing bracket circularly and obliquely massage upwards in a wheel-moving way, and the massage effect of the two circular and obliquely upwards thumbs is simulated.

For example, in some specific examples, as shown in fig. 10, after obtaining the third target massage instruction, the processing module may control the fourth vibratory massage unit 24b, the second vibratory massage unit 22b, the first vibratory massage unit 21b, the fifth vibratory massage unit 25, the fourth vibratory massage unit 24a, the second vibratory massage unit 22a, and the first vibratory massage unit 21a to operate in sequence, wherein the operation time of each vibratory massage unit is 100ms, and the time interval between two adjacent vibratory massage units is 80ms, and thus the operation is repeated for a plurality of times, such as 3 times. Therefore, from the lower part of the wearing bracket 1, the two sides of the wearing bracket circularly and obliquely massage upwards in a wheel-moving way, and the massage effect of the two circular and obliquely upwards thumbs is simulated.

For example, in some specific examples, as shown in fig. 10, after obtaining the fourth target massage instruction, the fifth vibratory massage unit 25, the fourth vibratory massage unit 24b, the second vibratory massage unit 22b, the first vibratory massage unit 21b, the fourth vibratory massage unit 24a, the second vibratory massage unit 22a and the first vibratory massage unit 21a can be controlled to work in sequence, and then controls the fourth vibratory massage unit 24b, the second vibratory massage unit 22b, the first vibratory massage unit 21b, the fifth vibratory massage unit 25, the fourth vibratory massage unit 24a, the second vibratory massage unit 22a and the first vibratory massage unit 21a to work in sequence, wherein the working time of each vibration massage unit is 100ms, the time interval between two adjacent vibration massage units is 80ms, and the operation is repeated for 3 times alternately. Therefore, from the lower part of the wearing bracket 1, the two sides of the wearing bracket circularly and obliquely massage upwards in a wheel-moving way, and the massage effect of the two circular and obliquely upwards thumbs is simulated.

In some embodiments of the present invention, the vibrating massage unit 2 is operated to vibrate in a swinging manner in which the vibrating massage unit 2 swings in an up-down direction, a left-right direction, or a circumferential direction. The term "the vibration massage unit 2 swings in the vertical direction" means that the vibration massage unit 2 swings back and forth in the height direction, the term "the vibration massage unit 2 swings back and forth in the left and right direction" means that the vibration massage unit 2 swings back and forth in the direction perpendicular to the height direction, and the term "the vibration massage unit 2 swings in the circumferential direction" means that the vibration massage unit 2 swings around the central axis thereof. For example, in the specific example shown in fig. 8, the vibration device 205 in the vibration massage unit 2 can swing in the up-down direction, the left-right direction or the circumferential direction, the swing is parallel to the massage surface of the vibration massage unit 2, the vibration massage is performed in a swing mode parallel to the massage surface, and in combination with the above-mentioned massage mode, the massage effect of rubbing by the human hand can be simulated, so that the kneading massage effect of two thumbs simultaneously or circularly and obliquely upward can be simulated.

In some embodiments of the present invention, the amplitude of oscillation of the vibration massage unit 2 is in a range of 0.1mm to 5.0mm, such as 0.1mm, 0.35mm, 5.0mm, etc., and the clear distance between two adjacent vibration massage units 2 is in a range of 6mm to 22mm, such as 6mm, 15mm, 22mm, etc., wherein "the amplitude of oscillation of the vibration massage unit 2" refers to the amplitude of oscillation of the vibration massage unit 2 in the up-down direction, the left-right direction, or the circumferential direction, "the clear distance between two adjacent vibration massage units 2" refers to the distance between the sides of two adjacent vibration massage units 2 close to each other, thereby avoiding the collision of the adjacent vibration massage units 2 during vibration and effectively reducing the noise problem caused by resonance and interference of the adjacent vibration massage units 2, further, when the vibration massage units 2 are controlled by the aforementioned wheel-motion massage method, the problem of noise caused by resonance and interference of the adjacent vibration massage units 2 can be further reduced.

In some embodiments of the utility model, the diameter D1 of the vibratory massage unit 2 satisfies: the diameter D1 of the vibration massage unit 2 is the diameter of the massage surface of the vibration massage unit 2, and the circular massage surface formed based on the diameter is approximately equivalent to the contact surface of the thumb of a person during massage, so that the massage feeling of the fingers of the person can be better simulated, and the massage effect is improved.

In some embodiments of the utility model, the area S6 of the vibratory massage unit 2 satisfies: 80mm²≤S6≤250mm². E.g. 80mm²、150mm²、200mm²、250mm²And so on, "the area S6 of the vibration massage unit 2" means the area of the massage face of the vibration massage unit 2, which is approximately equivalent to the contact area of the thumb of the person at the time of massage, and can better simulate the feeling of the massage of the fingers of the person, thereby improving the massage effect.

