JP2020068193A - Smart sensor - Google Patents

Abstract

To provide a smart sensor capable of solving a problem in mounting inconvenience or a mounting alignment, of being easily mounted, and of effectively sensing an output signal to be generated.SOLUTION: A smart sensor includes: a control circuit; and at least one signal generation assembly. The control circuit provides: processing means; magnetic sensing means; and a magnetic component. When a magnetic change of the magnetic component is sensed by a sensing magnetic field of them, the magnetic sensing means generates a first voltage change value or a second voltage change value, and transmits them to the processing means, and the processing means generates an output on-signal or an output off-signal by generating an output on-voltage or an output off-voltage and supplying them to the signal generation assembly.SELECTED DRAWING: Figure 1

Description

  BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an output signal generation module, and more particularly, to a smart sensor that is easy to mount and can effectively detect an output signal.

  In modern society, automobiles are widely used as transportation means. The light-emitting devices used for transportation are used not only for decoration, but also as warning indicators and lighting during the day and at night, among others. Therefore, a light emitting device such as a warning lamp and a welcome pedal is separately mounted in the automobile. In recent years, there are some cases in which a driver of a vehicle ahead cannot pay attention to a following vehicle or a pedestrian and a collision caused by opening a door of a vehicle improperly becomes a serious problem. Therefore, the light emitting device of the car door is particularly important during twilight, and some drivers voluntarily adhere a reflective material or a reflective collision prevention material to the inside of the car door to protect the vehicle behind and pedestrians. Although it attracted attention, no significant effect was seen. Therefore, many manufacturers sell a warning lamp for vehicles and a welcome pedal with a hall sensor, but in the present technology, the hall sensor needs to sense an external magnetic field change by being driven by an external magnet. . However, there is a problem in the alignment of the mounting position when the external magnet is installed. The magnetic field change between the magnet and the sensor is described as follows. That is, if the judgment standard value of the magnetic sensing value is larger or smaller than 300, and if the magnet is correctly mounted and moves directly above the sensor, the magnetic field signal received by the sensor becomes the maximum value and The value will be about 400. When the magnet is separated, the magnetic sense value becomes about 50. However, when the magnet approaches the sensor when the alignment between the external magnet and the sensor is not accurate, the magnet sensed value is about 200 because the magnet is separated from the sensor by a certain distance. Therefore, if the mounting position of the magnet is not accurate, the sensing function of the Hall sensor may be affected, and the Hall sensor may become ineffective and mounting may be inconvenient. Furthermore, since the magnet is directly installed, there is a risk that it will fall off, and if the magnet is dropped off, it will not be possible for the normal user to recover correctly, so it will be necessary to newly install and install it by the manufacturer. It takes time and effort.

In order to solve the above problems, those skilled in the art including the inventor of the present application have made various studies and improvements.
In order to solve the above problems, an object of the present invention is to provide a smart sensor that is easy to wear and that can effectively sense the generated output signal.

  According to the object of the invention, the present invention is a smart sensor comprising a control circuit and at least one signal generating assembly, said control circuit being provided with processing means, magnetic sensing means and magnetic components. Has been. The processing means is electrically connected to the magnetic sensing means. The magnetic sensing means is close to the magnetic member, and when a magnetic change of the magnetic component is sensed, a first voltage change value is generated and the first voltage change value is transmitted to the processing means. The processing means receives the first voltage change value and generates an output ON voltage. As a result, the smart sensor is directly attached to the car door or the pedal of the car, and a magnetic change occurs in the magnetic member when the car door is opened or closed. The magnetic sensing unit senses a magnetic change of the magnetic member and generates a first voltage change value or a second voltage change value. The processing means receives the first voltage change value or the second voltage change value and generates an output on voltage or an output off voltage. The signal generating assembly is connected to the control circuit and receives the output on voltage or the output off voltage to turn on or off the output signal. Therefore, the mounting is easy and the output signal can be effectively sensed.

As one embodiment of the smart sensor according to the present invention, the magnetic sensing means is a hall switch.
An embodiment of the smart sensor according to the present invention further includes a power supply assembly electrically connected to the control circuit.

As an example of the smart sensor according to the present invention, the smart sensor is housed in a housing assembly.
As one embodiment of the smart sensor according to the present invention, the housing assembly is installed in proximity to a metal assembly, and when the metal assembly is separated from the magnetic component, the magnetic sensing means may include the magnetic component. To generate the first voltage change value, and the processing means receives the first voltage change value to generate an output ON voltage.

  As one embodiment of the smart sensor according to the present invention, the housing assembly is installed in proximity to a metal assembly, and when the metal assembly is approached to a magnetic component, the magnetic sensing means is configured to detect the magnetic component. The magnetic change is sensed to generate the second voltage change value, and the processing means receives the second voltage change value to generate an output off voltage.

