Disclosure of Invention
The invention provides a neck massager and a starting method thereof, which aim to solve the problem of inconvenient operation to a certain extent when a user starts the neck massager.
In order to solve the above technical problems, the present invention provides a neck massager, comprising: the massage device comprises a shell, a massage element, a temperature sensitive element, a starting circuit and a control circuit, wherein the massage element, the temperature sensitive element, the starting circuit and the control circuit are arranged on the shell; the temperature sensing element is used for generating a trigger signal and sending the trigger signal to the starting circuit when the temperature is detected to meet a first preset condition, and the starting circuit is triggered by the trigger signal to start the control circuit so as to complete the starting and starting of the massage function of the neck massager.
Wherein, the first preset condition comprises: detecting a temperature rise above a threshold value within a predetermined time; or the detected temperature is the human neck temperature range.
The shutdown circuit is electrically coupled to the temperature sensitive element and the control circuit or between the control circuit and the power supply, the temperature sensitive element is further used for generating a trigger signal and sending the trigger signal to the shutdown circuit when detecting that the temperature meets a second preset condition, and the shutdown circuit is triggered by the trigger signal to shut down.
Wherein the second preset condition comprises: detecting a temperature drop above a threshold for a predetermined time; or the detected temperature is lower than the lower limit of the human neck temperature.
Wherein, the temperature sensitive element is arranged on one side of the neck massage instrument facing to the neck of the user.
In order to solve the technical scheme, the invention also provides a starting method of the neck massager, which comprises the following steps: the temperature sensing element of the neck massager detects the temperature; when the temperature meets a first preset condition, the temperature sensitive element generates a trigger signal and sends the trigger signal to a starting circuit of the neck massager, so that the starting circuit is triggered by the trigger signal to start.
Wherein, the step that the temperature satisfies first preset condition includes: within a predetermined time, the temperature rises above a threshold; or the temperature is within the temperature range of the neck of the human body, the temperature is determined to meet the first preset condition.
Wherein, the starting method of the neck massager further comprises the following steps: when the temperature meets a second preset condition, the temperature sensitive element generates a trigger signal and sends the trigger signal to a shutdown circuit of the neck massager, so that the shutdown circuit is triggered by the trigger signal to shut down.
Wherein, the step that the temperature satisfies the second preset condition includes: within a predetermined time, the temperature drops above a threshold; or the temperature is lower than the lower limit of the human neck temperature, the temperature is determined to meet a second preset condition.
Wherein, the step that the temperature-sensitive element of neck massage appearance detected the temperature includes: the temperature sensing element of the neck massager detects the temperature of one side, facing the neck of the human body, of the neck massager according to the preset frequency.
In order to solve the above technical solutions, the present invention further provides a computer-readable storage medium, in which program data is stored, the program data being executable to implement the method for starting a neck massage apparatus according to the above technical solutions.
The invention has the beneficial effects that: different from the situation of the prior art, the neck massager is provided with the temperature sensitive element, when the temperature sensitive element detects that the temperature meets the first preset condition, the temperature sensitive element generates a trigger signal and sends the trigger signal to the starting circuit, and the starting circuit starts the control circuit after being triggered by the trigger signal so as to complete the starting of the massage function of the neck massager. The neck massager can realize the startup and self-starting of the neck massager under certain conditions, reduces the operation steps of the startup of a user, and improves the intelligence of the neck massager.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, fig. 1 is a schematic circuit structure diagram of an embodiment of a neck massager provided by the present invention.
As shown in fig. 1, the neck massage apparatus of the present invention comprises: a shell 11, a massage element 12, a control circuit 13, a starting circuit 14, a temperature sensitive element 15 and a battery 16. The massage element 12, the control circuit 13, the power-on circuit 14, the temperature sensing element 15 and the battery 16 are all mounted on the housing 11. The massage device 12 is electrically coupled to the control circuit 13, the power-on circuit 14 is electrically coupled to the control circuit 13, and the temperature sensor 15 is electrically coupled to the power-on circuit 14 for detecting the temperature of the neck massage device facing the neck of the user. The power-on circuit 14 is also electrically coupled to the battery 16. That is, the power-on circuit 14 is electrically coupled between the control circuit 13 and the power source 16.
