JP3632528B2 - Lifetime judgment device for massage chair - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an invention for determining whether or not a part having a reuse value provided in a massage chair can be reused.
[0002]
[Prior art]
Conventionally, an electrical product with a remaining life sensor is known from Japanese Patent Application Laid-Open No. 7-306239, but in this conventional example, the determination of the remaining life of components in the electrical product is based on on / off of the power source, For this reason, there has been a problem that it is not possible to collect data of the cause of quality degradation that is not accompanied by turning on / off the power of the product itself.
[0003]
[Problems to be solved by the invention]
The present invention has been made in view of the above, among the components constituting the structure of the massage chair, the life determination apparatus of the massage chair that allows determination of the remaining service life of the parts which reuse valuable The issue is to provide.
[0004]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the life determination device for a massage chair according to the present invention is configured to recline the seat portion 15, the backrest portion 16 that is rotatable with respect to the seat portion 15, and the backrest portion 16. In the massage chair provided with the reclining mechanism part 17, at least the detection part 3 using the pressure sensor 9 is provided on the support part 8 that receives the load in the seat part 15 and the rotation speed of the pivot member 10 of the reclining mechanism part 17 is set. A detection unit 3 using an infrared sensor 14 for detection is provided, and further, a calculation unit 4 for calculating load history data detected by each pressure sensor 9 and detection data by the infrared sensor 14, detection results, and calculation a storage unit 5 for storing the results, reference values and results Keru receive the load in the seat portion 15 compares the reusable of the variable support part 8 And a determination unit 6 that determines whether or not the pivotable member 10 can be reused in the reclining mechanism unit 17 and a power supply unit 7 that supplies electric power to each unit. The determination unit 6 is provided in the massage chair, and the determination unit 6 is an external determination unit 6 different from the massage chair, and the calculation unit 4 is built in the external determination unit 6. It is characterized in that a connecting part for exchanging is provided on the massage chair side.
[0005]
By adopting such a configuration, the load received by the support portion 8 by the pressure sensor 9 is detected, the load history is recorded and compared with the reference value, thereby reusing the support portion 8 receiving the load at the seat portion 15. The rotation of the pivoting member 10 of the reclining mechanism 17 is detected by the infrared sensor 14, and the history of the rotational speed is recorded and compared with a reference value. Whether or not use is possible can be easily determined, each detection unit 3 and storage unit 5 are provided in the massage chair, and the determination unit 6 is an external determination unit 6 different from the massage chair, and the external determination unit 6 has a built-in calculation unit 4 and a connection unit for exchanging reusability determination data with the external determination unit 6 is provided on the massage chair side, so that the communication time with the external determination unit 6 is reduced, Necessary to determine whether or not reuse is possible That can reduce the time, also those which are capable of reducing the data amount accumulated in the massage chair side.
[0006]
Further, it is preferable that the calculation unit 4 calculates an integration value of the measurement data and determines whether or not the data can be reused by comparing with an integration value that is input in advance to the storage unit 5 and serves as a criterion for whether or not reuse is possible. With such a configuration, it is possible to make a determination based on the accumulated value, and it is possible to determine whether or not the component 2 can be reused with a simple configuration.
[0007]
Further, the calculation unit 4 calculates the maximum value of the measurement data within a certain time, and determines whether or not the data can be reused by comparing with a threshold value that is input in advance to the storage unit 5 and serves as a criterion for whether or not the data can be reused. preferable. With this configuration, the amount of data to be recorded and saved can be reduced.
[0008]
Further, it is preferable that the calculation unit 4 accumulates the number of times of detection in the detection unit 3 and determines whether or not reuse is possible by comparing with a threshold value that is input in advance to the storage unit 5 and serves as a criterion for whether or not reuse is possible. With this configuration, the amount of data to be recorded and saved can be reduced .
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on embodiments shown in the accompanying drawings.
[0010]
The electric massage chair structure 1 includes a seat portion 15, a backrest portion 16, a reclining mechanism portion 17, and a footrest portion 18. The structure 1 includes a detection unit 3 using a pressure sensor 9 for detecting a load history that affects the life of the support unit 8 that receives a load in a seat 15 that is a part 2 constituting the structure 1, and a reclining. A detection unit 3 using an infrared sensor 14 that detects the number of rotations that affects the life of the pivoting member 10 of the pivotal support portion 17 of the mechanism portion 17 is provided.
