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US-12622843-B2 - Massager and control method thereof

US12622843B2US 12622843 B2US12622843 B2US 12622843B2US-12622843-B2

Abstract

A massager includes a shell component provided with a contact side plate; a semiconductor refrigeration sheet, wherein the semiconductor refrigeration sheet is provided in the shell component, and the first working surface of the semiconductor refrigeration sheet is attached to the contact side plate; at least two electrode plates, wherein all of the electrode plates are provided on the contact side plate, and the polarities of the at least two electrode plates are opposite. The massager and the control method thereof according to the present disclosure use the semiconductor refrigeration sheet to cool or heat, so that the massager can realize various massage functions of cold compress, hot compress and alternating cold and hot massage, and achieve the effect of dissolving fat particles and discharging the fat particles out of the body. Moreover, an electrode plate is provided to release pulses, so that muscles can exercise passively.

Inventors

  • Shousheng Tang
  • Daojin Tang
  • Jianshou Chen

Assignees

  • Zhejiang E-cozy Electronic Technology Co., Ltd.

Dates

Publication Date
20260512
Application Date
20230106
Priority Date
20221028

Claims (14)

  1. 1 . A massager, comprising: a shell component ( 1 ), wherein the shell component ( 1 ) is provided with a contact side plate ( 11 ); semiconductor refrigeration sheets ( 2 ), wherein the semiconductor refrigeration sheets ( 2 ) are provided in the shell component ( 1 ), and a first working surface of the semiconductor refrigeration sheets ( 2 ) is attached to the contact side plate ( 11 ); at least two electrode plates ( 3 ), wherein all of the electrode plates ( 3 ) are provided on the contact side plate ( 11 ), and the polarities of the at least two electrode plates ( 3 ) are opposite; and a control device ( 4 ), wherein the control device ( 4 ) is electrically connected with the semiconductor refrigeration sheets ( 2 ) and all the electrode plates ( 3 ), and the control device ( 4 ) is capable of controlling the first working surface of the semiconductor refrigeration sheets ( 2 ) to cool or heat and controlling the electrode plates ( 3 ) to discharge; wherein the electrode plate ( 3 ) comprises metal sheets, all of the metal sheets are provided on the contact side plate ( 11 ), and the semiconductor refrigeration sheets ( 2 ) are attached to at least one of the metal sheets; wherein the semiconductor refrigeration sheets ( 2 ) correspond to the metal sheets one by one, and the semiconductor refrigeration sheets ( 2 ) are attached to the corresponding metal sheets; wherein the massager further comprises temperature detection mechanisms corresponding to the metal sheets one by one, the temperature detection mechanisms are capable of detecting the temperature of the corresponding metal sheets, and the temperature detection mechanisms are electrically connected with the corresponding semiconductor refrigeration sheets ( 2 ); and wherein the side of the metal sheet facing the semiconductor refrigeration sheets ( 2 ) is provided with a groove, the temperature detection mechanism comprises a thermistor, and the pin of the thermistor is provided in the groove through a thermal conductive film.
  2. 2 . The massager according to claim 1 , wherein the shell component ( 1 ) is provided with an air inlet ( 12 ) and an air outlet ( 13 ), an airflow channel is provided in the shell component ( 1 ), the airflow channel is communicated with the air inlet ( 12 ) and the air outlet ( 13 ), the semiconductor refrigeration sheets ( 2 ) are provided with a second working surface opposite to the first working surface, and the gas in the airflow channel flows through the second working surface.
  3. 3 . The massager according to claim 2 , wherein the massager further comprises a heat dissipation structure ( 5 ), the heat dissipation structure ( 5 ) is provided on the second working surface of the semiconductor refrigeration sheet ( 2 ), and the heat dissipation structure ( 5 ) is located in the airflow channel.
  4. 4 . The massager according to claim 2 , wherein the airflow channels correspond to the semiconductor refrigeration sheets ( 2 ) one by one, and the airflow in each airflow channel flows through the second working surface of the corresponding semiconductor refrigeration sheet ( 2 ).
  5. 5 . The massager according to claim 2 , wherein a vortex fan ( 6 ) is provided in the airflow channel, and the air intake of the vortex fan ( 6 ) faces the semiconductor refrigeration sheets ( 2 ).
  6. 6 . The massager according to claim 1 , wherein the massager further comprises at least two massage parts, each of the massage parts is provided with at least one semiconductor refrigeration sheet ( 2 ) and at least one electrode plate ( 3 ), and a distance adjusting mechanism is provided between two adjacent massage parts.
  7. 7 . A control method of the massager according to claim 1 , wherein the massager is provided with a dual-temperature massage mode, and the control method further comprises: when the massager is in the dual-temperature massage mode, controlling a semiconductor refrigeration sheet ( 2 ) to alternately cool and heat, and controlling an electrode plate ( 3 ) to generate pulses.
  8. 8 . The control method according to claim 7 , wherein controlling the semiconductor refrigeration sheet ( 2 ) to alternately cool and heat comprises: S 1 , controlling the semiconductor refrigeration sheet ( 2 ) to cool for a first time period; S 2 , controlling the semiconductor refrigeration sheet ( 2 ) to heat for a second time period; S 3 , repeating the steps S 1 and S 2 .
  9. 9 . The control method according to claim 7 , wherein the massager comprises at least two semiconductor refrigeration sheets ( 2 ), and the control method comprises: when the massager is in the dual-temperature massage mode, heating by at least one of the semiconductor refrigeration sheets ( 2 ) while cooling by at least one of the semiconductor refrigeration sheets ( 2 ).
  10. 10 . The control method according to claim 7 , wherein the massager is further provided with a single-cooling massage mode, and the control method comprises: when the massager is in the single-cooling massage mode, controlling the semiconductor refrigeration sheet ( 2 ) to cool, and controlling the electrode plate ( 3 ) to generate pulses.
  11. 11 . The control method according to claim 10 , wherein controlling the semiconductor refrigeration sheet ( 2 ) to cool further comprises: performing cyclic refrigeration in a first preset temperature range by the semiconductor refrigeration sheet ( 2 ).
  12. 12 . The control method according to claim 7 , wherein the massager is further provided with a single-heating massage mode, and the control method comprises: when the massager is in the single-heating massage mode, controlling the semiconductor refrigeration sheet ( 2 ) to heat, and controlling the electrode plate ( 3 ) to generate pulses.
  13. 13 . The control method according to claim 12 , wherein controlling the semiconductor refrigeration sheet ( 2 ) to heat further comprises: performing cyclic refrigeration in a second preset temperature range by the semiconductor refrigeration sheet ( 2 ).
  14. 14 . The control method according to claim 7 , wherein the electrode plate ( 3 ) is provided with at least two pulse modes, and controlling the electrode plate ( 3 ) to generate pulses further comprises: controlling the electrode plate ( 3 ) to switch freely in the at least two pulse modes.