When the temperature sensitive element 15 detects that the temperature meets a first preset condition, the temperature sensitive element 15 generates a trigger signal and sends the trigger signal to the starting circuit 14, the starting circuit 14 is triggered by the trigger signal and then sends the trigger signal to the control circuit 13, and finally the control circuit 13 controls the massage element 12 to be started so as to complete the starting of the massage function of the neck massage instrument. The first preset condition is specifically as follows: and if the temperature detected by the temperature sensitive element in a preset time is higher than a threshold value or the temperature detected by the temperature sensitive element is within the temperature range of the neck of the human body, determining that the temperature meets a first preset condition.
When the neck massager is not used, the neck massager leaves a human body, generally, the neck massager is placed indoors at normal temperature, and the normal temperature is generally lower than the temperature of the human body or the change speed is slower, so that the neck massager cannot be started. When the neck massager is used by a user, the neck massager needs to be sleeved on the neck of the human body, the temperature sensitive element is heated by the neck of the human body, the temperature rise is detected to exceed the threshold value within the preset time, or the temperature detected by the temperature sensitive element is within the temperature range of the neck of the human body, namely after the detected temperature meets a first preset condition, the neck massager can be automatically started. According to the invention, after the neck massager is worn by the user, the massage function of the neck massager is automatically started, so that the steps of operating the neck massager by the user are reduced to a certain extent, and the intelligence of the neck massager is improved.
Referring to fig. 2, fig. 2 is a schematic circuit diagram of another embodiment of the neck massager of the present invention.
The neck massager of the present embodiment includes: a shell 21, a massage element 22, a control circuit 23, a power-on circuit 24, a power-off circuit 27, a temperature sensitive element 25 and a battery 26. The massage element 22, the control circuit 23, the power-on circuit 24, the power-off circuit 27, the temperature sensing element 25 and the battery 26 are all mounted on the housing 21. The massage device 22 is electrically coupled to the control circuit 23, the power-on circuit 24 is electrically coupled to the control circuit 23, the power-off circuit 27 is also electrically coupled to the control circuit 23, and the temperature sensor 25 is electrically coupled to the power-on circuit 24 and the power-off circuit 27 for detecting the temperature of the neck massage apparatus facing the neck of the user. The temperature sensor 25 is electrically coupled to the power-on circuit 24 and the power-off circuit 27, and the power-on circuit 24 and the power-off circuit 27 are electrically coupled between the control circuit 23 and the power source 26.
When the temperature sensing element 25 detects that the temperature meets the first preset condition, the temperature sensing element 25 generates a trigger signal and sends the trigger signal to the starting circuit 24, the starting circuit 24 sends the trigger signal to the control circuit 23 after being triggered by the trigger signal, and finally the control circuit 23 controls the massage element 22 to be started so as to complete the starting of the massage function of the neck massage instrument. When the temperature sensing element 25 detects that the temperature meets a second preset condition, the temperature sensing element 25 generates a trigger signal and sends the trigger signal to the shutdown circuit 27, the shutdown circuit 27 is triggered by the trigger signal to further start the control circuit 23, and finally the control circuit 23 controls the massage element 22 to be closed to complete the closing of the massage function of the neck massage instrument, wherein the triggering process is powered by the battery 26.
Wherein, the first preset condition comprises: and if the temperature detected by the temperature sensitive element in a preset time is higher than a threshold value or the temperature detected by the temperature sensitive element is within the temperature range of the neck of the human body, determining that the temperature meets a first preset condition. And the second preset condition includes: and if the temperature detected by the temperature sensitive element is lower than the lower limit of the human neck temperature within the preset time, determining that the temperature meets a second preset condition. The predetermined time and the threshold value can be set according to practical application.