[0011]
In the present invention, in addition to the pressure sensor 9 and the infrared sensor 14 described above, a calculation unit 4 that calculates load history data detected by each pressure sensor 9 and detection data detected by the infrared sensor 14, and a detection result The storage unit 5 that stores the calculation result, the reference value and the result are compared to determine whether or not the support unit 8 that receives the load in the seat unit 15 can be reused, and the pivoting member 10 in the reclining mechanism unit 17 is reused. A determination unit 6 that determines whether or not it can be used and a power supply unit 7 that supplies power to each unit are provided.
[0012]
A substrate is installed in the operation device 19 provided on the side portion of the seat portion 15. A microcomputer chip and an IC memory are mounted on the substrate, and the storage unit 5 is provided on the substrate.
[0013]
On the other hand, the determination unit 6 is not provided in the electric massage chair, and is an external determination unit 6 that is different from the electric massage chair, and it is determined whether or not the external determination unit 6 can be reused in the operation unit 19. A connection part such as a terminal for exchanging data is provided. The controller 19 provided in the structure 1 is connected to the external determination unit 6 at the connection unit and exchanges reusability determination data, thereby reducing the amount of data accumulated on the controller 19 side. It can be done. Further, in the present invention in which the determination unit to the external determination unit 6, and each other to provide a calculation unit 4 to the outside determination unit 6 as shown in FIG. 1, which performs the determination of the operational and reused in external determining section 6 , and the thereby it is possible to reduce the amount of data accumulated in the operation unit 19 side, in which it is possible to shorten the time required for the determination of reuse can reduce the communication time between the external determining section 6 .
[0014]
In addition, a battery is built in the operation unit 19 to serve as a power supply unit 7, and the power supply unit 7 detects even when the power of the fir tree device 34 provided in the electric massage chair is not on. Power is supplied to each unit such as the unit 3 and the storage unit 5. FIG. 1 shows a control block diagram thereof.
[0015]
As shown in FIG. 2 , the seat portion 15 of the electric massage chair includes a cushion material 15a made of urethane, a cover 15b covering the cushion material 15a, an underblock portion 15c made of steel, and a cushion material 15a made of urethane. 15d (for example, a steel material having a diameter of 3 mm processed into an S shape) and a spring connecting rod 15e which is a reinforcing material for the spring material 15d. Of the above-described components constituting the seat 15 which is a constituent part of the electric massage chair structure 1, the under block 15c, the S-shaped spring material 15d and the spring connecting rod 15e are integrated. It is the support part 8 which receives load. And the underblock part 15c which is the support part 8 which receives the said load, the S-shaped spring material 15d, and the spring connecting rod 15e are also difficult to disassemble, Therefore, in this embodiment, the underblock part 15c and Assume that a component set in which an S-shaped spring member 15d and a spring connecting rod 15e are combined is a reusable component 2.
[0016]
Since the electric massage chair is a chair, it can be used as a chair even when the massage function is not used, that is, when the massage function is not turned on. The under-floc set, which is an integrated body of the under-block portion 15c, the S-shaped spring material 15d, and the spring connecting rod 15e, is a strength deterioration member due to a load to be loaded as a chair. In particular, the S-shaped spring material 15d is most susceptible to a load. Based on such a background, in the present embodiment, as shown in FIG. 4 , an S-shaped spring material 15d on the intersection line of the S-shaped spring material 15d and the spring connecting rod 15e, The pressure sensor 9 is installed and fixed on a spring caulking fitting to which the spring connecting rod 15e is fixed, and the pressure sensor 9 is used as the detection unit 3.
[0017]
Thus, when the pressure sensor 9 as the detection unit 3 receives an external pressure, the power of the massage function of the electric massage chair is turned on and off (that is, the product function of the product itself is turned on and off). Regardless of this, as shown in FIG. 8 , each time the chair is seated on the seat 15, it is activated, the integrated value of the load history data due to the seating is integrated by the calculation unit 4, and the result is stored in the storage unit 5. To do.
