Search

KR-20260062991-A - System, method, and device for percussion massage therapy

KR20260062991AKR 20260062991 AKR20260062991 AKR 20260062991AKR-20260062991-A

Abstract

The treatment system includes a device and an attachment for the device. The device includes a power source and a mounting portion. The attachment may be removably coupled to the mounting portion. The treatment system also includes a first electrical connector comprising a socket and a second electrical connector comprising a prong configured to be fitted into the socket. The attachment comprises either the first or the second electrical connector, and the mounting portion comprises the other of the first or the second electrical connector. The electrical connector included by the mounting portion is electrically connected to a power source.

Inventors

  • 저우 중쉬
  • 탕 후이
  • 류 융총
  • 팡 허
  • 황 즈취안
  • 솔라나 하이메 산체스
  • 메리노 에드워도
  • 로버츠 티머시
  • 왕 보
  • 린 하오
  • 중 하오
  • 쩡 즈융
  • 주 쭝후

Assignees

  • 테라바디, 인크.

Dates

Publication Date
20260507
Application Date
20230921

Claims (20)

  1. It is a treatment system, and As a device, Power, and A device including a mounting portion; Attachment part configured to be removablely coupled to a mounting part; A first electrical connector including a socket defining the interior; and It includes a second electrical connector comprising a plurality of prongs arranged around a central axis; The attachment portion includes either a first electric connector or a second electric connector, and the mounting portion includes the other of the first electric connector or the second electric connector, and One of the first electric connector or the second electric connector included by the mounting part is electrically connected to a power source, and A treatment system configured such that, among multiple prongs, the prongs are deflected outward with respect to a central axis, and when the attachment part is coupled to the mounting part, the multiple prongs extend into the socket and apply radially outward pressure to the inside of the socket.
  2. A treatment system according to claim 1, wherein the device is a percussive massage device, and the device further comprises a motor and a shaft configured to reciprocate linearly in response to the activation of the motor, and the shaft comprises a mounting portion.
  3. In paragraph 2, the attachment part is a treatment system including a massage head.
  4. In paragraph 1, The second electrical connector includes a base, and A plurality of prongs extend from the base to the free end substantially parallel to the central axis, and the free end is the point furthest from the base on the plurality of prongs, and A treatment system in which, among a plurality of prongs, each prong is elastically deflected toward a resting shape that tapers toward a central axis from a free end, and accordingly, the plurality of prongs have a maximum set diameter orthogonal to the central axis at an axial position between the free end and the base.
  5. In paragraph 4, The socket is configured to have a contact depth in which a plurality of prongs contact the interior of the socket when the attachment portion is coupled to the mounting portion, and the contact span is the maximum distance across the interior of the socket at the contact depth, and A treatment system in which the maximum combined diameter of multiple prongs in the resting shape is larger than the contact span of the socket.
  6. In paragraph 5, The socket defines an opening configured to accommodate a plurality of prongs when the attachment portion is coupled to the mounting portion, and A treatment system in which the contact span is at least as large as the diameter of the opening.
  7. In paragraph 5, a treatment system in which the interior of the socket has a circular axial cross-section at the contact depth.
  8. A treatment system according to claim 1, wherein the prong is configured to be deflected radially inward toward the central axis as the attachment portion is coupled to the mounting portion.
  9. In paragraph 1, The first electrical connector is: A trench surrounding a socket, bounded by an outer wall; and Includes a conductive band contained by an outer wall; A treatment system in which a second electrical connector includes a conductive pin positioned radially outwardly with a plurality of prongs, and the conductive pin is configured to extend into a trench and contact a conductive band when the attachment portion is coupled to the mounting portion.
  10. In Paragraph 9, The trench includes a first trench, the inner wall includes a first inner wall, the outer wall includes a first outer wall, the conductive band includes a first conductive band, and the conductive pin includes a first conductive pin, and The socket is: A second trench surrounded by a first trench, a second trench bounded by a second outer wall; and It includes a second conductive band contained by a second outer wall; A treatment system comprising a plurality of prongs including a second conductive pin positioned radially inward of a first conductive pin, wherein the second conductive pin is configured to extend into a second trench and contact a second conductive band when the attachment portion is coupled to the mounting portion.
