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CN-224219491-U - Electronic atomization equipment and heating curve switching device thereof

CN224219491UCN 224219491 UCN224219491 UCN 224219491UCN-224219491-U

Abstract

The application relates to the technical field of electronic atomization, in particular to electronic atomization equipment and a heating curve switching device thereof. The scheme includes that a heating body is arranged in the heating part, a reflecting mirror surface is arranged at the bottom of the heating part, a control structure, a signal transceiver and a direction identification hole are arranged in the control part, when the heating part is connected with the control part in the forward direction, a signal sent by the signal transceiver passes through the direction identification hole to reach the reflecting mirror surface, the reflecting mirror surface can reflect the signal to the control structure, the control structure controls the heating body to heat according to a first heating curve under the triggering of the signal, and when the heating part is connected with the control part in the reverse direction, the control structure can not receive the signal, and at the moment, the control structure controls the heating body to heat according to a second heating curve. Through the scheme, the switching of different heating curves can be realized only by changing the assembly direction of the heating part and the control part, the difficulty of design and operation is reduced, and a user can easily and quickly grasp the using method of the equipment.

Inventors

  • Tang Gaotao

Assignees

  • 广东省奇思智能制造有限公司

Dates

Publication Date
20260512
Application Date
20250519

Claims (10)

  1. 1. The heating curve switching device of the electronic atomization equipment is characterized by comprising a heating part and a control part which are detachably connected; A heating body is arranged in the heating part, and a reflecting mirror surface is arranged at the bottom of the heating part for connecting with the control part; The control part is internally provided with a control structure and a signal transceiver, the top part of the control part, which is used for being connected with the heating part, is provided with a direction identification hole, and the signal transceiver and the direction identification hole are positioned on the same axis; When the heating part and the control part are connected in the forward direction, the direction identification hole and the reflecting mirror surface are positioned on the same axis, and after a signal sent by the signal transceiver passes through the direction identification hole and reaches the reflecting mirror surface, the reflecting mirror surface can reflect the signal to the control structure, and the control structure controls the heating body to heat by a first heating curve under the triggering of the signal; When the heating part and the control part are reversely connected, the direction identification hole and the reflecting mirror surface are respectively positioned on two axes, so that the control part cannot receive the signal, and the control part controls the heating body to heat by a second heating curve when not receiving the signal.
  2. 2. The heating curve switching device of the electronic atomization equipment is characterized by comprising a heating part and a control part which are detachably connected; A heating body is arranged in the heating part, and a reflecting mirror surface is arranged at the top part of the control part, which is used for connecting the heating part; The heating part is internally provided with a control structure and a signal transceiver, the bottom of the heating part, which is used for connecting the control part, is provided with a direction identification hole, and the signal transceiver and the direction identification hole are positioned on the same axis; When the heating part and the control part are connected in the forward direction, the direction identification hole and the reflecting mirror surface are positioned on the same axis, and after a signal sent by the signal transceiver passes through the direction identification hole and reaches the reflecting mirror surface, the reflecting mirror surface can reflect the signal to the control structure, and the control structure controls the heating body to heat by a first heating curve under the triggering of the signal; When the heating part and the control part are reversely connected, the direction identification hole and the reflecting mirror surface are respectively positioned on two axes, so that the control part cannot receive the signal, and the control part controls the heating body to heat by a second heating curve when not receiving the signal.
  3. 3. The heating profile switching apparatus as claimed in claim 1 or 2, wherein the control structure comprises a signal transmitting circuit and a signal receiving circuit; The signal transceiver is a signal lamp, the signal lamp is connected with the signal sending circuit, and the signal sending circuit controls the signal lamp to be turned on after receiving a first signal; The signal receiving circuit is used for outputting a second signal after sensing the light emitted by the signal lamp, and is also used for outputting a third signal when the signal lamp is on and the light emitted by the signal lamp is not sensed.
  4. 4. The heating profile switching apparatus as set forth in claim 3, wherein the control structure further comprises a control board electrically connected to the signal transmitting circuit and the signal receiving circuit, respectively; The control board is used for controlling the heating body to heat according to a first heating curve after receiving the second signal, and is also used for controlling the heating body to heat according to a second heating curve after receiving the third signal.
  5. 5. The heating profile switching apparatus as set forth in claim 3, wherein the signal transmitting circuit comprises a signal receiving terminal, a first resistor, a first mos transistor, a second resistor, and a light emitting diode; the signal receiving end is used for receiving the first signal; The first end of the first resistor is connected with the positive electrode of the power supply, the second end of the first resistor is connected with the signal receiving end, the source electrode of the first mos tube is connected with the positive electrode of the power supply, the grid electrode of the first mos tube is connected with the signal receiving end, the drain electrode of the first mos tube is connected with the first end of the second resistor, the second end of the second resistor is connected with the positive electrode of the light emitting diode, and the negative electrode of the light emitting diode is grounded.
  6. 6. The heating profile switching apparatus as set forth in claim 3, wherein the signal receiving circuit comprises a transistor, a triode, a third resistor, a fourth resistor, a fifth resistor, a second mos transistor, and a signal output terminal; The first end of the transistor is connected with a positive power supply, the second end of the transistor is connected with the first end of the third resistor, the second end of the third resistor is grounded, the base electrode of the triode is connected with the second end of the transistor, the collector electrode of the triode is connected with the positive power supply, the emitter electrode of the triode is connected with the first end of the fourth resistor, the second end of the fourth resistor is grounded, the first end of the fifth resistor is connected with the positive power supply, the second end of the fifth resistor is connected with the drain electrode of the second mos transistor, the grid electrode of the second mos transistor is connected with the emitter electrode of the triode, the source electrode of the second mos transistor is grounded, and the signal output end is connected with the second end of the fifth resistor; The transistor generates a corresponding electric signal after receiving the light, so that the signal output end outputs a second signal, and when the transistor does not receive the light, the signal output end outputs a third signal.
  7. 7. The heating profile switching apparatus as set forth in claim 3, wherein the heating part and the control part have the same shape, and the heating part and the control part are both of a symmetrical structure.
  8. 8. The heating profile switching apparatus as claimed in claim 3, wherein the heating part and the control part are detachably connected by means of a snap-fit connection, or the heating part and the control part are detachably connected by means of a magnetic attraction.
  9. 9. An electronic atomizing device, characterized by comprising the heating curve switching device according to any one of claims 1 to 8, and further comprising a power supply module and a charging management module; The power supply module is used for supplying electric energy to the heating curve switching device; The charging management module is used for determining that the power supply module enters a discharging heating state or a charging energy supplementing state.
  10. 10. The electronic aerosolization device of claim 9, further comprising a display key electrically coupled to the control structure, the display key configured to send a first signal to the signal-sending circuit via the control structure upon triggering.