[0018]
Then, after the product is collected and disassembled, the determination unit 6 compares the integrated value of the load history data with a preset reference value, and compares it with the component 2 (in this embodiment, the underblock portion 15c and the S-shaped spring). It is determined whether or not it is possible to reuse the component set of the material 15d and the spring connecting rod 15e together. The component 2 that can be reused (in this embodiment, a component set in which the under block portion 15c, the S-shaped spring material 15d, and the spring connecting rod 15e are combined) resets the integrated value of the load history data. First, it is used as a reusable component together with the detection unit 3, the calculation unit 4, the storage unit 5, etc. (if the determination unit 6 is also incorporated together, this is also reused). It is possible to obtain all the data for determining whether or not to reuse a reused part.
[0019]
FIG. 9 shows an example in which a deterioration curve of the spring material 15d is used as a reference value for reuse. In the present embodiment, the detection unit 3 that is the pressure sensor 9 detects the seating, the calculation unit 4 calculates the number of seats, and the storage unit 5 accumulates the number of seats. In determining whether or not reuse is possible after product collection, disassembly, etc., data on the number of seating is input to the determination unit 6 and subjected to calculation processing based on a deterioration curve of the spring material 15d that is a criterion for whether or not reuse is possible. In addition, it is determined whether or not the component 2 (part set in which the underblock portion 15c, the S-shaped spring material 15d and the spring joint rod 15e are combined) can be reused. The component 2 that can be reused (in this embodiment, a component set in which the under block portion 15c, the S-shaped spring material 15d and the spring connecting rod 15e are combined) is the number of times the pressure sensor 9 is activated (the number of seats). Is used as a reusable component together with the detection unit 3, the calculation unit 4, the storage unit 5 and the like (if the determination unit 6 is also incorporated together, this is also reused). It is possible to obtain all the data for determining whether or not to reuse a reused part more than once.
[0020]
FIG. 10 shows a graph showing the relationship between the measured value and the time when the maximum value of the measured value within a fixed time is obtained. The calculating unit 4 calculates the maximum value of the measured data within the fixed time, It may be determined whether or not reuse is possible based on a comparison with a threshold value that is input in advance to the storage unit 5 and serves as a criterion for reuse availability. In this case, the amount of data to be recorded and saved can be reduced.
[0021]
FIG. 11 is a graph showing the relationship between the accumulated data of the number of times of detection and a threshold value that is set as a reusability criterion set in advance. The calculation unit 4 accumulates the number of times of detection in the detection unit 3. The reusability determination may be performed based on a comparison with a threshold value that is input to the storage unit 5 in advance and serves as a reusability criterion. In this case, the amount of data to be recorded and saved can be reduced.
[0022]
Next, an example will be described in which the component 2 constituting the pivot attachment member 10 among the components provided in the structure 1 is to be reused. In the electric massage chair, as shown in FIGS. 2, 3, and 5 , the backrest portion 16 and the reclining mechanism portion 17 are reclining with a back frame portion 20 made of steel, which is a constituent member of the back portion, and a person reclining with the right hand. A reclining lever 21 for performing an operation, an operation wire block 22 for shifting an instruction of the reclining lever 21 to a reclining operation, a gas spring 23 for transmitting the operation to the back frame portion 20, and a synthetic resin attached to the back frame portion 20. And a cover 25 covering the backboard 24. The back frame portion 20 is pivotally supported by a shaft 26 at the upper rear end of the under block portion 15c. 20 at the lower end of the cylinder of the gas spring 23 27 by Yes and pivotally supported, are pivoted rotatably by a shaft 33 to the front end of the tip under the block portion 15c of the rod of the gas spring 23. Here, when the reclining lever 21 is operated as shown by the arrow (1) in FIG. 3 , the operation wire block 22 is pulled as indicated by the arrow (2) , whereby the gas spring 23 is indicated as indicated by the arrow (3) . When driven, the back frame 20 rotates about the pivot as shown by an arrow (4) .