It is a schematic diagram of the smart sensor which concerns on this invention. 1 is a block diagram of a smart sensor according to the present invention. It is a schematic diagram 1 of the embodiment of the smart sensor which concerns on this invention. It is a schematic diagram 2 of the embodiment of the smart sensor which concerns on this invention. It is a schematic diagram 3 of the embodiment of the smart sensor which concerns on this invention. It is a schematic diagram 1 of the sensing mode of the smart sensor according to the present invention. FIG. 3 is a schematic diagram 2 of a sensing mode of a smart sensor according to the present invention.

  1 and 2 are a schematic diagram and a block diagram of a sensor according to the present invention. As can be seen from these figures, the smart sensor 1 comprises a control circuit 2 and at least one signal generating assembly 3. The control circuit 2 is provided with a processing unit 21, a magnetic sensing unit 22, and a magnetic component 23. In addition, the smart sensor 1 further includes a power supply assembly 24. The power supply assembly 24 supplies operating power to the control circuit 2. The processing means 21 is electrically connected to the magnetic sensing means 22. The signal generation assembly 3 is an assembly that generates an output signal or sound, for example, a light emitting component or a speaker. The signal generation assembly 3 is electrically connected to the control circuit 2. The signal generation assembly 3 may be provided directly on the control circuit 2 or may be externally connected to the control circuit 2. In this embodiment, the signal generation assembly 3 is directly provided in the control circuit. The magnetic sensing means 22 is a hall switch, and the processing means 21 is a microprocessor. The magnetic sensing means 22 is provided near the magnetic component 23. The magnetic sensing means 22 senses a magnetic change of the magnetic component 23 and generates a first voltage change value or a second voltage change value according to the detected magnetic change. Further, the magnetic sensing means 22 sends the first voltage change value and the second voltage change value to the processing means 21. When receiving the first voltage change value, the processing unit 21 converts the first voltage change value to generate an output on-voltage, and when receiving the second voltage change value, converts the first voltage change value to generate an output off-voltage. Further, the processing means 21 sends the output on-voltage to the signal generating assembly 3. The signal generation assembly 3 generates an output signal via the output ON voltage. The processing means 21 sends the output off voltage to the signal generating assembly 3. The signal generation assembly 3 turns off the output signal via the output off voltage.

  3 and 4 which are schematic diagrams 1 and 2 of an embodiment of a smart sensor 1 according to the present invention, with reference to the above-mentioned drawings. As shown in FIGS. 3 and 4, the smart sensor 1 may be installed in the housing assembly 4. The housing assembly 4 is provided with a transparent portion 41. The smart signal output module is installed or fitted directly to the door of the vehicle through the housing assembly 4. The smart sensor 1 is located near the metal assembly 5. In this embodiment, the metal assembly 5 is a car pedal. When the vehicle door is opened, the magnetic component 23 of the smart signal output module is separated from the metal assembly 5 and is not affected by the magnetism from the metal assembly 5. The magnetic sensing means 22 senses a magnetic change of the magnetic component 23 to generate a first voltage change value, and transmits the first voltage change value to the processing means 21. The processing means 21 converts the first voltage change value into an output ON voltage. The processing means 21 sends the output on-voltage to the signal generating assembly 3. The output signal of the smart sensor 1 serves as a warning because the signal generation assembly 3 generates the output signal via the output ON voltage. When the vehicle door is closed, the magnetic component 23 of the smart signal output module approaches the metal assembly 5 and thus is magnetically influenced by the metal assembly 5. The magnetic sensing means 22 senses a magnetic change of the magnetic component 23 to generate a second voltage change value, and transmits the second voltage change value to the processing means 21. The processing means 21 converts the second voltage change value into an output off voltage and sends the output off voltage to the signal generating assembly 3. The signal generation assembly 3 turns off the output signal via the output off voltage. As a result, the smart sensor 1 can be easily mounted on the vehicle door, and further, the output signal ON or the output signal OFF can be effectively sensed by opening / closing the vehicle door.

