KR20150117093A - Temperature display - Google Patents

Abstract

The present invention relates to a temperature display device capable of enabling infants and the public to timely deal with a dangerous situation which is hard to recognize by allowing them to easily grasp an environmental state at a look through a measuring unit which measures the temperature, humidity, illumination, electromagnetic waves, vibrations, and noises of the vehicle or the interior to display the measurement information in various types when the measurement information exceeds a preset level by measuring the environment of the vehicle or the interior.

Description

Temperature display

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a temperature display device, and more particularly, to a temperature display device for measuring an indoor or vehicle environment and displaying environmental conditions in various forms.

As human living standards are improved, there is an increasing demand for a more comfortable indoor environment for the individual himself / herself. First, the room temperature and humidity, which have a great influence on the human emotional comfort and health, differ according to individual differences and seasons.

In addition, it is illuminated as a major factor influencing the learning and watching TV in the indoor space, the fatigue of the eyes during work, and the human emotional condition through it. At this time, the amount of illumination for the pleasant lighting varies depending on the surrounding environment and the time weather.

Furthermore, as the industry develops rapidly, there is a growing interest in electromagnetic disturbance, tolerance, and human influence in electronic products. Particularly, as the spread of the mobile communication terminal spreads, interest of the electromagnetic wave generated from the mobile terminal that the user always carries on is considered to be an important issue, and accordingly, The criteria for immunity, that is, electromagnetic compatibility registration standards, are enacted and enforced.

In addition, a vehicle traveling on an accelerated road, or a railway vehicle traveling on a subway or a high-speed rail, vibrates more than a certain level at the time of traveling. These vibrations can propagate to the surrounding buildings through the ground and cause severe vibration pollution.

In addition, a large number of large buildings are being built in the city. When excavating the ground for construction or hammering, very high level of vibration is generated, and it can propagate to the building around the construction site and cause vibration pollution.

Especially, in the case of a structure sensitive to vibration such as a semiconductor factory, the propagation vibration may adversely affect the yield of the product.

In addition, noise is a noise that disturbs a human's pleasant living environment, such as a sound that causes a disorder, a sound that is uncomfortable, or a sound that interferes with a sound such as a voice. The music you normally enjoy is extremely tired and it becomes noisy if you want to relax.

Thus, noise has a lot of subjective factors. Types of noise include factory noise such as shelves, presses, compressors, blowers, metal processing machines, textile machines, traffic noise such as automobiles, motorcycles, trains, airplanes, loudspeakers of religious organizations and public institutions, Noise from cleaners, noise from work on construction sites, noise from automobiles, noise from night-time noise from entertainment stations, and so on.

Such noise causes short-term or long-term physical and psychological disturbances and deteriorates the living environment. Physically, heart rate decreases gradually or peripheral blood vessels contract, breathing speed decreases and breathing slows. There are effects such as arterial disturbance and stress.

Psychological influences cause pain disorder, sleep disorder, and mere annoyance and discomfort. Emotional anxiety and stress increase are likely to develop into physiological disorder, and even the same noise causes more damage than intermittent impact noise rather than continuous noise.

It also reduces the efficiency of work and damages buildings and furniture. In order to reduce such noise, it is possible to reduce the noise by installing double windows and curtains in the general house. Carpets are laid on concrete floors of large buildings to reduce the footsteps of walkers. In addition, noises are reduced by installing soundproof walls around roads and railroad tracks with heavy traffic. In the densely populated areas, the speed of the car is limited and the factory uses a method such as properly positioning the machine.

Noise can be reduced to some extent as a temporary measure, but in order to solve the root cause, it is necessary to transfer the noise emission facilities to the outskirts of the residential area and to provide enough noise preparation facilities on the newly constructed roads. In addition, since noise has a negative effect on various aspects of life, the government has established noise environment standards to regulate such noise. According to this standard, noise of factories and automobiles is regulated, and noise prevention facilities are installed in places where noise is generated.

Furthermore, in recent years, it is urgent to take measures against indoor air pollution and the environment in transportation such as automobiles, airplanes, ships, trains and others who stay indoors for a long time in addition to the seriousness of air pollution in the interior of buildings.

That is, it is not easy to know an appropriate amount of the indoor environment (temperature, humidity, illuminance, electromagnetic wave, vibration, noise, etc.).

In this way, if you continue to live in an unfavorable indoor environment, you may not be aware of it, but you will experience a gradual physical imbalance.

