CN111905254A - Neck massager - Google Patents

Abstract

The invention discloses a neck massager which comprises a massage component, a heating element, a control circuit, a shell and an induction element. The massage assembly is used for massaging the neck of the user. The heating element is used for heating when the massage subassembly is worked. The control circuit is used for outputting electric signals to control the massage component and the heating component to be started and closed. The shell is sleeved on the periphery of the neck of the user and used for bearing the massage component, the control circuit and the heating element. The sensing element is used for generating proximity sensing information and transmitting the proximity sensing information to the control circuit when sensing that the human body is close to the neck massage instrument, so as to trigger the control circuit to control the heating element to be started. The massage component, the heating component and the induction element are electrically coupled with the control circuit. Through above-mentioned structure, the response component can sense human being and be close at the user neck massage appearance in-process of taking to let control circuit control massage subassembly preheat in advance, massage subassembly is warm state when human neck contact massage subassembly, does not influence user's normal use.

Description

Neck massager

Technical Field

The invention relates to the technical field of massage instruments, in particular to a neck massage instrument.

Background

At present, the common cervical vertebra massager can massage the neck of a human body by integrating four physical therapy modes of medium-low frequency electrotherapy, magnetic therapy, infrared thermal moxibustion and pillow traction together and utilizing the traditional Chinese medicine principle, so that the cervical vertebra massager can relax tendons and activate collaterals, help improve the blood circulation of the neck and effectively relieve the problems of stiffness and pain of neck muscles. Along with social development, neck massage appearance has obtained more common use, and present neck massage appearance sets up electrode massage piece commonly and massages the human body, and when electrode massage piece contacted human neck under cold weather, let the user feel cold uncomfortable, brought relatively poor user experience for the user, influence the user and normally used neck massage appearance at low temperature.

Disclosure of Invention

The invention mainly solves the technical problem that when a common neck massager is used in a cold environment, the temperature of the contact part of the neck massager and a user is low, so that the normal use of the user is influenced.

In order to solve the technical problems, the invention adopts a technical scheme that: there is provided a neck massager comprising a massage assembly, a heating element, a control circuit, a housing and an inductive element: the massage component is used for massaging the neck of the user; the heating element is used for heating when the massage component works; the control circuit is used for outputting electric signals to control the massage component and the heating element to be started and closed; the shell is sleeved on the periphery of the neck of the user and used for bearing the massage component, the control circuit and the heating element; the induction element is used for generating proximity induction information and transmitting the proximity induction information to the control circuit when sensing that a human body is close to the neck massage instrument so as to trigger the control circuit to control the heating element to be started; the massage assembly, the heating element, and the sensing element are electrically coupled to the control circuit.

Wherein, the heating element is arranged on one side of the massage component towards the neck of the human body and is thermally coupled with the massage component.

After receiving the proximity induction information, the control circuit judges whether the proximity induction information is continuously received beyond a first preset time length, if so, the heating element is controlled to be started, and otherwise, the heating element is not started.

After receiving the proximity induction information, the control circuit judges whether other proximity induction information is not received within a second preset time length, if so, the heating element is controlled to be started, and otherwise, the heating element is not started.

After receiving the proximity induction information, the control circuit controls the heating element to heat at a rated power more than twice and not more than 45 ℃ and not less than 36 ℃.

The number of the induction elements is multiple, at least one induction element is distributed on one side, far away from the neck of the human body, of the shell, and the other induction element is distributed on one side, facing the neck of the human body, of the shell.

Wherein, the neck massager also comprises an induction element switch button; the induction element switch button is arranged on the outer side of the shell, is electrically connected with the induction element and is used for closing or starting the induction element.

Wherein, be equipped with bluetooth module in the neck massage appearance, outside neck massage appearance remote controller with bluetooth module remote connection, bluetooth module with the control circuit electricity is connected, neck massage appearance remote controller passes through bluetooth module control circuit, control circuit receives start behind the information that neck massage appearance remote controller sent the heating member.