In some embodiments of the present invention, the clear distance between two adjacent vibrating massage units 2 is in a range of 6mm to 22mm, such as 6mm, 15mm, 22mm, etc., and/or the center distance between two adjacent vibrating massage units 2 is in a range of 16mm to 40mm, such as 16mm, 30mm, 40mm, etc., and the "center distance between two adjacent vibrating massage units 2" refers to the distance between the center points of two adjacent vibrating massage units 2, so that the vibrating massage units are arranged at a proper density through proper spacing arrangement, and not only can a certain massage strength be generated, but also the neck nerves cannot be distinguished for massage due to being squeezed into a group, and the feeling of massage accumulation is avoided, thereby improving the massage effect.

An embodiment of the present invention further provides a computer-readable storage medium, on which a massage control program of a neck massager is stored, and when the massage control program of the neck massager is executed by a processor, the massage control method of the neck massager is implemented, which is specifically referred to above and will not be described herein again.

The embodiment of the present invention further provides another neck massager, which includes a memory, a processor, and a massage control program of the neck massager stored in the memory and capable of running on the processor, and when the processor executes the massage control program of the neck massager, the massage control method of the neck massager is implemented, which can be referred to above specifically, and is not described herein again.

The embodiment of the present invention further provides another neck massager, including: a wearing bracket defining a neck-surrounding space; the vibration massage control group comprises a plurality of symmetrical unit pairs, each symmetrical unit pair comprises two vibration massage units which are symmetrically arranged in a left-right mode relative to the central plane of the wearing bracket, the symmetrical unit pairs are spaced along the height direction of the wearing bracket, the symmetrical unit pair with the larger unit spacing in any two symmetrical unit pairs is higher than the symmetrical unit pair with the smaller unit spacing, and the unit spacing represents the distance between the two vibration massage units in the symmetrical unit pairs; and the control part is used for acquiring a first target massage instruction and controlling the symmetrical unit pairs to work in sequence along the direction far away from the central plane according to the first target massage instruction, wherein two vibration massage units in each symmetrical unit pair work simultaneously.

Optionally, in some embodiments, at least a portion of the plurality of vibratory massage units constitute at least one single-sided massage control group, the single-sided massage control group being located on one side of and inclined with respect to a central plane of the wearable support, the single-sided massage control group including a plurality of vibratory massage units spaced apart in a lateral direction, and a height of the vibratory massage unit being lower closer to the central plane of the wearable support or higher closer to the central plane of the wearable support; the control part is used for acquiring a first target massage instruction and controlling the vibration massage units in the single-side massage control group to work in sequence according to the first target massage instruction so as to realize inclined push massage.

According to the neck massage instrument provided by the embodiment of the utility model, the single-side massage control group is arranged on one side of the central plane of the wearing support and is obliquely arranged relative to the central plane, and the single-side massage control group comprises the plurality of vibration massage units which are transversely arranged at intervals, so that when the vibration massage units in the single-side massage control group are controlled to sequentially work, the massage effect of obliquely pushing the thumb can be simulated, the real massage effect of a human body is fully matched, the massage force is high, and the massage mode of obliquely pushing the massage is more in line with the characteristics of neck muscles and structures of the human body, so that the massage feeling is very obvious and the massage effect is good by simulating the obliquely pushing massage manipulation of the thumb on the part with slow neck nerves.

In some embodiments, the vibrating massage units in the vibrating massage control group are arranged close to the lower edge of the wearing bracket and are arranged in a downward-concave arc shape in the middle.

In some embodiments, the on-time of each symmetric cell pair is less than the on-time interval of two adjacent symmetric cell pairs.

In some embodiments, the on-time of each symmetric unit pair is 80-120ms, and the on-time interval between two adjacent symmetric unit pairs is 1.5-2.5 times the on-time of each symmetric unit pair.

In some embodiments, the vibration massage units in the vibration massage control group further include a central vibration massage unit located on the central plane and lower than any of the pair of symmetric units, wherein the control portion is further configured to obtain a second target massage instruction, and control the central vibration massage unit and one of the pair of symmetric units to sequentially operate along a direction away from the central plane according to the second target massage instruction, and then control the other of the pair of symmetric units to sequentially operate along a direction away from the central plane.

In some embodiments, the vibration massage units in the vibration massage control group further include a central vibration massage unit, the central vibration massage unit is located on the central plane and is lower than any one of the pair of symmetric units, wherein the control portion is further configured to obtain a third target massage instruction, and control one of the pair of symmetric units to sequentially operate along a direction away from the central plane according to the third target massage instruction, and then control the central vibration massage unit and the other of the pair of symmetric units to sequentially operate along a direction away from the central plane.

