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CN-115778072-B - Deep wave coil

CN115778072BCN 115778072 BCN115778072 BCN 115778072BCN-115778072-B

Abstract

The application discloses a deep wave coil which comprises a heat conducting piece, a heating unit, a main control unit and an adjusting component. The device comprises a heat conducting piece, an adjusting component, a main control unit, a heat generating unit and a heating unit, wherein the heat conducting piece is arranged on at least one arm and is provided with a convex surface or a concave surface, the convex surface or the concave surface is provided with at least one highest point and one lowest point, the adjusting component is arranged on the heat conducting piece and is positioned at a position which is not the highest point and the lowest point, the adjusting component is used for receiving acting force transmitted through hair during embedding and transmitting signals, the main control unit is connected with the heat conducting piece and the adjusting component and is used for receiving signals of the adjusting component, and the heating unit is connected with the heat conducting piece and is used for receiving signals of the main control unit so as to change modeling parameters. The deep wave curler can adjust the styling parameters according to the number of the hair to be styled, so that the hair is curled according to the normal styling parameters when the number of the hair is small, the higher the styling parameters are, the higher the heating temperature and/or the heating time are, and the hair curling is favorable for meeting the requirements of different customers on hair curling styling.

Inventors

  • ZHANG SANPING
  • WEI MIANJIA
  • LI YINSEN

Assignees

  • 深圳市奋达科技股份有限公司

Dates

Publication Date
20260508
Application Date
20221228

Claims (9)

  1. 1. A deep wave roll comprising two arms hinged to each other and capable of being engaged with each other, characterized by further comprising: a heat conducting member (31) provided on at least one of the arms, the heat conducting member (31) having a convex surface or a concave surface, the convex surface or the concave surface having at least a highest point and a lowest point; the adjusting component (5) is arranged on the heat conducting piece (31) and positioned at a position other than the highest point and the lowest point, and is used for receiving the acting force transmitted by the hair during embedding and transmitting a signal; the main control unit is connected with the heat conducting piece (31) and the adjusting component (5) and is used for receiving signals of the adjusting component (5); The heating unit (4) is connected with the heat conducting piece (31) and is used for receiving signals of the main control unit so as to change modeling parameters; The adjusting assembly (5) comprises: A trigger member (53) movably connected to the heat conductive member (31); The induction piece (55) is fixed on the heat conduction piece (31) and is connected with the main control unit; The trigger piece (53) moves relative to the sensing piece (55) and contacts the sensing piece (55), so that the main control unit controls the heating unit (4) to change the modeling parameters after receiving signals; the adjusting component (5) further comprises a movable piece (51), the heat conducting piece (31) is provided with a mounting groove (311), the movable piece (51) is movably connected in the mounting groove (311), a movable gap is formed between the movable piece (51) and the heat conducting piece (31), and the trigger piece (53) is connected to the movable piece (51).
  2. 2. Deep wave roll according to claim 1, characterized in that the adjusting assembly (5) further comprises a fixing member (54), one end of the fixing member (54) is fixed to the heat conducting member (31), the other end has a gap with the heat conducting member (31), and the sensing member (55) is connected to the fixing member (54).
  3. 3. Deep wave roll according to claim 1, characterized in that the heat conducting member (31) is provided with a connecting strip (315), the mounting groove (311) is arranged between the connecting strip (315) and the lowest point of the heat conducting member (31), and the distance between the mounting groove (311) and the connecting strip (315) is smaller than the distance between the mounting groove (311) and the lowest point of the heat conducting member (31).
  4. 4. Deep wave roll according to claim 1, characterized in that an elastic member (52) is arranged in the active gap, two ends of the elastic member (52) are respectively abutted against the active member (51) and the heat conducting member (31), and the elastic member (52) is used for providing an elastic force so that the active member (51) has a tendency to be far away from the sensing member (55).
  5. 5. Deep wave roll according to claim 1, characterized in that the heat conducting member (31) is further provided with a relief groove (312), and that the triggering member (53) passes through the relief groove (312) and contacts the sensing member (55) when the movable member (51) and the triggering member (53) are moved relative to the sensing member (55).
  6. 6. Deep wave roll according to any of claims 1-5, characterized in that at least two triggering elements (53) and at least two sensing elements (55) are arranged, the triggering elements (53) are arranged in a one-to-one correspondence with the sensing elements (55), and the signals generated after the triggering elements (53) are contacted with the corresponding sensing elements (55) are different, so that the modeling parameters of the heating unit (4) are controlled to be different after the signals are received by the main control unit.
  7. 7. Deep wave roll according to any of claims 1-5, characterized in that the heat conducting member (31) is provided with mounting holes (316), the mounting holes (316) being located below the highest point of the heat conducting member (31), the heat generating units (4) being mounted in the mounting holes (316).
  8. 8. Deep wave roll according to any of claims 1-5, characterized in that the heat generating unit (4) comprises a heat generating element (41) and two heat generating frames (42) clamping the heat generating element (41), wherein one of the two heat generating frames (42) is connected with a temperature sensing element (43).
  9. 9. Deep wave roll according to any of claims 1-5, characterized in that the heat conducting member (31) comprises a wave-shaped bracket, the deep wave roll further comprises a front bracket (32), a rear bracket (33), a lower hand plate (34) and a cover plate (35), the front bracket (32) and the rear bracket (33) are respectively inserted into both ends of the wave-shaped bracket and fixed with the wave-shaped bracket to form a bracket assembly (3), the bracket assembly (3) is mounted on the lower hand plate (34), and the cover plate (35) is mounted on the lower hand plate (34) and the bracket assembly (3).