[0023]
Among the components constituting the backrest part 16 and the reclining mechanism part 17, the pivot part 10 includes a pipe part on the bottom side of the back frame part 20 and a gas spring 23. When assuming the standard of reuse of the back frame part 20, it is considered that the bottom pipe part of the back frame part 20 becomes a pivotal part at the time of the reclining operation, and particularly receives a load. Therefore, alternatively, the load applied to the pivot portion during the reclining operation can be detected based on the number of times the reclining lever 21 is used, and the component 2 can be reused together with the gas spring 23.
[0024]
Since the electric massage chair is a chair, it can be used as a chair even when the massage function is not used, that is, when the massage function is not turned on. The back frame portion 20 and the gas spring 23 are strength deterioration members due to the number of reclining operations. In particular, the bottom pipe portion of the back frame portion 20 and the pivot portion of the gas spring 23 are most deteriorated. Against this background, in the present embodiment, the infrared sensor 14 is provided inside the reclining lever 21 to form the detection unit 3.
[0025]
Therefore, the infrared sensor 14 serving as the detection unit 3 operates the reclining lever 21 as indicated by an arrow (1) in FIG. 3 to activate and confirm the use every time the reclining operation is performed. The latest result is accumulated in the storage unit 5.
[0026]
In determining whether or not the product can be reused after the product is collected or disassembled, the reclining usage count data is input to the determination unit 6 and processed, and the reference value of the reclining usage count that is used as a criterion for whether or not reused is 3000 times. Based on this, it is determined whether or not reuse is possible. The parts 2 that can be reused (in this embodiment, the back frame portion 20 and the gas spring 23 constituting the pivot member 10) do not reset the number of activations of the infrared sensor 14, but the detection unit 3 and the calculation unit 4. , And used as a reusable part together with the storage unit 5 etc. (if the judging unit 6 is also incorporated together, this is also reused). It is possible to collect all data.
[0027]
Next, in addition to determining whether or not the support member 8 that receives the load in the seat portion 15 among the components provided in the structure 1 of the massage chair and the pivoting member 10 of the pivot portion 17 of the reclining mechanism portion 17 can be reused. Further, an example in which the component 2 constituting the electric drive unit 11 in the massage chair is the object of reuse will be described. In the electric massage chair, the footrest unit 28 may be provided with a foot vibration unit 29 in some cases. As shown in FIG. 6 , the foot vibration unit 29 has a vibration generating device 31 attached to a mounting plate 30, the vibration generating device 31 is built in a housing 32, and the mounting plate 30 is fixed to the housing 32. Assuming that the entire foot vibration unit 29, which is the drive unit 11 driven by electricity, is assumed to be reused, strength deterioration due to vibration can be considered. This depends on the operating time of the motor incorporated in the vibration generator 31. Can be measured. The drive time of the motor is an electrical connection time detection circuit unit that constitutes the detection unit 3 that detects the electrical connection time (that is, the electrical connection time to the motor) to the drive unit 11 mounted on the board disposed in the operation device 19. It measures by.
[0028]
Thus, the electrical connection time to the drive unit 11 is counted by the electrical connection time detection circuit unit that is the detection unit 3, and this is calculated by the calculation unit 4 to be converted into the number of times of use. The latest result is stored in the storage unit 5. Accumulated.
[0029]
In determining whether or not the product can be reused after product collection, disassembly, etc., the data on the number of times of use stored in the storage unit 5 is input to the determination unit 6 to perform arithmetic processing and based on a reference value that is a criterion for whether or not reuse is possible. In this case, whether or not reuse is possible is determined. In this case, it is also possible to determine whether reuse is possible by comparing the electrical connection time with a reference value for reuse of the electrical connection time to the motor of 700 hours. As a result of the determination as to whether or not reuse is possible, a result indicating whether reuse is possible (O) or not possible to reuse (X) may be displayed on a display provided on the operation device 19. The component 2 (foot vibration unit 29 in the present embodiment) that can be reused together with the detection unit 3, the calculation unit 4, the storage unit 5 and the like without resetting the electrical connection time detection circuit unit that is the detection unit 3 It is used as a reusable part (if the determination unit 6 is also incorporated together, this is also reused), and thus it is possible to obtain all the data for determining whether or not the reusable part can be reused twice or more. It becomes possible.
