CN111096757A

CN111096757A - Ache detects handle and massage armchair

Info

Publication number: CN111096757A
Application number: CN202010019184.1A
Authority: CN
Inventors: 王硕; 肖九昌; 张荣光
Original assignee: Xiamen Healthcare Electronic Co Ltd
Current assignee: Ogawa Intelligent Health Technology Group Co Ltd; Xiamen Healthcare Electronic Co Ltd
Priority date: 2020-01-08
Filing date: 2020-01-08
Publication date: 2020-05-05

Abstract

The invention provides a ache detecting handle, which comprises a handle body, wherein the handle body is held by a hand of a user. When the user detects the physiological parameters, the fingers of the user are placed above the detection assembly, the detection assembly can transmit the pressure applied by the fingers of the user to the sensing assembly through the elastic deformation of the force transmission assembly, the sensing assembly obtains the force applied by the fingers of the user according to the elastic deformation condition of the force transmission assembly, when the force applied by the hand of the user is overlarge, joints of the fingers are bent, so that the blood circulation in blood vessels in the fingers is reduced, the measured physiological parameters are not accurate, at the moment, the sensing assembly can send an alarm through the control assembly, so that the user is reminded that the pressing force of the fingers is overlarge during detection, the pressing force of the fingers of the user can be reduced, and the detection assembly can be used for measuring more accurate physiological data.

Description

Ache detects handle and massage armchair

Technical Field

The invention belongs to the technical field of physiological detection instruments, and particularly relates to a ache detecting handle and a massage chair.

Background

The massage armchair can massage the whole body of a person, relieve physical fatigue, promote whole-body blood circulation, stimulate body acupuncture points and improve the immunity of the body, and thus the massage armchair is popular among the masses. Along with the rapid development of the massage chair industry, the functions are gradually enriched, the meridian massage medical technology of the traditional Chinese medicine and the modern high-tech means are gradually integrated, the device has the detection functions of the physiological parameters of the human body, such as aching pain, pulse rate, blood oxygen and the like, and the important requirement that a user can know the physical condition at any time becomes a massage chair.

The acquisition of pulse rate, blood oxygen and other physiological parameters can be generally realized by applying a photoplethysmography (PPG) technology through a biosensor based on a photoelectric principle. According to the technical mode, the PPG waveform can be effectively acquired by properly attaching the finger or the wrist to the sensor, so that the physiological parameters can be calculated. The biosensor based on the photoelectric principle is easy to be influenced by factors such as ambient light, the fitting condition of a detection part and the sensor, and has certain influence on the detection success rate, the detection parameter accuracy and the user experience.

In the prior art, there is a multifunctional detection handle applied to a massage chair, when such a detection handle is used for detection, a user holds the detection handle, the palm center of the hand contacts with an electrode plate on the outer circumference of the handle, and the index finger abdomen is attached to a biosensor above the handle, so that detection of various physiological parameters is realized. Because the detection device is in a handle holding form, when in detection, if a user holds the device with excessive force, the index finger abdomen is pressed to block the flow of blood, so that the peripheral blood circulation of the index finger becomes poor, the signal quality of PPG pulse waves is necessarily poor, and the detection success rate and the detection parameter accuracy are influenced.

Disclosure of Invention

In order to solve the above problems, it is necessary to provide a ache detecting handle and a massage chair which can prevent the user from pressing too much.

The invention provides a ache detecting handle, which comprises a handle body, a detecting component, a force transmitting component, a sensing component and a control component, wherein the handle body is held by a hand of a user; when a user holds the handle body by hand for detection, one finger of the user is placed above the detection assembly and presses the detection assembly, and when the finger pressing force enables the force transmission assembly to deform within an elastic deformation range, the detection assembly sends a detection result to the control assembly; when the finger pressing force enables the force transmission assembly to deform outside the elastic deformation range, the sensing assembly senses the deformation outside the elastic deformation range and sends an abnormal signal to the control assembly, and the control assembly sends an alarm after receiving the abnormal signal to remind a user that the finger pressing force is too large during detection.

The invention arranges the force transmission component and the induction component which are connected with the detection component, the detection component can be movably arranged above the handle body, when the user detects the physiological parameters, the finger of the user is placed above the detection component, the detection component can transmit the pressure applied to the detection component by the finger of the user to the sensing component through the elastic deformation of the force transmission component, the sensing component obtains the force applied by the finger of the user according to the elastic deformation condition of the force transmission component, when the force applied by the hand of the user is too large, the joint of the finger is bent, so that the blood flow in the blood vessel in the finger becomes smaller, which causes the measured physiological parameter to be inaccurate, at this time, the sensing component can send out an alarm through the control component, thereby remind the user that finger pressing force is too big when detecting to user's finger can reduce the pressing force, ensures that the detection subassembly can record more accurate physiological data.