When the neck massager is not used, the neck massager leaves a human body, generally, the neck massager is placed indoors at normal temperature, and the normal temperature is generally lower than the temperature of the human body or the change speed is slower, so that the neck massager cannot be started. When the neck massager is used by a user, the neck massager needs to be sleeved on the neck of the human body, the temperature sensitive element is heated by the neck of the human body, the temperature rise is detected to exceed the threshold value within the preset time, or the temperature detected by the temperature sensitive element is within the temperature range of the neck of the human body, namely after the detected temperature meets a first preset condition, the neck massager can be automatically started. When the neck massager is used up by a user and taken down, the temperature sensitive element does not contact with the neck of the human body any more and loses the heat source, and then the temperature detected by the temperature sensitive element is reduced to exceed the threshold value within the preset time, or the temperature detected by the temperature sensitive element is not within the temperature range of the neck of the human body, namely after the temperature is detected to meet the second preset condition, the automatic shutdown of the neck massager can be realized. According to the invention, after a user wears the neck massager, the massage function of the neck massager is automatically started; after the user takes off the neck massager, the massage function of the neck massager is automatically closed, the steps of operating the neck massager by the user are reduced to a certain extent, and the intelligence of the neck massager is improved.
The following will explain how the neck massage apparatus of the present invention takes temperature by the temperature sensitive element. Referring to fig. 3, fig. 3 is a schematic structural view of an embodiment of the neck massager provided by the present invention.
The neck massager 30 of the present embodiment includes: a massager body 31, a massage assembly 32 and a temperature sensitive element 33. The massage machine body 31 includes: a first handle 311, a second handle 312, and an elastic member 313. Wherein, the first handle 311 and the second handle 312 are connected by an elastic member 313. The massage assembly 32 is disposed on one side of the massage apparatus body 31 facing the neck of the user, and the massage assembly 32 includes: a first electrode sheet 321 and a second electrode sheet 322. The temperature sensitive element 33 is disposed on the massage assembly 32 and located between the first electrode plate 321 and the second electrode plate 322, and a surface of the temperature sensitive element 33 facing the neck of the user is smoothly connected to a surface of the massage assembly 32 facing the neck of the user, that is, a surface of the temperature sensitive element 33 facing the neck of the user is smoothly connected to surfaces of the first electrode plate 321 and the second electrode plate 322.
The massage components in the circuit structure of the neck massage apparatus in the previous embodiment are disposed on the massage assembly 32, the control circuit, the power-on circuit, the power-off circuit and the battery are disposed on the massage apparatus body 31, and the outer side of the massage apparatus body 31 is disposed with the housing of the neck massage apparatus.
The smooth engagement between the surface of the temperature sensitive element 33 facing the neck of the user and the surfaces of the first electrode plate 321 and the second electrode plate 322 can improve the comfort of the user when using the neck massager 30 while bringing the neck of the user into the detection range of the temperature sensitive element 33. In other embodiments, the temperature sensitive element 33 is disposed on the massage assembly 32, and the surface of the temperature sensitive element 33 facing the neck of the user is flush with the edges of the surfaces of the first electrode plate 321 and the second electrode plate 322.
When the neck massager 30 is worn by the user, the temperature sensitive element 33, the first electrode pad 321, and the second electrode pad 322 are in close contact with the skin of the neck of the user. Since the temperature of the skin of the neck of the user is higher than that of the neck massage apparatus 30, the temperature of the side of the neck massage apparatus 30 facing the neck of the user gradually increases to the temperature of the skin of the neck of the user within a certain time, and when the temperature sensitive element 33 detects that the temperature of the side of the neck massage apparatus 30 facing the neck of the user rises above a threshold value or is within the temperature range of the neck of the human body, it is determined that the user wears the neck massage apparatus 30, and the neck massage apparatus 30 is automatically turned on. When the user takes off the neck massager 30, the temperature of the neck massager 30 towards the neck of the user gradually decreases to room temperature, and at this time, the temperature detected by the temperature sensitive element 33 decreases to exceed the threshold value within a certain time, or the temperature is not within the range of the neck temperature of the human body, so that it is determined that the user takes off the neck massager 30, and the neck massager 30 is automatically turned off.
