CN114376284A - Wearing article for muscle strength training - Google Patents

Abstract

A wearing article for muscle strength training comprises a textile fabric and a first flexible telescopic element. The textile fabric is provided with an opening for wearing on a specific part of a human body and is provided with a first surface and a second surface which are opposite. The first flexible telescopic element is connected with the first surface of the textile fabric, and the telescopic property of the first flexible telescopic element is greater than that of the short-molecular-chain silicone resin. Through the textile, the wearing article can be comfortably worn on a human body without hurting the skin, and the flexible telescopic element with high telescopic characteristic stimulates the muscle of the human body to work, so that a user can carry out muscle strength training in real time.

Description

Wearing article for muscle strength training

Technical Field

The invention relates to a wearing article, in particular to a wearing article which can carry out muscle strength training on a human body.

Background

Modern people sit at desks because they face computers most of the time, and may easily cause problems of shoulder and neck ache, stiff neck, wrist tunnel syndrome, lower back pain and the like due to poor postures. In addition, in order to improve the above problems, exercise is performed in idle time, which may cause muscle and fascia tissue inflammation problems such as cramps, sprains, and strains. Thus creating a situation where the body is injured, either motionless or motionless.

Since the above-mentioned situation is mostly caused by insufficient muscle strength of human body, in recent years, the intramuscular effect patch is attached to the skin of human body corresponding to the position of muscle, and the purpose of relieving pain is achieved by the effect of pressing and pulling the muscle. Briefly, the intramuscular effect of the patch is to stimulate the body sensation and activity by using the discrete tension (Differential tension) of the patch to create various effects to support the muscle activity. With kinesiology tape, tape tension is one of the most critical skills, in addition to the position and orientation of the tape.

However, since the kinesiology tape is directly attached to the skin of the human body, if the tension of the kinesiology tape is actually applied to the muscle, the adhesion force of the kinesiology tape must be very strong. Therefore, the currently used kinesiology tape generally has the problem of insufficient tension, and in short, the efficiency of the kinesiology tape for the muscle is far from sufficient.

Therefore, a wearing article for muscle training is needed to improve the above disadvantages, and is one of the current important problems.

Disclosure of Invention

In view of the above problems, an object of the present invention is to provide a wearing article capable of providing muscle strength training for a specific part of a human body.

Another object of the present invention is to provide a wearing article for muscle training, which can adjust the stretching force according to the variation of the muscle strength of the human body.

It is yet another object of the present invention to provide a muscle training article of wear that does not injure the skin and yet provides adequate tension.

To achieve the above objective, the present invention provides a wearing article for muscle strength training, which includes a textile fabric and a first flexible telescopic element. The textile fabric is provided with an opening for being worn on a specific part of a human body and is provided with a first surface and a second surface which are opposite. The first flexible telescopic element is connected with the first surface of the textile fabric, and the telescopic property of the first flexible telescopic element is greater than that of the short-molecular-chain silicone resin.

In one embodiment, the first flexible telescopic element is connected with the first surface of the textile fabric through a bonding assembly or connected with the first surface of the textile fabric through thermocompression bonding.

In one embodiment, the wearing article for muscle training further comprises a second flexible telescopic element. The second flexible telescopic element is combined with the first flexible telescopic element through hot-pressing combination, and the telescopic property of the second flexible telescopic element is larger than that of short-molecular-chain silicone resin.

In another embodiment, the wearing article for muscle training further comprises a second flexible telescopic element. The expansion and contraction characteristic of the second flexible expansion and contraction element is larger than that of short molecular chain silicone resin. Part of the second flexible telescopic elements are combined with the first flexible telescopic elements through hot-press combination, and the other part of the second flexible telescopic elements are connected and combined with the first surface of the textile. The other part of the second flexible telescopic element can be connected with the first surface of the textile fabric through a combination component or connected with the first surface of the textile fabric through thermocompression bonding.

In one embodiment, the first flexible telescopic element and the second flexible telescopic element have different contour shapes. In another embodiment, the first flexible telescopic element and the second flexible telescopic element have the same profile shape.

In one embodiment, the first surface of the textile fabric is located on a side away from the skin of the human body.

In one embodiment, the material of the first flexible expansion element has a permanent deformation amount less than 1.5%.