In some embodiments, the vibratory massage units in the vibratory massage control group further comprise a central vibratory massage unit, the central vibratory massage unit being located in the central plane and below either of the symmetrical unit pairs, wherein, the control part is also used for obtaining a fourth target massage instruction, controlling one vibration massage unit in each symmetrical unit pair to work in sequence along the direction far away from the central plane according to the fourth target massage instruction, then controlling the central vibration massage unit and the other vibration massage unit in each symmetrical unit pair to work in sequence along the direction far away from the central plane, and controlling the central vibration massage unit and one vibration massage unit in each symmetrical unit pair to work in sequence along the direction far away from the central plane, and then controlling the other vibration massage unit in each symmetrical unit pair to work in sequence along the direction far away from the central plane.

In some embodiments, the working time interval between two adjacent vibrating massage units is less than or equal to each working time of the vibrating massage unit.

In some embodiments, each working time of the vibration massage unit is 80-120ms, and the working time interval of two adjacent vibration massage units is 0.5-1.0 times of each working time of the vibration massage unit.

In some embodiments, the vibratory massage unit is operable to vibrate in an oscillatory manner.

In some embodiments, the oscillation manner is that the vibration massage unit oscillates in an up-down direction, a left-right direction, or a circumferential direction.

In some embodiments, the amplitude of oscillation of the vibratory massage units is in the range of 0.1mm to 5.0mm, and the clear distance between two adjacent vibratory massage units is in the range of 6mm to 22 mm.

In some embodiments, the diameter D1 of the vibratory massage unit satisfies: d1 is more than or equal to 10mm and less than or equal to 18 mm.

In some embodiments, the area S6 of the vibratory massage unit satisfies: 80mm²≤S6≤250mm²。

In some embodiments, the clear distance between two adjacent vibratory massage units is in the range of 6mm-22mm, and/or the center distance between two adjacent vibratory massage units is in the range of 16mm-40 mm.

Optionally, in some embodiments, the lower the height of the vibratory massage units in the one-sided massage control group that are closer to the center plane of the wearable bracket, the lower the height of the vibratory massage units in the one-sided massage control group are, the lower the edge of the wearable bracket is.

Optionally, in some embodiments, at least one of the unilateral massage control groups comprises a central vibratory massage unit located on a central plane of the wearable support, the lower the height of the vibratory massage unit in the unilateral massage control group that is closer to the central plane.

Optionally, in some embodiments, the number of the one-sided massage control groups is at least two, and at least one of the one-sided massage control groups is respectively disposed on two sides of the central plane of the wearable bracket.

Optionally, in some embodiments, the one-sided massage control groups include a first one-sided massage control group and a second one-sided massage control group respectively located at both sides of the center plane of the wearing bracket as the height of the vibration massage unit closer to the center plane of the wearing bracket is lower, wherein,

the first single-side massage control group and the second single-side massage control group share one central vibration massage unit located on the central plane; alternatively, the first and second electrodes may be,

the first and second single-sided massage control groups do not include a central vibratory massage unit located on the center plane; alternatively, the first and second electrodes may be,

the first one-sided massage control group includes a central vibratory massage unit located on the center plane, and the second one-sided massage control group does not include a central vibratory massage unit located on the center plane.

Optionally, in some embodiments, the control portion is further configured to,

controlling the vibration massage units in the single-side massage control group to work in sequence along the direction far away from the central plane; or

And controlling the vibration massage units in the single-side massage control group to work in sequence along the direction close to the central plane.

Optionally, in some embodiments, the control part is further configured to control one of the first and second single-sided massage control groups to operate at least once after controlling the other of the first and second single-sided massage control groups to operate at least once.

Optionally, in some embodiments, at least two of the single-sided massage control groups are symmetrically disposed about a center plane of the wearable mount.

Optionally, in some embodiments, the single-sided massage control group includes a first single-sided massage control group and a second single-sided massage control group respectively located at two sides of a central plane of the wearable bracket, wherein the control portion is further configured to control two of the vibrating massage units symmetrically disposed about the central plane in the first single-sided massage control group and the second single-sided massage control group to operate simultaneously.

Optionally, in some embodiments, the operating time of the simultaneously operating vibratory massage units is less than the operating time interval of two adjacent vibratory massage units.

Optionally, in some embodiments, the working time of the simultaneously working vibrating massage units is 80-120ms, and the working time interval of two adjacent vibrating massage units is 1.5-2.5 times of the working time of the simultaneously working vibrating massage units.