Through the mode, the temperature sensitive element is arranged on one side, facing the neck of the user, of the massage component of the neck massage instrument, so that the temperature can be quickly detected when the neck massage instrument is worn or taken down by the user, and whether the neck massage instrument is started or shut down is judged. The invention reduces the steps of operating the neck massager by the user to a certain extent and improves the convenience and intelligence of the neck massager.
Referring to fig. 4, fig. 4 is a schematic flow chart illustrating a method for turning on a neck massager according to an embodiment of the present invention.
S11: the temperature sensing element of the neck massager detects the temperature of one side, facing the neck of the human body, of the neck massager according to the preset frequency.
The temperature sensing element of the embodiment is arranged on one side of the neck massage instrument facing to the neck of a user, and detects the temperature of one side of the neck massage instrument facing to the neck of a human body according to the preset frequency. The preset frequency can be set according to practical applications, for example: once for 1 minute or once for 2 minutes.
S12: when the temperature meets a first preset condition, the temperature sensitive element generates a trigger signal and sends the trigger signal to a starting circuit of the neck massager, so that the starting circuit is triggered by the trigger signal to start.
When the temperature detected by the temperature sensitive element rises over a threshold value within a preset time or the temperature is within the temperature range of the neck of the human body, the temperature is determined to meet a first preset condition, and the user wears the neck massager at the moment. The temperature sensitive element generates a trigger signal and sends the trigger signal to a starting circuit of the neck massage instrument, so that the starting circuit is triggered by the trigger signal to start, the trigger signal is sent to the control circuit, and finally the control circuit controls the massage element to start so as to complete the starting of the massage function of the neck massage instrument. For example: when the preset time is set to be 20 seconds, the threshold value is 5 ℃ and the temperature range of the neck of the human body is 34-37 ℃, if the temperature detected by the temperature sensitive element is increased by 7 ℃ within 20 seconds and exceeds the threshold value by 5 ℃, the temperature is determined to meet a first preset condition; if the temperature detected by the temperature sensitive element is 35 ℃, the temperature is also determined to meet a first preset condition, and the user wears the neck massager.
S13: when the temperature meets a second preset condition, the temperature sensitive element generates a trigger signal and sends the trigger signal to a shutdown circuit of the neck massager, so that the shutdown circuit is triggered by the trigger signal to shut down.
When the temperature detected by the temperature sensitive element is reduced to exceed the threshold value within the preset time or the temperature is not within the temperature range of the neck of the human body, the temperature is determined to meet a second preset condition, and the user takes down the neck massager at the moment. The temperature sensitive element generates a trigger signal and sends the trigger signal to a shutdown circuit of the neck massager, so that the shutdown circuit is triggered to shut down by the trigger signal and sends the trigger signal to the control circuit, and finally the control circuit controls the massage element to be shut down, so that the shutdown of the massage function of the neck massager is completed. For example: when the preset time is set to be 20 seconds, the threshold value is 5 ℃ and the temperature range of the neck of the human body is 34-37 ℃, if the temperature detected by the temperature sensitive element is reduced by 6 ℃ within 20 seconds and exceeds the threshold value by 5 ℃, the temperature is determined to meet a second preset condition; if the temperature detected by the temperature sensitive element is 31 ℃ and is lower than the lower limit of the neck temperature of the human body by 34 ℃, the temperature is also determined to meet a second preset condition, and the user takes off the neck massager.
Through the mode, the neck massager detects the temperature of the neck of a human body through the temperature sensitive element, and when the detected temperature meets a first preset condition, the neck massager is automatically started; and when the detected temperature meets a second preset condition, the neck massager is automatically turned off. The neck massager can automatically start the massage function of the neck massager after a user wears the neck massager, and automatically stop the massage function of the neck massager after the user takes off the neck massager, so that the steps of operating the neck massager by the user are reduced to a certain extent, and the intelligence of the neck massager is improved.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.