In one embodiment, the first flexible expansion element or the second flexible expansion element is made of a material selected from the group consisting of thermoplastic polyurethane (thermoplastic Urethane Elastomer), thermoplastic Rubber (thermoplastic Rubber Elastomer), thermoplastic styrene (thermoplastic styrene Elastomer), thermoplastic Vulcanizate (thermoplastic vulcanate Elastomer), thermoplastic polyolefin (thermoplastic Elastomer), thermoplastic polyester (thermoplastic polyurethane Elastomer), long chain Silicone (Silicone), and combinations thereof. Among them, the long molecular chain silicone resin can be called as solid silica gel.

In summary, the wearing article for muscle training according to the present invention is formed by thermally compressing and bonding a flexible stretchable member having high stretching characteristics to an elastic textile fabric. Through the textile, the wearing article can be comfortably worn on a human body, and the flexible telescopic element with high telescopic characteristic stimulates the muscle of the human body to work, so that a user can carry out muscle strength training in real time.

Drawings

FIG. 1 is a schematic view of a first embodiment of a muscle training article of the present invention;

FIGS. 2A and 2B are schematic views of a wearing article for muscle training according to a second embodiment of the present invention;

FIG. 3 is a schematic view of a wearing article for muscle training in accordance with a third embodiment of the present invention;

FIG. 4 is a schematic view showing the wearing article for muscle training of the present invention being fitted over an arm of a human body;

FIGS. 5A and 5B are schematic views showing the wearing article for muscle training of the present invention worn on the leg of a human body;

FIG. 6 is a schematic view of a wearing article for muscle training in accordance with a fourth embodiment of the present invention;

fig. 7 is an enlarged schematic view of a joint assembly in the fourth embodiment.

Description of the reference numerals

10. 20, 30, 40, 50 and 60 parts of wearing articles; 11. 41, 51 and 61 are textile fabrics; 111. 611, an opening; 112. 612: a first surface; 113 a second surface; 12, a first flexible telescopic element; 121, a first fixing part; 122 a first support stabilizer; 13, a second flexible telescopic element; 131, a second fixing part; 132 a second support stabilizer; 14, a third flexible telescopic element; 141 a third fixing part; 42. 52, 62 flexible telescopic elements; 621. 622, 623 and 624 are combined with openings; 63, a bonding component; 6311 grip part; 6312, a connecting part; 6313, fixing part; 6321 groove; 6322, a guide rail; 6323 stop part; BU11, BU12, BU13 and BU 14; BU21, BU22, BU23 and BU 24; f1 and F2 are acting force; t01, T11, first moment; t02, T12 is the second moment; m1, quadriceps femoris; m2 popliteal muscle.

Detailed Description

For a further understanding of the present invention, and the manner in which the same may be realized, reference should now be made to the following description of the preferred embodiments and the accompanying drawings, wherein like elements are provided with like reference numerals.

As used herein, "first," "second," …, etc., do not refer specifically to an order or sequence, but rather are used to define the invention, which is intended to distinguish one element or operation from another element or operation described in the same technical language.

Referring to fig. 1, a wearing article 10 for muscle training according to a first embodiment of the present invention includes a textile fabric 11 and a first flexible stretching member 12.

The fabric 11 has good flexibility and skin-friendly property, and has an opening 111 for stably wearing on a specific part of a human body, such as a knee joint, an elbow joint, a thigh, a calf, an arm, and the like. The textile 11 further has a first surface 112 and a second surface 113 disposed opposite to each other. The second surface 113 is located on a side close to the human body, and the first surface 112 is located on a side far from the human body. In short, the second surface 113 is for contacting the human body and wrapping a specific portion of the human body.

The first flexible telescopic element 12 is bonded to the first surface 112 of the textile fabric 11 by thermo-compression. The material of the first flexible expansion element 12 includes a material selected from thermoplastic polyurethane (thermoplastic Elastomer), thermoplastic Rubber (thermoplastic Rubber Elastomer), thermoplastic styrene (thermoplastic styrene Elastomer), thermoplastic Vulcanizate (thermoplastic vulcanate Elastomer), thermoplastic polyolefin (thermoplastic Elastomer), thermoplastic polyester (thermoplastic polyester Elastomer), long molecular silicone resin (Silicon with long molecular weight) and combinations thereof, which have better expansion characteristics than short molecular silicone resin. In addition, the material of the first flexible expansion element 12 has a permanent deformation amount less than 1.5%. The better stretch properties include, but are not limited to, better stretch ability and less deformation.

In this embodiment, the textile fabric 11 is, for example, a knee pad, which is in a circular sleeve shape and can be sleeved on the knee joint of the human body. The first flexible telescopic element 12 has a first fixing portion 121 and a first supporting and stabilizing portion 122. The first fixing portion 121 is hollow and circular, and the hollow portion can correspond to a patella of a knee of a human body. The first supporting and stabilizing portions 122 extend upward from the first fixing portions 121 to both sides, and extend in the thigh direction from the patella corresponding to the human body.