After receiving the information sent by the neck massager remote controller, the control circuit controls the heating element to start up according to the set heating power, so that the massage assembly reaches the preset temperature.

Wherein the neck massager further comprises a temperature monitoring element electrically coupled to the control circuit; after the control circuit receives the proximity sensing information, the control circuit controls the temperature monitoring element to start monitoring the external environment temperature and feed back the external environment temperature to the control circuit;

the neck massager is characterized in that an ambient temperature and heating element heating power mapping relation is stored in the neck massager, the control circuit is used for controlling the heating power of the heating element according to the ambient temperature value fed back by the temperature monitoring element and contrasting the ambient temperature and heating element heating power mapping relation.

The temperature monitoring element is also in wireless connection with the neck massager remote controller, and the external environment temperature monitored by the temperature monitoring element is displayed on a screen of the neck massager remote controller.

The neck massager further comprises a temperature adjusting button, and the temperature adjusting button is arranged on the side of the shell and used for adjusting the heating power of the heating element.

Compared with the prior art, the neck massager of the invention has the following beneficial effects: the induction element can sense that the human body is close at the neck massage appearance in-process that the user took to let control circuit control heating member heating in advance, make the massage subassembly can preheat, massage subassembly is warm state when human neck contact massage subassembly, does not influence user normal use.

Drawings

To more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic left side view of an embodiment of the neck massager of the present invention;

FIG. 2 is a right side schematic view of an embodiment of the neck massager of the present invention;

FIG. 3 is a front perspective view of one embodiment of the neck massager of the present invention;

FIG. 4 is a first schematic circuit diagram of the neck massager of the present invention;

fig. 5 is a second schematic circuit connection diagram of the neck massager of the present invention.

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.

The terms "first", "second", etc. in this application are used to distinguish between different objects and not to describe a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1 and 3, fig. 1 is a left side schematic view of the neck massager of the present invention, and fig. 3 is a front perspective view of the neck massager including a massage unit 1, a heating member 2, a control circuit 10, a housing 3, and a sensing element 4. The massage component 1 is used for massaging the neck of a user, the massage component 1 can comprise a motor, a massage head, an infrared mechanism, a magnetic stripe and the like, massages the human body, and meanwhile, the functions of infrared thermal moxibustion, magnetic therapy and the like are added. The heating element 2 is used for heating when the massage component 1 works, and the control circuit 10 is used for outputting electric signals to control the massage component 1 and the heating element 2 to be started and stopped. The shell 3 is sleeved on the periphery of the neck of the user and is used for bearing the massage component 1, the control circuit 10 and the heating component 2. The sensing element 4 may be an induction sensor for sensing the approach of a human body or an object, and is used for generating and transmitting approach sensing information to the control circuit 10 when sensing that the human body approaches the neck massager, so as to trigger the control circuit 10 to control the heating element 2 to start. The massage assembly 1, the heating element 2 and the inductive element 4 are electrically coupled to the control circuit 10.

A heating device is not arranged on a common neck massager, when a user uses the neck massager in a cold season or in an environment, the outer surface of the neck massager is cold, so that the skin of the user is cold and uncomfortable when the user is in contact with the neck massager, the normal use of the user is influenced, and the use experience is reduced. The neck massager is internally provided with the heating element 2 and the induction element 4, the induction element 4 is used for inducing whether a human body approaches the neck massager or not, if the human body approaches the neck massager, approach induction information is generated and transmitted to the control circuit 10, the control circuit 10 receives the approach induction information and then controls the heating element 2 to be started to heat the massage assembly 1, when a user uses the neck massager, the massage assembly 1 is preheated, the outside is in a warm state, the user can directly use the neck massager, and therefore the cold massage assembly 1 is prevented from causing discomfort to the user.