  11. In paragraph 1, further comprising a first mechanical connector and a second mechanical connector, The mounting portion includes either a first mechanical connector or a second mechanical connector, and the attachment portion includes the other of the first mechanical connector or the second mechanical connector, and The first mechanical connector includes a post extending radially, the radial direction is defined with respect to the position of the center axis of the second electrical connector relative to the first mechanical connector when the attachment portion is coupled to the mounting portion, and A treatment system in which a second mechanical connector includes a channel configured to guide a post when an attachment is coupled to a mounting portion, and accordingly, when an attachment is coupled to a mounting portion, the second mechanical connector is configured to engage with a first mechanical connector to releaseably secure the attachment to a device.
  12. In Clause 11, the channels of the second mechanical connector are each: An opening configured to accommodate each of the posts of the first mechanical connector when the attachment portion is coupled to the mounting portion; A sheet defining the end position reached by each of the posts when the attachment portion is coupled to the mounting portion; and A treatment system comprising a non-linear portion extending from the opening to the sheet.
  13. A treatment system according to claim 12, wherein each channel further comprises a circumferential leg that terminates at a sheet of the same channel, and the circumferential leg extends circumferentially around the position of the central axis of the second electrical connector relative to the second mechanical connector when the attachment portion is coupled to the mounting portion.
  14. A treatment system according to claim 13, wherein each channel is configured and sized to create an interference fit between each post and the axial surface of the seat when the attachment portion is coupled to the mounting portion.
  15. In Paragraph 12, The socket is configured to have a contact depth in which a plurality of prongs contact the interior of the socket when the attachment portion is coupled to the mounting portion, and the contact span is the maximum distance across the interior of the socket at the contact depth, and A treatment system in which multiple prongs are elastically deflected to have a combined outer diameter at least as large as the contact span when the post reaches the sheet.
  16. It is a treatment system, and As a device, Power, and A device including a mounting portion; Attachment part; A first electrical connector including an annular socket; and It includes a second electrical connector comprising an annular protrusion centered on a central axis; The attachment portion includes either a first electric connector or a second electric connector, and the mounting portion includes the other of the first electric connector or the second electric connector, and One of the first electric connector or the second electric connector included by the mounting part is electrically connected to a power source, and The attachment part is configured to be reversibly coupled to the mounting part, and accordingly, the attachment part can be switched between a locking position in which the attachment part cannot move axially relative to the mounting part by rotation of the attachment part relative to the mounting part about a central axis while the attachment part maintains contact with the mounting part, and a locking release position in which the attachment part can be removed axially from the mounting part. A system in which, when the attachment is in the locking position, the annular protrusion extends into the annular socket.
  17. A system according to claim 16, wherein the annular socket defines the interior and the annular protrusion is deflected outward with respect to the central axis so that when the attachment is in the locking position, the annular protrusion presses the interior of the socket radially outward.
  18. In paragraph 16, a system in which annular protrusions are collectively defined by a plurality of prongs.
  19. In paragraph 18, a system in which each of the plurality of prongs has a pin shape.
  20. In Paragraph 18, The second electrical connector includes a base, and The annular projection extends substantially parallel to the central axis from the base to the free end, and the free end is the point furthest from the base on the annular projection, and A system in which an annular protrusion is elastically deflected toward a resting shape that tapers toward the central axis at the free end, and accordingly, the annular protrusion has a maximum diameter with respect to the central axis at an axial position between the free end and the base.