In summary, after the textile fabric 11 is sleeved on a specific part of a human body, the first flexible telescopic element 12 with high stretchability can fix the patella and train specific muscles in real time during daily activities of a user.

Referring to fig. 2A, a wearing article 20 for muscle strength training according to a second embodiment of the present invention includes a second flexible stretching member 13 in addition to the textile fabric 11 and the first flexible stretching member 12 described in the first embodiment. The textile fabric 11 and the first flexible telescopic element 12 have the same connection relationship and function as those described in the first embodiment, and are not described herein again.

The second flexible telescopic element 13 is combined with the first flexible telescopic element 12 by thermocompression bonding. The material of the second flexible expansion element 13 also includes a material selected from thermoplastic polyurethane (thermoplastic Urethane Elastomer), thermoplastic Rubber (thermoplastic Rubber Elastomer), thermoplastic styrene (thermoplastic styrene Elastomer), thermoplastic Vulcanizate (thermoplastic vulcanate Elastomer), thermoplastic polyolefin (thermoplastic Elastomer), thermoplastic polyester (thermoplastic polyester Elastomer), long molecular silicone (Silicon with long molecular weight) and combinations thereof, which have better expansion properties than short molecular weight silicone.

In the present embodiment, the second flexible telescopic element 13 has a second fixing portion 131 and a second supporting and stabilizing portion 132. The second fixing portion 131 is hollow and circular, and the hollow portion can correspond to a patella of a knee of a human body. The second supporting and stabilizing portion 132 extends obliquely upward from the second fixing portion 131, and extends toward the medial thigh direction corresponding to the human body, i.e. from the patella, to provide stronger stretching force for the medial muscle group to enhance the training. Of course, in other embodiments, the second support stabilizer 132 may also extend from the patella in the lateral thigh direction.

To explain, in the embodiment, the second flexible telescopic element 13 has a similar profile shape to the first flexible telescopic element 12, and thus can be completely combined with the first flexible telescopic element 12 by thermocompression bonding.

Referring to fig. 2B, the wearing article 20 for muscle training of the second embodiment may further include a third flexible telescopic element 14, which is combined with the second flexible telescopic element by thermocompression bonding. The third flexible expansion element 14 has a third fixing portion 141, which has a similar shape to the first fixing portion 121 and the second fixing portion 131. In the present embodiment, the third fixing portion 141 is substantially in the shape of an inverted C to enhance the effect of fixing the patella.

In summary, the wearing article 20 for muscle training can be increased in thickness by increasing the number of the flexible stretchable members, thereby increasing the overall tension (or stretching force).

Next, referring to fig. 3, a wearing article 30 for muscle strength training according to a third embodiment of the present invention includes a textile fabric 11, a first flexible stretching member 12, and a second flexible stretching member 13, which are similar to the wearing article 20 for muscle strength training. However, unlike the second embodiment, in this embodiment, a portion of the second flexible telescopic element 13 is combined with the first flexible telescopic element 12 by thermocompression bonding, and another portion of the second flexible telescopic element 13 is combined with the first surface 112 of the textile fabric 11 by thermocompression bonding.

In this embodiment, the second fixing portion 131 of the second flexible telescopic element 13 is still thermally compressed and combined with the first fixing portion 121 of the first flexible telescopic element 12, while the second supporting and stabilizing portion 132 of the second flexible telescopic element 13 extends toward the direction opposite to the first supporting and stabilizing portion 122 and is combined with the first surface 112 of the textile fabric 11 through thermal compression. Here, the second support stabilizer 132 extends, for example, in a direction toward the outer side of the lower leg.

In the above embodiments, the flexible retractable element may be disposed along the direction of the muscle, so as to achieve the effect of strengthening muscle strength training by assisting the muscle to extend and contract. Of course, the flexible telescopic element may also be wrapped in the middle section of the muscle extending direction, so as to interrupt or reduce the use of some muscles when the muscles are injured, thereby alleviating discomfort or pain.

For example, as shown in fig. 4, the wearing article 40 for muscle training includes a textile 41 and a flexible elastic member 42. The textile 41 is, for example, an arm sleeve and can be sleeved on the arm of the human body, and the flexible telescopic element 42 is disposed around the textile 41. If the elbow joint of the arm has discomfort, the arm sleeve can be sleeved on the forearm close to the elbow joint. In this way, when the wrist is moving (for example, operating a mouse), the muscle activity can be interrupted by the wearing article 40 for muscle training, and the discomfort of the elbow joint can be reduced.

