TWM557599U - Micro-controlled temperature sensing waist protector - Google Patents

Abstract

This case relates to a micro-control temperature-sensitive waist support, which at least has: a temperature sensor for measuring the temperature of the waist support surface; a micro-temperature controller with a timer; and an input and marking device for Set and indicate the starting temperature and the basic speed of the micro fan described later; a micro solar panel that can convert the energy contained in sunlight into the power required by the micro fan described later through photoelectric conversion; and a micro fan that can accept the micro fan The thermostat is driven to rotate; 俾 The micro thermostat can be based on the temperature of the waist support surface detected by the temperature sensor. When the temperature of the waist support is too cold or overheated, the micro controller is automatically controlled according to the temperature of the waist support. The speed of the fan, so that the temperature of the waist support is controlled within a preset temperature range.

Description

Micro-control temperature waist

This creation relates to a micro-control temperature-sensitive waist support, especially a micro-controller with a temperature sensor and a micro-temperature controller, and the micro-temperature controller can sense the temperature of the waist support surface according to the temperature sensor; If the temperature of the waist support surface is too cold or overheated, the speed of the micro fan is automatically adjusted to regulate the temperature to achieve a new type of waist protection.

Traditional waist support cannot automatically control temperature with the temperature change of the waist support, so users often feel too cold or overheating, which is a flaw in the United States.

In view of this, there is a need for a micro-control temperature-sensing waist supporter, which has a temperature sensor and a micro-temperature controller, and the micro-temperature controller can be based on the waist-face temperature detected by the temperature sensor. If the waist temperature is too cold or too hot, the speed of the micro fan can be adjusted automatically, so that the waist temperature can be maintained within a preset range to improve the shortcomings of the unacceptable temperature difference.

The purpose of this creation is to provide a micro-control temperature-sensitive waist supporter, which can automatically adjust the speed of the micro fan according to the temperature of the waist supporter to achieve the effect of temperature regulation.

In order to achieve the above-mentioned purpose, the micro-control temperature-sensitive waistband of this creation has at least: a temperature sensor for measuring the temperature of the waist surface; a micro-temperature controller coupled to the temperature sensor , Which has a timer; an input and marking device, which is coupled to the micro-temperature controller, which can be set and Indicate the starting temperature and the basic speed of the micro fan described later; a micro solar panel is coupled to the micro thermostat and can be driven by the micro thermostat to supply power to the micro fan described later; a micro fan is Coupled to the micro solar panel, it can be driven by the micro thermostat to rotate. The micro thermostat can control the speed of the micro fan according to the waist temperature detected by the temperature sensor. The waist temperature is controlled within a preset temperature range.

In order to allow your reviewers to further understand the structure, characteristics and purpose of this creation, drawings and detailed descriptions of the preferred embodiments are attached below.

10‧‧‧ Traditional Waist Support

20‧‧‧ waist temperature controller

30‧‧‧printed circuit board

40‧‧‧Temperature sensor

50‧‧‧Micro thermostat

60‧‧‧Input and mark device

70‧‧‧ Mini Solar Panel

80‧‧‧ Mini Fan

Figure 1 is a combined diagram.

FIG. 2 is a schematic diagram showing a block diagram of the waist-face temperature regulator 20 in a preferred embodiment of the present invention.

FIG. 3 is a schematic diagram showing a flow chart of the operation of the waist temperature controller 20.

Please refer to Figure 1. This creation is a combination of traditional waist supporter 10 and waist supporter temperature regulator 20. The traditional waist supporter 10 of this creation is a well-known technique and is not the focus of this case, so I will not repeat it here.

Please refer to FIG. 2 and FIG. 3 together. FIG. 2 shows a block diagram of the waist temperature controller 20 in a preferred embodiment of the present invention, and FIG. 3 shows the temperature controller 20 of the waist temperature Operational flowchart.

As shown in FIG. 2, the waist temperature controller 20 of this creation includes at least: a printed circuit board 30; a temperature sensor 40; a micro-thermostat 50; an input and label Device 60; a miniature solar panel 70; and a miniature fan 80.

The printed circuit board 30 is used to carry the temperature sensor 40, the micro-thermostat 50, the input and marking device 60, the micro solar panel 70, and the micro fan 80, which are conventional technologies and are not the focus of this case. I will not repeat them here.

The temperature sensor 40 is placed on the printed circuit board 30 and can be used to measure the waist temperature. The temperature sensor 40 is, for example, but not limited to, a temperature sensor.

The micro-thermostat 50 is disposed on the printed circuit board 30 and is coupled to the temperature sensor 40. The micro-thermostat 50 has a timer and a program (both not shown). The setting value of the timer is, for example, but not limited to, 3 minutes, and the program can control the rotation speed of the micro fan 80 according to the temperature value sensed by the temperature sensor 40.

The input and marking device 60 is placed on the printed circuit board 30 and is coupled to the micro-thermostat 50, which can be used to set and mark data such as the startup temperature and the basic speed of the micro-fan 80. The input part of the input and marking device 60 is, for example, but not limited to, a keyboard or a plurality of keys, and further includes a + key, a-key, and a confirmation key. In this embodiment, the key part is composed of a plurality of keys. An example is used to illustrate, but not limited to this. As for the labeling part of the input and labeling device 60, such as but not limited to liquid crystal, and the input and labeling device 60 is a touch input and labeling device.