The invention also provides a massage chair, which adopts the ache detecting handle as above; the ache detecting handle is arranged on the armrest of the massage chair.

Drawings

FIG. 1 is a schematic view of the configuration of the soreness detecting handle according to the present invention;

FIG. 2 is an exploded view of the soreness detection handle of FIG. 1;

fig. 3 is a schematic view of the use of the soreness detection handle of fig. 1.

Reference numerals:

10 handle body 11 detection component 12 force transmission component

13 induction component 14 connecting component 15 electrode slice

16 handle body shell 17 mirror surface sheet

Detailed Description

The invention is described in detail below with reference to the drawings and specific examples:

the invention provides a ache detecting handle, which comprises a handle body 10, a detecting component 11, a force transmitting component 12, a sensing component 13 and a control component (the control component can be integrated on a circuit board and is not shown in the drawing), wherein the detecting component 11 can be movably arranged above the handle body 10, the force transmitting component 12 is arranged between the sensing component 13 and the detecting component 11 and can generate elastic deformation in a certain range when being extruded by the detecting component 11, and the detecting component 11 and the sensing component 12 are both electrically connected with the control component; when a user holds the handle body 10 to perform detection, one of the fingers of the user is placed above the detection component 11 and presses the detection component 11, and when the finger pressing force causes the force transmission component 12 to deform within an elastic deformation range, the detection component 11 sends a detection result to the control component; when the finger pressing force causes the force transmission assembly 12 to deform beyond the elastic deformation range, the sensing assembly 13 senses the deformation beyond the elastic deformation range and sends an abnormal signal to the control assembly, and the control assembly sends an alarm after receiving the abnormal signal to remind a user that the finger pressing force is too large during detection.

Preferably, the detecting component 11 is connected to the handle body 10 through a connecting component 14, the connecting component 14 is slidably disposed above the handle body 10, and the detecting component 11 can detect the user when the user's finger is placed above the handle body 10.

In specific implementation, as shown in fig. 1 to 3: the ache detecting handle comprises a handle body 10, and when a user sits on the massage chair, the user can hold the handle body 10 by hands to carry out physiological detection; generally, the outer surface of the handle body 10 is provided with an electrode plate 15 for detecting the skin electrical information of a user, and meanwhile, the handle body 10 is provided with a detection component 11, and the detection component 11 is used for detecting the pulse rate and the blood oxygen information; in this embodiment, the detecting component 11 is a biosensor using a photoelectric principle, and is implemented by applying a photoplethysmography (PPG) technology, which may be a contact-type detecting method or a non-contact detecting method, which is the prior art and is not described herein again;

the detecting component 11 is located above the handle body 10, when the user holds the soreness detecting handle, one of the fingers of the user can be placed above the handle body 10, so that the detecting component 11 detects the pulse rate and the blood oxygen information of the user; in this embodiment, the detecting component 11 is movably disposed above the handle body 10, the detecting component 11 is connected to the handle body 10 through a connecting component 14, and the connecting component 14 is movably connected to the handle body 10; preferably, a plurality of sliding grooves are formed in the handle body shell 16 along the length direction of the handle body 10, a protrusion is arranged on the connecting assembly 14, the protrusion is located in the sliding groove, and a spring is arranged between the protrusion and the sliding groove, so that the connecting assembly 14 can reset after being pressed (this is the prior art, and is not shown in detail in the drawings), and the connecting assembly 14 can also be movably arranged in the handle body 10 in other manners;

a force transmission component 12 is arranged below the detection component 11, the force transmission component 12 can elastically deform, a sensing component 13 is arranged below the force transmission component 12, when a finger of a user is placed above the detection component 11 for detection, the finger of the user applies pressure to the detection component 11, the force transmission component 12 can elastically deform within an allowable range, and at the moment, the sensing component 13 can send a detection result to the control component; when the user's finger exerts excessive pressure to detection element 11, the deformation outside the elastic deformation is allowed to take place for power transmission element 12, and response component 13 senses the deformation outside this elastic deformation scope and sends abnormal signal to this control assembly this moment, and this control assembly receives and sends out the police dispatch newspaper behind this abnormal signal, reminds the user that finger pressing force was too big when detecting.

The invention sets up the force transmission component 12 and the induction component 13 which are connected with the detection component 11, the detection component 11 can be movably arranged above the handle body 10, when the user detects the physiological parameter, the finger of the user is placed above the detection component 11, the detection component 11 can transmit the pressure applied to the detection component by the finger of the user to the induction component 13 through the elastic deformation of the force transmission component 12, the induction component 13 obtains the magnitude of the force applied by the finger of the user according to the elastic deformation condition of the force transmission component 12, when the magnitude of the force applied by the hand of the user is overlarge, the joint of the finger is bent, thus the blood circulation in the blood vessel in the finger is reduced, the measured physiological parameter is not accurate, at the moment, the induction component 13 can send out an alarm through the control component, thereby reminding the user that the pressing force of the finger is overlarge when detecting, and the pressing force of the finger of the user, ensuring that the detection assembly 11 is able to measure more accurate physiological data.