The heating element 2 in this application is provided on the side of the massage unit 1 facing the neck of the person and is thermally coupled to the massage unit 1. In one embodiment, the housing 3 is in a curved state, the massage assembly 1 is disposed on a side of the housing 3 facing the human body, and the heating element 2 is disposed in the massage assembly 1 or between the massage assembly 1 and the housing 3. In order to bring the user close to the neck massager and to activate the inductive element 4 until the user puts the neck massager on the neck, the heating member 2 heats the massage assembly 1 as quickly as possible to a predetermined temperature at which the user feels warmer. For example, after receiving the proximity sensing information, the control circuit 10 controls the heating element 2 to heat at more than twice the rated power, so as to raise the temperature of the massage assembly 1 in the shortest time to meet the use requirement. The heating section of the heating member 2 is not more than 45 degrees centigrade and not less than 36 degrees centigrade. When the ambient temperature is low, objects higher than the temperature of the human body will warm the human body, but the human body may be scalded when the temperature is higher than 45 degrees celsius, so the heating zone of the heating element 2 in this embodiment is 36 to 45 degrees celsius, preferably, the heating zone of the heating element 2 may also be set to 36 to 40 degrees celsius, or set to 38 to 43 degrees celsius, which belongs to the technical idea of the present invention.

The control circuit 10 in the present application, after receiving the proximity sensing information, determines whether the proximity sensing information is continuously received over a first predetermined time period, if so, controls the heating member 2 to start, otherwise, does not start the heating member 2. When the human body is close to the induction element 4 of the neck massage instrument, whether the user is ready to use the neck massage instrument or only pass by needs to be judged, at the moment, the control circuit 10 controls the heating element 2 to be started for preheating only after continuously receiving the proximity induction information for exceeding the preset time length, otherwise, the user is determined not to use the neck massage instrument and the heating element 2 is not started for heating. The first predetermined time interval may be set to 3-5 seconds, for example, when the sensing element 4 senses that the human body approaches the neck massager for more than 5 seconds, the control circuit 10 continuously receives the proximity sensing information sent by the sensing element 4, and at this time, the control circuit 10 determines that the user is about to use the neck massager, and then the heater 2 is activated to heat the massage assembly 1, so that the user can use the neck massager at a warmer temperature.

After receiving the proximity sensing information, the control circuit 10 in this embodiment determines whether other proximity sensing information is not received within a second predetermined time period before, if so, controls the heating element 2 to start, and otherwise, does not start the heating element 2. When the control circuit 10 determines the proximity sensing information, it is determined whether or not the proximity sensing information is continuously received within the first predetermined time period, and it is also determined whether or not other proximity sensing information is received after the first predetermined time period, thereby controlling the heater 2 to be activated or not. The purpose of the above arrangement is to avoid that when a user places other articles near the neck massage apparatus, the sensing element 4 of the neck massage apparatus is triggered to send proximity sensing information to the control circuit 10, so that the articles are mistaken for the user, and the heater 2 is continuously heated, thereby causing the neck massage apparatus to be damaged and even causing a fire. It should be noted that the proximity sensing information is sensing information generated by the sensing element 4 when the human body is first close to the neck massage apparatus, and the other proximity sensing information is other sensing information generated by the sensing element 4 when the human body or the object is close to the neck massage apparatus again, besides the first sensing information. When a human body approaches the neck massager, the sensing element 4 is triggered by the human body trunk, the hands or other parts, and the condition that the sensing element 4 is triggered by only one position when an article is placed around the neck massager is distinguished. In order to avoid the above disadvantages, the control circuit 10 of the present application continues to enter the determination within the second predetermined time length after continuously receiving the proximity sensing information beyond the first predetermined time length, and if no other proximity sensing information except the previous proximity sensing information is received within the second predetermined time length, the control circuit 10 determines that the proximity neck massage apparatus is a non-user, and does not start the heating member 2, otherwise, determines that the user is close, and starts the heating member 2 to heat.