Description

System, method, and device for percussion massage therapy Percussion massage devices are gaining popularity among athletes, fitness enthusiasts, and many other users due to their ability to provide various benefits, such as the relief of muscle tension and pain. Several other types of therapy can also be useful for treating the same condition or different ailments experienced by various groups of people. Particularly for this reason, many users rely on multiple devices to provide different types of therapy. However, some of these users may struggle to achieve the synergistic potential of multiple therapies when using different devices for each treatment. The accompanying drawings included in and forming part of this specification serve to illustrate embodiments of the present disclosure, explain the principles of the present disclosure together with further explanation, and enable a person skilled in the art to manufacture and use the present disclosure. FIG. 1a is a side elevation view of a treatment system according to some aspects of the present disclosure. FIG. 1b is a side elevation view of the treatment system of FIG. 1a in a partially disassembled state. FIG. 1c is a side elevation view of a part of the percussive massage device of the treatment system of FIG. 1a. FIG. 1d is an oblique perspective view of a part of the percussive massage device of FIG. 1c. FIG. 1e is a plan view of the end portion of the mounting part of the impact massage device of FIG. 1c. FIG. 1f is a side elevation view of the mechanical connector of the mounting portion of FIG. 1e. FIG. 1g is an oblique perspective view of the electrical connector of the mounting part of FIG. 1e. Figure 1h is a plan view of the end of the electrical connector of Figure 1g. FIG. 1i is a side elevation view of the electrical connector of FIG. 1g. Fig. 1j is a side elevation view of the massage attachment part of the treatment system of Fig. 1a. FIG. 1k is an oblique perspective view of the connector of the attachment part of FIG. 1j. Figure 11 is a plan view of the end of the electrical connector of the connector of Figure 1k. FIG. 2a is an oblique perspective view of a massage head according to an additional embodiment of the present disclosure. FIG. 2b is an oblique perspective view of the massage head of FIG. 2a in a partially disassembled state. FIG. 2c is an oblique perspective view of the massage head of FIG. 2a in a further disassembled state. FIG. 2d is an oblique perspective view of the massage head of FIG. 2a in a more disassembled state. FIG. 2e is a side elevation view of the massage head of FIG. 2a in a partially disassembled state of FIG. 2b. FIG. 3a is a side profile of a massage head according to an additional embodiment of the present disclosure. Fig. 3b is an oblique perspective view of the massage head of Fig. 3a. FIG. 3c is an oblique perspective view of the massage head of FIG. 3a in a partially disassembled state. Fig. 3d is an oblique perspective view of the massage head of Fig. 3a in a further disassembled state. FIG. 3e is a side elevation view of the massage head of FIG. 3a in a more disassembled state. Fig. 3f is a side elevation view of the heat sink of the massage head of Fig. 3a. Fig. 3g is an oblique perspective view of the heat sink of Fig. 3f. FIG. 3h is a second oblique perspective view of the heat sink of FIG. 3f. Fig. 3i is a bottom view of the heat sink of Fig. 3f. FIG. 4a is a side profile of a massage head according to an additional embodiment of the present disclosure. Fig. 4b is an oblique perspective view of the massage head of Fig. 4a. FIG. 4c is an oblique perspective view of the massage head of FIG. 4a in a partially disassembled state. Fig. 4d is an oblique perspective view of the massage head of Fig. 4a in a further disassembled state. Fig. 4e is a bottom view of the cover of the massage head of Fig. 4a. FIG. 4f is an oblique perspective view of a different configuration of the type of massage head shown in FIG. 4a. FIG. 5a is a side view of a treatment system according to an additional embodiment of the present disclosure. Fig. 5b is a side view of the treatment system of Fig. 5a in a partially disassembled state. FIG. 5c is a side elevation view of the infrared module of the treatment device of FIG. 5a. FIG. 5d is an inverted view of the infrared module of FIG. 5c in a partially disassembled state. FIG. 5e is an oblique perspective view of the infrared module of FIG. 5c in a partially disassembled state of FIG. 5d. FIG. 6a is a side elevation view of a treatment system according to an additional embodiment of the present disclosure. Figure 6b is an enlarged view of a part of the treatment system of Figure 6a. Fig. 6c is an oblique perspective view of part of Fig. 6b. Fig. 6d is a side elevation view of the treatment system of Fig. 6a in a partially disassembled state. Figure 6e is a graphical representation of a treatment protocol executable by the treatment system of Figure 6a. FIG. 6f is a chart i