Preferably, as shown in fig. 2 and 3: the force transmission component 12 is an elastic component, the force transmission component 12 enables a user to apply a certain pressure to the detection component 11 during detection, and the control component gives an alarm when the pressure is equal to or greater than a set threshold value. Because the detecting component 11 is movably disposed above the force transmitting component 12, when the hand of the user is placed above the detecting component 11, the force applied by the detecting component 11 to the force transmitting component 12 is gradually increased, so that the force sensed by the sensing component 13 is also gradually increased, thereby allowing the finger of the user to apply a certain force, and preventing the control component from generating abnormal alarm.

Preferably, the sensing element 13 is a strain gauge, the sensing element 13 is deformed by the pressure applied to the detecting element 11 through the force transmitting element 12, and the magnitude of the pressure applied to the detecting element 11 is obtained according to the deformation of the sensing element 13 to alarm the control element. Preferably, the strain gauge is a resistance strain gauge, and the working principle of the resistance strain gauge is based on the strain effect, that is, when a conductor or a semiconductor material is mechanically deformed under the action of an external force, the resistance value of the conductor or the semiconductor material is correspondingly changed, and the phenomenon is called the strain effect.

Preferably, as shown in fig. 2 and 3: the force transfer component 12 is a silicone key. The silica gel key is a switch commonly used in the field of electronic and electrical technologies in the prior art, allows the application of force within a certain range, and the structure of the silica gel key is not described herein.

Preferably, as shown in fig. 2 and 3: this coupling assembling 14 is the loop configuration, and this coupling assembling 14 sets gradually mirror surface piece 17 and determine module 11 along handle body 10 upper and lower direction, is equipped with transparent region or fretwork area on this mirror surface piece 17, and this transparent region or fretwork area are corresponding with this determine module 11. In one embodiment, the mirror 17 allows the detecting component 11 to better detect the pulse rate and blood oxygen information of the user.

Preferably, an electrode plate 15 is arranged outside the handle body 10, the electrode plate 15 is connected with the control component, and the electrode plate 15 is used for detecting skin electric signals of a user.

Claims

1. The utility model provides a ache detects handle, includes the handle body, and this handle body supplies user's hand to grip its characterized in that: the handle comprises a handle body, and is characterized by also comprising a detection component, a force transmission component, a sensing component and a control component, wherein the detection component is movably arranged above the handle body, the force transmission component is arranged between the sensing component and the detection component and can generate elastic deformation within a certain range when being extruded by the detection component, and the detection component and the sensing component are electrically connected with the control component; when a user holds the handle body by hand for detection, one finger of the user is placed above the detection assembly and presses the detection assembly, and when the finger pressing force enables the force transmission assembly to deform within an elastic deformation range, the detection assembly sends a detection result to the control assembly; when the finger pressing force enables the force transmission assembly to deform outside the elastic deformation range, the sensing assembly senses the deformation outside the elastic deformation range and sends an abnormal signal to the control assembly, and the control assembly sends an alarm after receiving the abnormal signal to remind a user that the finger pressing force is too large during detection.

2. The soreness detection handle of claim 1, wherein: the force transmission assembly is an elastic assembly, the force transmission assembly enables a user to apply certain pressure to the detection assembly when detecting, and the control assembly gives an alarm when the pressure is equal to or greater than a set threshold value.

3. The soreness detection handle of claim 1, wherein: the sensing assembly is a strain gauge, the pressure applied to the detection assembly enables the sensing assembly to deform through the force transmission assembly, and the magnitude of the pressure applied to the detection assembly is obtained according to the deformation of the sensing assembly so as to send an alarm to the control assembly.

4. The soreness detection handle of claim 2, wherein: the force transmission component is a silica gel key.

5. The soreness detection handle of claim 1, wherein: this detection component passes through coupling assembling and this body coupling of this handle, and this coupling assembling slides and sets up in this handle body top, and when user's finger was placed in handle body top, detection component can detect the user.

6. The soreness detection handle of claim 5, wherein: this coupling assembling is the loop configuration, and this coupling assembling sets gradually mirror surface piece and determine module along handle body upper and lower direction, is equipped with transparent region or fretwork area on this mirror surface piece, and this transparent region or fretwork area are corresponding with this determine module.

7. The soreness detection handle of any one of claims 1-6, wherein: the outer side of the handle body is provided with an electrode plate, the electrode plate is connected with the control assembly, and the electrode plate is used for detecting skin electric signals of a user.

8. A massage chair is characterized in that: using a soreness detection handle according to any one of claims 1 to 7; the ache detecting handle is arranged on the armrest of the massage chair.