The number of the sensing elements 4 in this embodiment is plural, and at least one sensing element 4 is distributed on one side of the shell 3 away from the neck of the human body, and another sensing element 4 is distributed on one side of the shell 3 facing the neck of the human body. In order to facilitate sensing of approach of a human body, the neck massage apparatus of the invention is provided with a plurality of sensing elements 4 which are distributed in different directions of the shell 3, at least one of the sensing elements 4 is distributed on the outer side of the shell 3, namely, one side far away from the neck of the human body, and at least one of the sensing elements is distributed on one side of the shell 3 close to the neck of the human body, so that the approach of the human body from any direction of the neck massage apparatus can be sensed by the sensing elements 4, and a response is rapidly made to start the heating element 2, thereby ensuring that the massage component 1 is in a preset warm state before the user uses the neck massage apparatus.

Please refer to fig. 4 for a schematic circuit connection diagram of the neck massager of the present embodiment.

The quantity of massage subassembly 1 and heating member 2 in this application is a plurality ofly, and the position one-to-one of a plurality of massage subassemblies 1 and a plurality of heating member 2. The neck massager in this embodiment is provided with two massage assemblies 1 respectively located on the left and right sides of the housing 3, and the two massage assemblies are symmetrically distributed with the center line of the neck massager as the center line. When the massage head is used for massaging two sides of the neck of a human body, the heating elements 2 correspond to the massage components 1, the number of the heating elements is two, and each heating element 2 respectively heats the corresponding massage component 1. Of course, the quantity and the distribution of massage subassembly 1 and heating member 2 also can have multiple mode, for example with a plurality of massage subassemblies 1 and a plurality of heating member 2 evenly distributed in casing 3, massage subassembly 1 and heating member 2 set up threely respectively, evenly distributed is on casing 3, respectively sets up a set ofly if about casing 3, sets up a set ofly on the perpendicular bisector of neck massager, also can reach the effect of massage, make every massage subassembly 1 all can heat simultaneously.

The heating member 2 in this embodiment is any one of a resistance wire, a ceramic heating sheet, an electric heating coil, and an electric heating rod. Electric heating mode has multiple mode, preferred pottery generates heat the piece in this embodiment and is regarded as heating member 2, pottery generates heat the piece and has long service life, thermal insulation performance is good, heat transfer is fast and insulating good advantage, be applied to on the neck massage appearance at first can avoid the electric leakage to cause bodily injury, secondly the neck massage appearance of this application requires highlyer to heating member 2's rate of heating, heat transfer can guarantee fast that massage subassembly 1 reaches the temperature of predetermineeing in short time, pottery generates heat the piece thermal insulation performance better once more, can stop heating a period after reaching the temperature of predetermineeing, save the electric quantity.

The neck massager in the application further comprises an induction element switch button 5, wherein the induction element switch button 5 is arranged on the outer side of the shell 3 and is electrically connected with the induction element 4 for closing or starting the induction element 4. The sensing element 4 in this embodiment can be selectively turned on or off by a user, and in a cold season or environment, the user can selectively turn on the sensing element 4 to turn on the neck massager to automatically heat. When the heating element 2 is not required to be activated for heating, the user can select to turn off the induction element 4 by using the induction element switch button 5 without heating the massage assembly 1. Of course, after the induction element 4 starts the heater 2 to heat, the user can also select to press the induction element switch button 5 to stop the heater 2 and stop heating the neck massager. The neck massager can be suitable for various different environments and can be selected according to the requirements of users, and the product is wide in application.

In one embodiment, as shown in fig. 2, the sensing element switch button 5 is disposed on the left side of the housing 3 for facilitating the user to operate to turn on or off the sensing element 4 during use.