Description

Deep wave coil Technical Field The application relates to the technical field of hair curlers, in particular to a deep wave coil. Background It is well known that hair is mainly used to absorb heat for styling during hair curling. However, deep wave curls have poor styling effect or even failed styling due to the fact that there are many parts of hair that are not heated during the actual curling operation, and therefore, it is necessary for those skilled in the art to provide a deep wave curler capable of adjusting the temperature according to the amount of hair being styled at the right time. Disclosure of Invention The application aims to provide a deep wave curler, which can adjust the styling temperature according to the number of hair to be styled, thereby achieving the purposes of curling hair at a normal styling temperature when the number of hair is small and curling hair at a higher styling temperature when the number of hair is large. In order to achieve the above object, the present application provides a deep wave roll, comprising two arms hinged to each other and capable of being engaged with each other, further comprising: the heat conducting piece is arranged on at least one arm and is provided with a convex surface or a concave surface, and the convex surface or the concave surface is provided with at least one highest point and at least one lowest point; The adjusting component is arranged on the heat conducting piece and positioned at a position other than the highest point and the lowest point, and is used for receiving acting force transmitted by hair during embedding and transmitting signals; The main control unit is connected with the heat conducting piece and the adjusting component and is used for receiving signals of the adjusting component; and the heating unit is connected with the heat conducting piece and is used for receiving signals of the main control unit so as to change modeling parameters. In some embodiments of the present invention, in some embodiments, The adjusting assembly includes: The trigger piece is movably connected to the heat conducting piece; The induction piece is fixed on the heat conduction piece and is connected with the main control unit; The trigger piece moves relative to the sensing piece and contacts the sensing piece, so that the main control unit receives the signal and then controls the heating unit to change the modeling parameters. In some embodiments, the adjusting assembly further comprises a movable member, the heat conducting member is provided with a mounting groove, the movable member is movably connected in the mounting groove, a movable gap is arranged between the movable member and the heat conducting member, and the trigger member is connected to the movable member; The adjusting component further comprises a fixing piece, one end of the fixing piece is fixed to the heat conducting piece, a gap is reserved between the other end of the fixing piece and the heat conducting piece, and the sensing piece is connected to the fixing piece. In some embodiments, the heat conducting member is provided with a connecting bar, the mounting groove is arranged between the connecting bar and the lowest point of the heat conducting member, and the distance between the mounting groove and the connecting bar is smaller than the distance between the mounting groove and the lowest point of the heat conducting member. In some embodiments, an elastic member is disposed in the movable gap, and two ends of the elastic member respectively abut against the movable member and the heat conducting member, where the elastic member is used to provide an elastic force, so that the movable member has a tendency to be far away from the sensing member. In some embodiments, the heat conducting member is further provided with a dodging groove, and when the movable member and the trigger member move relative to the sensing member, the trigger member passes through the dodging groove and contacts the sensing member. In some embodiments, at least two triggering pieces and sensing pieces are arranged, the triggering pieces and the sensing pieces are arranged in one-to-one correspondence, and trigger signals generated after the triggering pieces are contacted with the corresponding sensing pieces are different, so that the main control unit receives the trigger signals and then controls the modeling parameters of the heating unit to be different. In some embodiments, the heat conductive member is provided with a mounting hole below the highest point of the heat conductive member, and the heat generating unit is mounted in the mounting hole. In some embodiments, the heating unit comprises a heating element and two heating frames for clamping the heating element, and one of the two heating frames is selectively connected with the temperature sensing element. In some embodiments, the heat conductive member comprises a wave-shaped bracket, the deep wave roll further comprises a fro