Description

CROSS REFERENCE TO RELATED APPLICATION This application takes priority from and claims the benefit of Chinese Patent Application No. 202211333552.5 filed on Oct. 28, 2022 and Chinese Patent Application No. 202222856744.6 filed on Oct. 28, 2022, the contents of which are incorporated herein by reference. TECHNICAL FIELD The present disclosure relates to the technical field of a massager, in particular to a massager and a control method thereof. BACKGROUND With the accelerating pace of modern life, people tend to keep the same posture for long hours of work or entertainment, such as reading and writing at their desks, typing, using mobile phones and other electronic devices, so that it is easy to make the muscles of the relevant body parts in the abnormal physiological curvature state for a long time, resulting in fatigue, ache and other symptoms of the muscles of the body parts. A massager is a device for stimulating massage to local parts of a human body, which provides various simulation functions such as acupuncture, massage, hot compress and massage, so as to achieve the effects of relaxing muscles, soothing nerves, promoting blood circulation and relieving fatigue. However, the massager in the prior art has a single function, which leads to the problem of a low massage effect of the massager. SUMMARY The present disclosure discloses a massager and a control method thereof, solving the problem that the massager has a single function and a low massage effect. The present disclosure discloses a massager, comprising: a shell component, wherein the shell component is provided with a contact side plate;a semiconductor refrigeration sheet, wherein the semiconductor refrigeration sheet is provided in the shell component, and the first working surface of the semiconductor refrigeration sheet is attached to the contact side plate;at least two electrode plates, wherein all of the electrode plates are provided on the contact side plate, and the polarities of the at least two electrode plates are opposite;a control device, wherein the control device is electrically connected with the semiconductor refrigeration sheet and all the electrode plates, and the control device is capable of controlling the first working surface of the semiconductor refrigeration sheet to cool or heat and controlling the electrode plates to discharge. The electrode plate comprises metal sheets, all of the metal sheets are provided on the contact side plate, and the semiconductor refrigeration sheet is attached to at least one of the metal sheets. The semiconductor refrigeration sheets correspond to the metal sheets one by one, and the semiconductor refrigeration sheets are attached to the corresponding metal sheets. The shell component is provided with an air inlet and an air outlet, an airflow channel is provided in the shell component, the airflow channel is communicated with the air inlet and the air outlet, the semiconductor refrigeration sheet is provided with a second working surface opposite to the first working surface, and the gas in the airflow channel flows through the second working surface. The massager further comprises a heat dissipation structure, the heat dissipation structure is provided on the second working surface of the semiconductor refrigeration sheet, and the heat dissipation structure is located in the airflow channel. The shell component is further provided with a panel opposite to the contact side plate and a side wall between the panel and the contact side plate, the air inlet is located on the panel and/or the side wall, and the air outlet is located on the panel and/or the side wall. The airflow channels correspond to the semiconductor refrigeration sheets one by one, and the airflow in each airflow channel flows through the second working surface of the corresponding semiconductor refrigeration sheet. A vortex fan is provided in the airflow channel, and the air intake of the vortex fan faces the semiconductor refrigeration sheet. The massager further comprises temperature detection mechanisms corresponding to the metal sheets one by one, the temperature detection mechanisms are capable of detecting the temperature of the corresponding metal sheets, and the temperature detection mechanisms are electrically connected with the corresponding semiconductor refrigeration sheets. The side of the metal sheet facing the semiconductor refrigeration sheet is provided with a groove, the temperature detection mechanism comprises a thermistor, and the pin of the thermistor is provided in the groove through a thermal conductive film. The massager further comprises at least two massage parts, each of the massage parts is provided with at least one semiconductor refrigeration sheet and at least one electrode plate, and a distance adjusting mechanism is provided between two adjacent massage parts. A display screen is provided on the panel, the display screen is electrically connected with the control device; and/or, a control b