Be equipped with bluetooth module in the neck massage appearance in this application, outside neck massage appearance remote controller and bluetooth module remote connection, bluetooth module is connected with control circuit 10 electricity, and the neck massage appearance remote controller passes through bluetooth module control circuit 10, and control circuit 10 starts heating member 2 after receiving the information that the neck massage appearance remote controller sent. After receiving the information sent by the neck massage instrument remote controller, the control circuit 10 controls the heating element 2 to start up with the set heating power, so that the massage component 1 reaches the preset temperature. For making neck massage appearance be applicable to multiple different application and demand, neck massage appearance in this embodiment is provided with neck massage appearance remote controller, can carry out wireless connection with the bluetooth module in the neck massage appearance, and the user controls neck massage appearance through neck massage appearance remote controller. When the user is close to the neck massager, the induction element 4 is used for inducing and controlling the heating element 2 to start preheating. When the user has the certain distance apart from the neck massage appearance, and prepare to use the neck massage appearance, also can start heating member 2 through the neck massage appearance remote controller, preheat massage subassembly 1, when the user took the neck massage appearance, massage subassembly 1's temperature had been under the temperature of predetermineeing, and the user can directly use.

The neck massager in the present application further comprises a temperature monitoring element electrically coupled to the control circuit 10; after the control circuit 10 receives the proximity sensing information, the control circuit 10 controls the temperature monitoring element to start monitoring the external environment temperature and feed back the external environment temperature to the control circuit, the mapping relation between the environment temperature and the heating power of the heating element is stored in the neck massager, and the control circuit 10 adjusts the heating power of the heating element according to the external environment temperature value fed back by the temperature monitoring element and by contrasting the mapping relation between the environment temperature and the heating power of the heating element. The neck massager is preset with a preheating temperature of the heating element 2, for example, the preset preheating temperature is 38 degrees centigrade, and when the external environment temperature is 15 degrees centigrade, the user experience is comfortable. When the external environment is high, for example, the external environment temperature is 25 ℃, the preheating temperature of the sensing element 4 is still 38 ℃, which may make the user feel hot, and at this time, the preheating temperature of the massage assembly 1 may be moderately reduced, which makes the human feel more comfortable. Therefore, the neck massage instrument of the embodiment is provided with the temperature monitoring element, meanwhile, a mapping relation curve of the ambient temperature and the heating power of the heating element is stored in the neck massage instrument in advance, the mapping relation curve is formed by experimental data and user experience feedback in advance, most people can feel comfortable temperature of the neck massage instrument correspondingly under different external ambient temperatures, the temperature of the neck massage instrument is directly related to the heating power of the heating element 2, and the mapping relation of the ambient temperature and the heating power of the heating element is formed according to the data. The temperature monitoring component is used for monitoring the external environment temperature and feeding back to the control circuit 10 when starting the neck massage appearance, and when the external temperature was higher, the control circuit suitably reduced the heating power of heating member 2 according to ambient temperature and heating member heating power mapping relation curve to reduce induction element 4's preheating temperature, make preheating temperature and external environment's temperature phase-match, increase user's comfort.

The temperature monitoring element in this embodiment is further wirelessly connected with the neck massage device remote controller, and the external environment temperature monitored by the temperature monitoring element is displayed on the screen of the neck massage device remote controller, so that a user can visually see the external environment temperature through the screen of the neck massage device remote controller, and the heating temperature of the heating member 2 is manually adjusted according to the environment temperature.

The neck massager in this embodiment further includes a temperature adjustment button 6, and the temperature adjustment button 6 is disposed on a side portion of the housing 3 and used for adjusting the heating power of the heating member 2. In one embodiment, the temperature adjustment means is a temperature adjustment button 6, which enables the user to manually adjust the heating power of the heating member 2, thereby adjusting the temperature of the inductive element 4. The temperature adjusting button 6 is arranged on the side part of the shell 3, so that when a user wears the neck massager and cannot visually observe the side part, the user can easily touch the temperature adjusting button 6 to adjust the temperature of the sensing element 4 to a temperature which is considered comfortable by the user.

Optionally, in another embodiment, referring to fig. 5, the neck massager of the present application is further provided with a driving circuit 20 of the sensing element 40, and the driving circuit 20 and the control circuit 30 of the neck massager operate independently. The driving circuit 20 is connected between the sensing element 40 and the control circuit 30. When the neck massager is in the standby state or the power-off state, the control circuit 30 is not operated, and the driving circuit 20 and the sensing element 40 are continuously operated in the low power consumption working mode. When a human body is sensed to approach the neck massage apparatus, the driving circuit 20 obtains a sensing signal generated by the sensing element 40, the control circuit 30 is triggered to start, the control circuit 30 controls the heating element 50 to heat, and the massage component 60 starts to massage after the temperature rises.