The following is a description of the wearing article for muscle strength training of the present invention for providing muscle strength training in real time, with reference to fig. 5A and 5B. Wherein FIG. 5A shows the flexible telescopic element located at the position of knee joint at the back side of human leg, and FIG. 5B shows the flexible telescopic element located at the position of knee joint at the front side of human leg extending from thigh.

As shown in fig. 5A, the wearing article 50 for muscle training is formed by thermally press-bonding a pre-stretched flexible stretchable member 52 to a woven fabric 51. The term "prestretch" means that the flexible stretchable element 52 is bonded to the textile 51 in a stretched state, and therefore, when the clothing article 50 for muscle training is not applied with an external force, the flexible stretchable element 52 generates forces F1 and F2 from both sides inward. When the flexible expansion element 52 of the wearing article 50 for muscle training is located at the knee joint position on the rear side of the leg of the human body, a first moment T01 is generated to the knee joint because the knee is bent to approach the big leg and the small leg due to the contraction of the flexible expansion element 52. At this time, the human body must continuously contract Quadriceps femoris (Quadriceps) M1 to generate a second moment T02 to counterbalance the first moment T01, thereby achieving the purpose of continuous muscle strength training.

As shown in fig. 5B, the flexible stretchable member 52 of the wearing article 50 for muscle training is worn to be positioned at the front side of the leg of the human body and extended from the thigh to the knee joint position, when the leg is lifted, the flexible stretchable member 52 is stretched to be contracted, and the contraction force generates a first moment T11 to the knee joint. At this time, the human body must continuously contract the popliteal muscles (Hamstrings) M2 to generate a second moment T12 to counterbalance the first moment T11, thereby achieving the purpose of continuous muscle strength training.

In the above embodiments, the flexible telescopic element is thermally compressed and bonded to the textile fabric, however, in order to further achieve the purpose of elastically adjusting the position of the flexible telescopic element according to the requirement of the user, the flexible telescopic element and the textile fabric may be connected to each other through a bonding assembly. Referring to fig. 6, a wearing article 60 for muscle training according to a fourth embodiment of the present invention includes a textile 61, a flexible stretching member 62 and a connecting component 63. Wherein the flexible telescopic element 62 is firmly combined with the textile fabric 61 through the combination component 63.

The textile 61 has an opening 611 and a first surface 612. Like the previous embodiments, the textile 61 can be firmly worn on a specific part of the human body, such as knee joint, elbow joint, thigh, calf, arm, etc., through the opening 611.

The flexible retractable element 62 is made of a long-molecular-chain silicone resin, which has a better retractable property than a short-molecular-chain silicone resin, and the permanent deformation amount is less than 1.5%. In addition, the flexible retractable element 62 of the present embodiment has 4 combining holes 621-624.

The combination assembly 63 has 4 first combination units BU 11-BU 14 and 4 second combination units BU 21-BU 24. The second combination units BU 21-BU 24 are firmly connected to the first surface 612 of the textile fabric 61 to bear the force generated by the flexible telescopic element 62. In the present embodiment, the second coupling units BU21 to BU24 may be connected to the first surface 612 of the textile fabric 61 by sewing threads, respectively. Each of the first combination units BU 11-BU 14 passes through the combination openings 621-624 of the flexible retractable element 62 and is connected to the corresponding second combination units BU 21-BU 24.

For convenience of description, the first combination unit BU11 and the corresponding second combination unit BU21 are described as an example below. As shown in fig. 7, the first coupling unit BU11 has a grip 6311, a connection 6312, and a fixing 6313. The second combining unit BU21 has a groove 6321, a guide rail 6322, and a stop 6323.

The connecting portion 6312 connects the grip portion 6311 and the fixing portion 6313. The grip portion 6311 is used for holding the user and abuts against the surface of the flexible retractable element 62 after the fixing portion 6313 passes through the combining hole 621 of the flexible retractable element 62. The fixing portion 6313 extends into the groove 6321 of the second coupling unit BU21, and then rotates along the guide track 6322 from the X axis to the Y axis to abut against the stop portion 6323, so that the first coupling unit BU11 and the second coupling unit BU21 are firmly coupled to each other, and are prevented from separating during the process of extending and retracting the flexible telescopic element.