[0030]
Next, in addition to determining whether or not the support member 8 that receives the load in the seat portion 15 among the components provided in the structure 1 of the massage chair and the pivoting member 10 of the pivot portion 17 of the reclining mechanism portion 17 can be reused, Further, an example in which a synthetic resin part 2 among the parts provided in the massage chair structure 1 is reused will be described.
[0031]
In the electric massage chair, as shown in FIG. 7 , the backboard 24 attached to the back frame portion 20 is made of a synthetic resin such as polypropylene. Since the backboard 24 is made of synthetic resin (that is, a fatigue member), it is difficult to reuse the shape as it is. For this reason, it is considered optimal to re-pelletize and recycle after collection. At the time of re-pelletizing, it is desirable to leave a history of the properties because the environment in which the member is used affects the characteristics. For this reason, the temperature sensor 13 is provided on the backboard 24 to provide the detection unit 3.
[0032]
Thus, the temperature sensor 13 serving as the detection unit 3 detects the temperature of the backboard 24 portion, stores a record of this temperature in the storage unit 5, and exchanges data between the storage unit 5 and the calculation unit 4 to detect the detection period. The maximum temperature and the maintenance time are updated and recorded at any time.
[0033]
In determining whether or not the product can be reused after the product is collected, disassembled, etc., the maximum temperature value and the maintenance time data stored in the storage unit 5 are input to the determination unit 6 and processed to be used as a criterion for reuse. Based on the reference value, it is determined whether or not reuse is possible. In this case, the range of the temperature history corresponding to the use of the re-pellet material is determined in advance and used as a reference value. Then, the recyclable synthetic resin part 2 (backboard 24 in this embodiment) is sent to the re-pelletizing process, and the non-recyclable part 2 is sent to the heat recycling process to be a fuel for combustion. is there.
[0034]
In the above embodiment, the variation factor due to the temperature is detected by the detection unit 3 including the temperature sensor 13 as a variation factor that affects the life of the component 2. 3 may be detected.
[0035]
【The invention's effect】
As described above, in the first aspect of the present invention, the seat portion, the backrest portion that is rotatable with respect to the seat portion, and the reclining mechanism portion for performing the reclining operation of the backrest portion are provided. In the provided massage chair, at least a detection unit using a pressure sensor is provided in a support unit that receives a load in the seat and a detection unit using an infrared sensor that detects the number of rotations of a pivoting member of the reclining mechanism unit is provided, Furthermore, the calculation unit for calculating the load history data detected by the pressure sensors and the detection data by the infrared sensor, the storage unit for storing the detection result and the calculation result, the reference value and the result are compared. A determination unit for determining whether or not the support unit receiving the load in the seat is reusable, and determining whether or not the pivoting member is reusable in the reclining mechanism unit; It consists of a power supply unit that supplies power to each unit, and each of the detection units and storage units are provided in the massage chair, and the determination unit is an external determination unit that is different from the massage chair, and a calculation unit is built in the external determination unit Since there is a connection part on the massage chair side for exchanging reusability determination data with the external determination part, the load received on the support part is detected by the pressure sensor, the load history is recorded and compared with the reference value By doing so, it is possible to easily determine whether or not the support portion that receives the load in the seat portion can be reused, and the rotation of the pivoting member of the reclining mechanism portion is detected by the infrared sensor, and the rotation speed history is recorded and the reference value is recorded. It is possible to easily determine whether or not the pivot attachment member can be reused, and thereby, the support portion for supporting the load in the seat portion of the massage chair and the reclining mechanism portion. Are those able to reduce the cost by reusing branch pivot member, and each detection unit, the storage unit is provided in the massage chair child, there in another external determining unit and the determination unit massage chair The calculation unit is built in the external determination unit, and the connection unit for exchanging the determination data for reuse with the external determination unit is provided on the massage chair side, so the communication time with the external determination unit is reduced, The time required for determining whether or not to reuse can be reduced, and the amount of data stored on the massage chair side can be reduced.
[0036]
In addition, in the invention described in claim 2, in addition to the effect of the invention described in claim 1, the calculation unit calculates the integral value of the measurement data, and the reuse criterion inputted in advance to the storage unit It is effective for items that should be judged based on the accumulated value, and can be easily judged based on the accumulated value. It is.