By using the neck massager, the induction element can induce the approach of a human body in the process of taking the neck massager by a user, and the control circuit controls the heating element to heat in advance, so that the massage component can be preheated, and the massage component is in a warm state when the neck of the human body contacts the massage component, and the normal use of the user is not influenced.

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.

Claims (12)

1. A neck massager, characterized in that the neck massager comprises:

a massage assembly for massaging a neck of a user;

a heating element for heating the massage assembly while the massage assembly is in operation;

the control circuit is used for outputting electric signals to control the massage component and the heating element to be started and closed;

the sensing element is used for generating proximity sensing information when sensing that a human body is close to the neck massage instrument;

the shell is sleeved on the periphery of the neck of the user and used for bearing the massage component, the control circuit and the heating element;

the massage component, the heating component and the induction element are electrically coupled with the control circuit, and when the induction element induces that a human body is close to the neck massage instrument, the induction element generates proximity induction information and transmits the proximity induction information to the control circuit so as to trigger the control circuit to control the heating component to be started.

2. The neck massager of claim 1 wherein the heating element is disposed on a side of the massage assembly facing the neck of the person and is thermally coupled to the massage assembly.

3. The neck massager of claim 2 wherein the control circuit determines whether the proximity sensing message is received for a predetermined time period after receiving the proximity sensing message, and if so, controls the heating element to activate, otherwise does not activate the heating element.

4. The neck massager of claim 2 wherein the control circuit determines whether no other proximity information has been received within a second predetermined time period after receiving the proximity information, and if so, controls the heating element to activate, otherwise does not activate the heating element.

5. The neck massager of claim 2 wherein the control circuit controls the heating element to heat at more than twice the rated power and to a temperature not greater than 45 degrees celsius and not less than 36 degrees celsius upon receiving the proximity sensing information.

6. The neck massager of claim 1 wherein the number of the sensing elements is plural, and at least one of the sensing elements is disposed on a side of the housing away from the neck of the human body, and another one of the sensing elements is disposed on a side of the housing toward the neck of the human body.

7. The neck massager of claim 1 further comprising an inductive element switch button;

the induction element switch button is arranged on the outer side of the shell, is electrically connected with the induction element and is used for closing or starting the induction element.

8. The neck massager of claim 1, wherein a bluetooth module is disposed in the neck massager, an external neck massager remote controller is remotely connected with the bluetooth module, the bluetooth module is electrically connected with the control circuit, the neck massager remote controller controls the control circuit through the bluetooth module, and the control circuit starts the heating element after receiving information sent by the neck massager remote controller.

9. The neck massager of claim 8 wherein the control circuit receives the information from the neck massager remote control and controls the heating element to be activated at a predetermined heating power to bring the massage assembly to a predetermined temperature.

10. The neck massager of claim 8 further comprising a temperature monitoring element electrically coupled to the control circuit;

after the control circuit receives the proximity sensing information, the control circuit controls the temperature monitoring element to start monitoring the external environment temperature and feed back the external environment temperature to the control circuit;

the neck massager is characterized in that an ambient temperature and heating element heating power mapping relation is stored in the neck massager, the control circuit is used for controlling the heating power of the heating element according to the ambient temperature value fed back by the temperature monitoring element and contrasting the ambient temperature and heating element heating power mapping relation.

11. The neck massager of claim 10 wherein the temperature monitoring element is further wirelessly connected to the neck massager remote control, the temperature monitoring element displaying the monitored ambient temperature on a screen of the neck massager remote control.

12. The neck massager of claim 1 further comprising a temperature adjustment button provided at a side of the housing for adjusting the heating power of the heating element.

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