The miniature solar panel 70 is placed on the printed circuit board 30 and is coupled to the micro-thermostat 50. The micro-solar panel 70 can convert the energy contained in sunlight into electrical energy through photoelectric conversion and can accept the micro-thermostat 50. It is driven to supply electric power to the micro fan 80.

The miniature fan 80 is placed on the printed circuit board 30 and is coupled to the miniature solar panel 70. The miniature fan 80 can receive the electrical energy of the miniature solar panel 70 so as to emit the required rotation speed.

As shown in Figure 3, when the waist temperature controller 20 of this creation is in operation, the waist temperature can be set to 27 ° C and the basic speed R of the micro fan 80 through the input and marking device 60. Then, the micro fan is started. 80 and sense the temperature of the waist support. When the temperature of the waist support is> 28 ℃, the speed of the micro fan 80 is automatically multiplied by 1.5 times and the temperature of the waist support is continuously sensed. Otherwise, the timer is started and the speed of the micro fan 80 is reduced to 0.9 R; if the temperature of the waist support surface sensed by the temperature sensor 40 continues to decrease within 3 minutes, the speed of the micro fan 80 is reduced to 0.9 R (that is, the original 0.81 R), so that the temperature of the waist support surface will not be rapid. Decrease, otherwise, the micro-thermostat 50 judges whether the temperature difference between the waist and the waist within 3 minutes is <1 ° C. Otherwise, the timer is reset to zero. If so, the micro fan 80 speed R is set to the minimum speed; The device 40 senses whether the temperature of the waist support rises by 2 ° C. If it is not continuously sensed, if it is, then the speed of the micro fan 80 is multiplied by 1.2 times, so that the micro fan 80 rotates quickly to reduce the temperature of the waist support and return the timer. Zero, and return to the temperature sensor 40 within 3 minutes The surface temperature should be continued waist micro fan 80 speed will drop further reduced to 0.9 R (i.e., the original 0.81 R) execution continues.

As mentioned above, the waist temperature controller 20 of the present creation can set the waist temperature and the basic speed R of the micro fan 80 at the beginning. When the temperature drops rapidly, the micro thermostat 50 reduces the micro The rotation speed of the fan 80 is used to slowly increase the temperature. When the temperature rises above the preset temperature, the micro-thermostat 50 increases the rotation speed of the micro-fan 80 to slowly decrease the temperature. Therefore, the waist temperature controller of this creation can automatically perform the speed control of the micro fan according to the waist temperature, which can not only increase the user's comfort, but also reduce the energy consumption. It is indeed better than the conventional waist support Progressive. What is disclosed in this case is a preferred embodiment. For example, those who have partial changes or modifications that are derived from the technical ideas of this case and are easily inferred by those skilled in the art, do not depart from the scope of patent rights in this case.

To sum up, regardless of the purpose, method and effect, this case is marking its technical characteristics that are different from the conventional ones, and its first creation is suitable for practical use, and it is also in line with the new type of patent requirements. Pray for granting patents at an early date.

Claims (8)

A micro-control temperature-sensing waist supporter includes a waist-protection surface temperature regulator and a waist protector, and the waist-protection surface temperature regulator is included in the waist protector. The waist-protection surface temperature regulator has at least: a temperature sensing Device for measuring the temperature of the lumbar support; a micro-thermostat coupled to the temperature sensor, which has a timer; an input and marking device coupled to the micro-thermostat, which can be It is used to set the starting temperature and the basic speed of the micro fan described later, and can indicate the starting temperature and the basic speed of the micro fan. A micro solar panel is coupled to the micro temperature controller and can be driven by the micro temperature controller. And supplying electric power to a micro fan described later; and a micro fan, which is coupled to the micro solar panel, can receive the electric power of the micro solar panel and emit a rotation speed required for rotation; 俾 the micro temperature controller can be based on the temperature sensor The detected temperature of the waist supporter controls the rotation speed of the micro fan, so that the temperature of the waist supporter is controlled within a preset temperature range. According to the micro-control temperature-sensitive waist guard described in the first patent application scope, it further has a printed circuit board for carrying the temperature sensor, micro-temperature controller, input and marking device, micro solar panel and micro fan . The micro-control temperature-sensitive waist supporter described in item 1 of the scope of the patent application, wherein the micro-temperature controller further has a program for controlling the rotation speed of the micro fan. The micro-control temperature-sensitive waist supporter described in item 1 of the scope of patent application, wherein the input and The marking device may be a keyboard or composed of a plurality of keys and a liquid crystal marking device. According to the micro-control temperature-sensitive waist protector described in item 4 of the scope of patent application, in which a plurality of keys and a liquid crystal marking device can be integrated into a touch input and marking device. The micro-control temperature-sensitive waist supporter described in item 1 of the scope of patent application, wherein the setting value of the timer is 3 minutes. According to the micro-control temperature-sensitive waist protector described in item 1 of the scope of the patent application, wherein the basic speed setting value of the micro fan is 17000RPM and the speed range is between 0.9 and 1.2 basic speed. The micro-control temperature-sensitive waist supporter described in item 1 of the patent application scope, wherein the starting temperature is 27 ° C.