[0037]
Further, in the invention described in claim 3, in addition to the effect of the invention described in claim 1, the calculation unit calculates the maximum value within a predetermined time of the measurement data and re-inputs the data previously input to the storage unit. Since it is determined whether or not reuse is possible based on a comparison with a threshold value that is a criterion for whether or not usage is possible, the amount of data to be recorded and stored can be reduced and the availability of reuse can be easily determined.
[0038]
In addition, in the invention described in claim 4, in addition to the hardening of the invention described in claim 1, the calculation unit accumulates the number of times of detection in the detection unit, and whether or not reuse is possible that has been input to the storage unit in advance. Since it is determined whether or not reuse is possible based on comparison with a reference threshold value, the amount of data to be recorded and stored can be reduced, and whether or not reuse is possible can be easily determined.
[Brief description of the drawings]
FIG. 1 is a control block diagram according to an embodiment of the present invention.
FIG. 2A is a perspective view seen from the right side of the electric massage chair used in the above, and FIG. 2B is a perspective view seen from the left side.
FIG. 3 is a partially omitted exploded perspective view of the structure of the electric massage chair of the same.
FIG. 4 is a perspective view showing an example in which the pressure sensor is attached.
FIG. 5A is an explanatory diagram showing reclining of the back frame portion, and FIG. 5B is an explanatory diagram showing an operation of a reclining lever provided with an infrared sensor.
FIG. 6 is an exploded perspective view showing the foot vibration unit.
FIG. 7 is an exploded perspective view of the backrest portion.
FIG. 8 is a graph showing an integrated value of load history data detected by the seating detected by the pressure sensor.
FIG. 9 is an explanatory diagram for determining whether or not reuse is possible based on a deterioration curve of a spring material that is a criterion for whether or not reuse is possible.
FIG. 10 is a graph showing the relationship between the measured value and the time when obtaining the maximum value of the measured value within the fixed time.
FIG. 11 is a graph showing the relationship between the accumulated data of the number of detections and the threshold value that is set as a reusability criterion set in advance.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Structure 2 Parts 3 Detection part 4 Operation part 5 Storage part 6 Determination part 7 Power supply part 8 Support part 9 Pressure sensor 10 Pivoting member 11 Drive part 13 Temperature sensor 14 Infrared sensor

Claims (4)

In a massage chair including a seat, a backrest that can be rotated with respect to the seat, and a reclining mechanism for performing a reclining operation of the backrest, at least pressure is applied to the support that receives the load in the seat A detection unit using a sensor and a detection unit using an infrared sensor for detecting the number of rotations of the pivoting member of the reclining mechanism unit are provided, and further, load history data by seating detected by each of the pressure sensors, an infrared sensor Reciprocal judgment, recurrence of reusability of the support part that receives the load on the seat by comparing the calculation part that calculates the detection data by each, the storage part that stores the detection result and the calculation result, and the reference value and the result Each of the above detections includes a determination unit that determines whether or not the pivotable member can be reused in the mechanism unit, and a power supply unit that supplies power to each unit. The storage unit is provided in the massage chair, the determination unit is an external determination unit that is different from the massage chair, and the calculation unit is built in the external determination unit, and exchange of determination data for reuse with the external determination unit is performed. A life determination device for a massage chair, characterized in that a connecting portion to be provided is provided on the massage chair side . 2. The massage according to claim 1, wherein the calculation unit calculates an integration value of the measurement data, and determines whether or not the reuse is possible by comparing with an integration value that is input in advance to the storage unit and serves as a criterion for reuse. Lifetime judgment device for chairs . The calculation unit calculates a maximum value within a predetermined time of the measurement data, and determines whether or not the data can be reused based on a comparison with a threshold value that is input in advance to the storage unit and serves as a criterion for whether or not the data can be reused. Item 1. A life determination device for a massage chair according to Item 1 . The computing unit accumulates the number of times of detection by the detection unit, and determines whether or not reuse is possible based on a comparison with a threshold value that serves as a criterion for whether or not reuse can be entered in advance in the storage unit. Life determination device for massage chairs .

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