It should be noted that, regarding another neck massager provided in the embodiment of the present invention, corresponding to the massage control method of the neck massager provided in the embodiment of the present invention, reference may be made to the foregoing description of the massage control method of the neck massager, and details thereof are not repeated here.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While embodiments of the utility model have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (19)

1. A neck massager, comprising:

a donning cradle defining a neck-surrounding space;

a plurality of vibration massage units, wherein the plurality of vibration massage units are arranged on one side of the wearing bracket facing the neck surrounding space, at least part of the plurality of vibration massage units form at least one single-side massage control group, the single-side massage control group is positioned on one side of a central plane of the wearing bracket and is obliquely arranged relative to the central plane, the single-side massage control group comprises a plurality of vibration massage units which are arranged at intervals along the transverse direction, and the height of the vibration massage unit which is closer to the central plane of the wearing bracket is lower, or the height of the vibration massage unit which is closer to the central plane of the wearing bracket is higher;

and the control part is used for controlling the vibration massage units in the single-side massage control group to work in sequence so as to realize inclined massage.

2. The neck massager of claim 1 wherein the vibratory massage units in the one-sided massage control group are each disposed proximate to the lower edge of the wear bracket as the height of the vibratory massage unit in the one-sided massage control group is lower proximate to the center plane of the wear bracket.

3. The neck massager of claim 1 wherein at least one of the one-sided massage control groups comprises a central vibratory massage unit located on a central plane of the wearable support as the height of the vibratory massage unit in the one-sided massage control group decreases closer to the central plane.

4. The neck massager of claim 1 wherein the number of the one-sided massage control groups is at least two, and at least one of the one-sided massage control groups is disposed on each of two sides of the center plane of the wearable support.

5. The neck massager of claim 4 wherein the one-sided massage control groups include first and second one-sided massage control groups respectively located on both sides of the center plane of the wearable cradle as the height of the vibratory massage unit in the one-sided massage control group becomes lower toward the center plane of the wearable cradle, wherein,

the first single-side massage control group and the second single-side massage control group share one central vibration massage unit located on the central plane; alternatively, the first and second electrodes may be,

the first and second single-sided massage control groups do not include a central vibratory massage unit located on the center plane; alternatively, the first and second electrodes may be,

the first one-sided massage control group includes a central vibratory massage unit located on the center plane, and the second one-sided massage control group does not include a central vibratory massage unit located on the center plane.

6. The neck massager of claim 5 wherein the control portion is further configured to,

controlling the vibration massage units in the single-side massage control group to work in sequence along the direction far away from the central plane; or

And controlling the vibration massage units in the single-side massage control group to work in sequence along the direction close to the central plane.

7. The neck massager of claim 6 wherein the control unit is further configured to control one of the first and second single-sided massage control sets to operate at least once after controlling the other of the first and second single-sided massage control sets to operate at least once.

8. The neck massager of claim 4 wherein at least two of the one-sided massage control groups are symmetrically disposed about a central plane of the wearable support.

9. The neck massager of claim 8 wherein the single-sided massage control groups comprise a first single-sided massage control group and a second single-sided massage control group respectively located on two sides of a center plane of the wearable support, and wherein the control unit is further configured to control two of the vibrating massage units symmetrically disposed about the center plane to operate simultaneously.

10. The neck massager of claim 9 wherein the vibratory massage units operating simultaneously operate for less than the interval between two adjacent vibratory massage units.

11. The neck massager of claim 10 wherein the simultaneously operating vibratory massage units operate for a period of 80 to 120ms and the time interval between two adjacent vibratory massage units is 1.5 to 2.5 times the operating time of the simultaneously operating vibratory massage units.

12. The neck massager of claim 6 wherein the time interval between two adjacent vibrating massage units is less than or equal to each time of the vibrating massage units.

13. The neck massager of claim 12 wherein each time of the vibration massage units is 80-120ms, and the time interval between two adjacent vibration massage units is 0.5-1.0 times the time of each time of the vibration massage units.

14. The neck massager of claim 1 wherein the vibratory massage unit is configured to vibrate in an oscillatory manner during operation.

15. The neck massager of claim 14 wherein the oscillating manner is that the vibration massage unit oscillates in an up-down direction, a left-right direction, or a circumferential direction.

16. The neck massager of claim 14 or 15 wherein the amplitude of oscillation of the vibratory massage units is in the range of 0.1mm to 5.0mm and the clear distance between two adjacent vibratory massage units is in the range of 6mm to 22 mm.

17. The neck massager of claim 1 wherein the diameter D1 of the vibratory massage unit satisfies: d1 is more than or equal to 10mm and less than or equal to 18 mm.

18. The neck massager of claim 1 wherein the area S6 of the vibrating massage unit satisfies: 80mm²≤S6≤250mm²。

19. The neck massager of claim 1 wherein the clear distance between two adjacent vibratory massage units is in the range of 6mm to 22mm and/or the center distance between two adjacent vibratory massage units is in the range of 16mm to 40 mm.

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