Description

Electronic atomization equipment and heating curve switching device thereof Technical Field The application relates to the technical field of electronic atomization, in particular to electronic atomization equipment and a heating curve switching device thereof. Background The conventional atomizing device can be heated by one heating curve or two heating curves in use. When the atomizing device has two or more heating curves, a key is generally used to switch the heating curves. In general, the keys are two operation modes, namely, one is a key which needs to be added with a switching curve in order to be separated from a heating start key in design, which leads to that the atomizing device needs to be provided with at least two keys, and the other is that when one key is used for realizing curve switching and heating, the case mode needs to be defined, such as continuously pressing the switching curve for several times. The two ways increase the design difficulty, so that the user cannot easily distinguish the key functions, or increase the operation difficulty. Disclosure of utility model The application provides electronic atomization equipment and a heating curve switching device thereof, which effectively solve the problems of high design and operation difficulty of switching heating curves of the existing atomization equipment. According to an aspect of the present application, there is provided in one embodiment a heating curve switching device of an electronic atomizing apparatus, including a heating part and a control part detachably connected; A heating body is arranged in the heating part, and a reflecting mirror surface is arranged at the bottom of the heating part for connecting with the control part; The control part is internally provided with a control structure and a signal transceiver, the top part of the control part, which is used for being connected with the heating part, is provided with a direction identification hole, and the signal transceiver and the direction identification hole are positioned on the same axis; When the heating part and the control part are connected in the forward direction, the direction identification hole and the reflecting mirror surface are positioned on the same axis, and after a signal sent by the signal transceiver passes through the direction identification hole and reaches the reflecting mirror surface, the reflecting mirror surface can reflect the signal to the control structure, and the control structure controls the heating body to heat by a first heating curve under the triggering of the signal; When the heating part and the control part are reversely connected, the direction identification hole and the reflecting mirror surface are respectively positioned on two axes, so that the control part cannot receive the signal, and the control part controls the heating body to heat by a second heating curve when not receiving the signal. According to an aspect of the present application, there is provided in one embodiment a heating curve switching device of an electronic atomizing apparatus, including a heating part and a control part detachably connected; A heating body is arranged in the heating part, and a reflecting mirror surface is arranged at the top part of the control part, which is used for connecting the heating part; The heating part is internally provided with a control structure and a signal transceiver, the bottom of the heating part, which is used for connecting the control part, is provided with a direction identification hole, and the signal transceiver and the direction identification hole are positioned on the same axis; When the heating part and the control part are connected in the forward direction, the direction identification hole and the reflecting mirror surface are positioned on the same axis, and after a signal sent by the signal transceiver passes through the direction identification hole and reaches the reflecting mirror surface, the reflecting mirror surface can reflect the signal to the control structure, and the control structure controls the heating body to heat by a first heating curve under the triggering of the signal; When the heating part and the control part are reversely connected, the direction identification hole and the reflecting mirror surface are respectively positioned on two axes, so that the control part cannot receive the signal, and the control part controls the heating body to heat by a second heating curve when not receiving the signal. In one implementation, the control structure includes a signal transmitting circuit and a signal receiving circuit; The signal transceiver is a signal lamp, the signal lamp is connected with the signal sending circuit, and the signal sending circuit controls the signal lamp to be turned on after receiving a first signal; The signal receiving circuit is used for outputting a second signal after sensing the light emitted by the signal lamp, and is also used for outputting