  With reference to the above figures, reference is made to FIG. 5, which is a schematic diagram 3 of an embodiment of a smart sensor 1 according to the present invention. As shown in FIG. 5, the smart sensor 1 may be installed or fitted directly to the pedal of the vehicle via the housing assembly 4. The smart sensor 1 is located near the metal assembly 5. In this embodiment, the metal assembly 5 is a car door. When the car door is opened, the magnetic component 23 of the smart signal output module is separated from the metal assembly 5 and is not affected by the magnetism from the metal assembly 5. The magnetic sensing means 22 senses a magnetic change of the magnetic component 23 to generate a first voltage change value, and transmits the first voltage change value to the processing means 21. The processing means 21 converts the first voltage change value into an output ON voltage and sends the output ON voltage to the signal generating assembly 3. The signal generation assembly 3 generates an output signal via the output on voltage, but the output signal of the smart sensor 1 is a warning and a welcome pedal indication. When the vehicle door is closed, the magnetic component 23 of the smart signal output module approaches the metal assembly 5, and thus is affected by the magnetism from the metal assembly 5. The magnetic component 23 senses a magnetic change of the metal assembly 23 to generate a second voltage change value, and transmits the second voltage change value to the processing means 21. The processing means 21 converts the second voltage change value into an output off voltage and sends the output off voltage to the signal generating assembly 3. The signal generation assembly 3 turns off the output signal via the output off voltage. As a result, the smart sensor 1 can be easily attached to the pedal of the vehicle, and the output signal ON or the output signal OFF can be effectively sensed by opening and closing the vehicle door.

  Reference is made to FIGS. 6 and 7, which are schematic diagrams 1 and 2 of the sensing of the smart sensor 1 according to the present invention, together with the above-mentioned drawings. As shown in FIGS. 6 and 7, when the magnetic component 23 is not affected by magnetism from the metal assembly 5, the magnetic field of the magnetic component is received by the magnetic sensing means. For example, it is determined whether the standard value is larger or smaller than 300, but when the metal assembly 5 is separated from the smart sensor 1, the magnetic sensing value of the magnetic sensor becomes about 400, but the magnetic field signal received by the magnetic sensing means 22. Becomes larger and a first voltage change value is generated. The processing means 21 converts the first voltage change value into an output ON voltage and sends the output ON voltage to the signal generating assembly 3. The signal generation assembly 3 generates an output signal via the output ON voltage. As a result, the output signal of the smart sensor 1 can be a warning. When the magnetic component 23 is magnetically influenced by the metal assembly 5, a part of the magnetic field of the magnetic component 23 is taken by the metal assembly 5. For example, it is determined whether the standard value is larger or smaller than 300, but when the metal assembly 5 approaches the smart sensor 1, the magnetic sensing value of the magnetic sensor becomes about 200, and the magnetic field signal received by the magnetic sensing means 22 is small. Become. The magnetic sensing means 22 senses a magnetic change of the magnetic component 23 to generate a second voltage change value, and transmits the second voltage change value to the processing means 21. The processing means 21 converts the second voltage change value into an output off voltage and sends the output off voltage to the signal generating assembly 3. The signal generation assembly 3 turns off the output signal via the output off voltage. As a result, the smart sensor 1 can be easily mounted on the vehicle door, and the output signal ON or the output signal OFF can be effectively sensed by opening and closing the vehicle door.

  The above is merely a preferred embodiment of the present invention and does not limit the present invention. The present invention can change or change, for example, the configuration or installation form of the present application without departing from the spirit of the present invention. Various changes, changes, or applications are also included in the scope of the right of the present invention as long as the effects equivalent to those of the present invention can be exerted.

Smart sensor 1
Control circuit 2
Processing means 21
Magnetic sensing means 22
Magnetic parts 23
Power supply assembly 24
Signal generation assembly 3
Housing assembly 4
Translucent part 41
Metal assembly 5

Claims (7)

A smart sensor comprising a control circuit and at least one signal generating assembly,
The control circuit is provided with processing means, magnetic sensing means, and magnetic parts,
The processing means is electrically connected to the magnetic sensing means,
The magnetic sensing means senses a magnetic change of a magnetic component to generate a first voltage change value or a second voltage change value,
The processing means generates an output on-voltage when receiving the first voltage change value, and generates an output off-voltage when receiving the second voltage change value,
The signal generating assembly is connected to the control circuit and receives the output on-voltage to generate an output signal.   The smart sensor according to claim 1, wherein the magnetic sensing means is a Hall switch or a magnetic sensor.   The smart sensor of claim 1, further comprising a power supply assembly electrically connected to the control circuit.   The smart sensor of claim 1, housed in a housing assembly.   The housing assembly is installed close to the metal assembly, and when the metal assembly is separated from the magnetic component, the magnetic sensing unit senses a magnetic change of the magnetic component to detect the first voltage change. The smart sensor according to claim 4, wherein a value is generated, and the processing unit receives the first voltage change value and generates an output-on voltage.   The housing assembly is installed close to the metal assembly, and when the metal assembly approaches the magnetic component, the magnetic sensing unit senses a magnetic change of the magnetic component to detect the second voltage change value. The smart sensor according to claim 4, wherein the processing means receives the second voltage change value and generates an output off voltage.   7. The smart sensor of claim 6, wherein the signal generating assembly is electrically connected to the control circuit and receives an output off voltage to stop the output signal.