It is worth mentioning that the number of the first combination units and the second combination units may be different. For example, the number of the second combining units on the textile fabric can be more than that of the first combining units, so that the flexible telescopic element can be adjusted in different setting directions according to requirements, thereby dynamically adjusting the supporting direction and the strength and obtaining a more elastic use mode.

In other embodiments, the coupling assembly may also be a combination including, but not limited to, a male and female pin fastener, or other elements capable of securely engaging and handling the force of the flexible telescopic elements. In addition, in other embodiments, in the manner of being combined by the combination assembly, the flexible telescopic element may also be combined with other flexible telescopic elements by thermal compression to enhance the acting force provided.

In summary, the wearing article for muscle strength training of the present invention is formed by thermally compressing and bonding an elastic textile fabric or bonding a flexible stretchable member having high stretching characteristics through a bonding member. Through the textile, the wearing article can be comfortably worn on a human body without hurting the skin of the human body, and the flexible telescopic element with high telescopic characteristic stimulates the muscle of the human body to work, so that a user can carry out muscle strength training in real time. In addition, different flexible telescopic elements can be combined through hot pressing, so that the wearing article for muscle strength training can use different flexible telescopic element combinations according to different requirements of each user to achieve the self-defined requirement. After the training device is used for a period of time, the flexible telescopic element can be added through hot-press combination so as to increase the training strength.

In short, the main effects of the present invention include:

the supporting direction and the training intensity can be dynamically adjusted by superposing flexible telescopic elements with the same or different contour shapes.

And (II) the flexible telescopic element can be placed on the same side or the opposite side of the muscle to be adjusted to achieve the effect of supporting or loading.

In addition, the wearing article for muscle strength training of the present invention is applicable to general training and medical rehabilitation so that a patient can continue training to accelerate recovery.

The above description is only for the preferred embodiment of the present invention, and the scope of the present invention should not be limited thereby. It is intended that all equivalent modifications or variations within the spirit of the present invention, which are within the scope of the appended claims, be embraced by the present invention.

Claims (10)

1. A wearing article for muscle strength training, comprising:

the fabric is provided with an opening for being worn on a specific part of a human body and is provided with a first surface and a second surface which are opposite; and

the first flexible telescopic element is connected with the first surface of the textile fabric, and the telescopic property of the first flexible telescopic element is greater than that of short molecular chain silicone resin.

2. The wearing article for muscle training as claimed in claim 1, further comprising a second flexible stretchable member bonded to the first flexible stretchable member by thermocompression bonding, wherein the stretchable property of the second flexible stretchable member is greater than that of short-chain silicone.

3. The wearing article for muscle training as claimed in claim 1, further comprising a second flexible stretchable member, wherein a portion of the second flexible stretchable member is bonded to the first flexible stretchable member by thermocompression bonding, another portion of the second flexible stretchable member is connected to the first surface of the textile fabric, and the stretchable property of the second flexible stretchable member is greater than that of the short molecular chain silicone resin.

4. The wearing article for muscle training as claimed in claim 3, wherein the second flexible stretching member of the other portion is connected to the first surface of the textile fabric by a bonding member, or the second flexible stretching member of the other portion is connected to the first surface of the textile fabric by thermocompression bonding.

5. A wearing article for muscle training as claimed in claim 2 or 3, wherein the first flexible resilient member and the second flexible resilient member have different profiles.

6. A wearing article for muscle training as claimed in claim 2 or 3, wherein the first flexible resilient member and the second flexible resilient member have the same contour.

7. The wearing article for muscular training as claimed in claim 2 or 3, wherein the second flexible stretchable member is made of a material selected from the group consisting of thermoplastic polyurethane, thermoplastic rubber, thermoplastic styrene, thermoplastic vulcanizate, thermoplastic polyolefin, thermoplastic polyester, long molecular chain silicone, and combinations thereof.

8. The wearing article for muscle training as claimed in claim 1, wherein the first flexible resilient member is made of a material having a permanent set of less than 1.5%.

9. The wearing article for muscle training as claimed in claim 1, wherein the first flexible stretching member is connected to the first surface of the textile fabric by a bonding assembly, or the first flexible stretching member is connected to the first surface of the textile fabric by thermocompression bonding.

10. The wearing article for muscle training as claimed in claim 1, wherein the first flexible stretchable member is made of a material selected from the group consisting of thermoplastic polyurethane, thermoplastic rubber, thermoplastic styrene, thermoplastic vulcanizate, thermoplastic polyolefin, thermoplastic polyester, long molecular chain silicone, and combinations thereof.

Images