As shown in Korean Utility Model No.2002-2007-0001151, a conventional technique for performing the above function is composed of a container body in which a space is formed and an upper portion is opened, and a lid which is coupled to the upper end of the container body In a container; A thermometer for displaying a temperature in a predetermined range and a hygrometer for displaying a humidity in a certain range are mounted on the outer surface of the container, and a container having a thermometer and a hygrometer.

This conventional configuration requires reading the scale separately, so that the optimal environment can not be easily read and the numerical value can not be adjusted according to the environment.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to display living environments of a room or a vehicle in various forms when the measured information exceeds a predetermined standard.

In addition, another object to be solved by the present invention is to adjust the numerical values in accordance with indoor or vehicle environment, degree of pollution, and driving environment of a vehicle.

In order to solve the above problems, the present invention provides a basic feature of the present invention in that it comprises a measuring unit for measuring a room or a vehicle environment and a display unit for displaying the measured information through the measuring unit when the measured information exceeds a certain standard .

According to the present invention, the measuring unit includes an environmental sensor for measuring temperature, humidity, illuminance, electromagnetic wave, vibration, noise, etc. of the room or the vehicle.

According to the present invention, when the information measured through the measuring unit exceeds a predetermined standard, the display unit displays the information on the basis of color, sound, action, character, volume, or the like.

According to another aspect of the present invention, there is further provided a power supply unit for supplying power to the display unit.

According to the present invention, there is further provided a button unit for controlling a set value of the memory unit stored in the measurement unit.

According to the present invention, the measurement unit further includes a communication unit capable of wired / wireless communication.

As described above, the temperature display device of the present invention can measure the indoor environment or the living environment of the vehicle, and can display the temperature, the humidity, the illuminance, the electromagnetic wave, the vibration, Noise level, etc., it is easy to understand the environmental condition at a glance, so that it is possible to cope with a timely situation when a dangerous situation is not recognized by infants and the general public.

In addition, the temperature display device of the present invention has an effect that the numerical value can be adjusted in accordance with the indoor or vehicle environment, the degree of contamination, and the traveling environment of the vehicle through a button portion for controlling the set value of the memory portion housed in the measuring portion .

1 is a perspective view of a temperature display device according to the present invention.
2 is a perspective view showing an operating state of the temperature display device according to the present invention.
3 to 5 are front views showing another embodiment of the environmental status display device according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, in the drawings, it is noted that the same components or parts are denoted by the same reference numerals as possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

FIG. 1 is a perspective view showing an environmental state display apparatus according to the present invention, FIG. 2 is a perspective view showing an operating state of the environmental state display apparatus according to the present invention, and FIGS. 3 to 5 are front views showing another embodiment of the environmental state display apparatus according to the present invention to be.

As shown in FIGS. 1 and 2, the temperature display device 100 according to the present invention includes a measurement unit 110 and a display unit 120.

First, the measuring unit 110 measures indoor or vehicle environment, degree of contamination, and running condition of the vehicle.

In particular, the measuring unit 110 includes an environmental sensor 111, a contamination sensor 113, and a traveling sensor 115, respectively.

Here, the environmental sensor 111 measures temperature, humidity, illuminance, electromagnetic wave, vibration, noise, etc. of the room or the vehicle.

A sensor for measuring various environments as described above is separately provided.

At this time, a temperature sensor for measuring the temperature of a room or a vehicle is widely used throughout the industry. For example, it is used not only for temperature control in home appliances such as air conditioners and refrigerators, but also in precision industries such as the semiconductor industry.

The current thermometer is classified according to the measurement principle as follows.

First, there is a thermometer using thermal expansion. There are gas thermometers and liquid thermometers bimetal thermometers. Among them, the liquid thermometer has a thermometer using mercury or kerosene. In the past, the red thermometer was mostly an alcohol thermometer (using alcohol with red paint), but because of condensation in the upper part of the liquid, it could lead to errors in the instructions, so they used kerosene for 30 years . Domestic thermometer and thermometer are also one of these liquid thermometers. There is also the highest and lowest thermometer · Beckman thermometer using this liquid thermometer. The bimetal thermometer uses two types of metal plates with different expansion coefficients, namely bimetal, in which two thin plates of copper and nickel are in close contact with each other. In this bimetallic thermometer, the expansion coefficient of copper is larger than that of nickel, so when it gets hot, it bends toward the nickel plate. When the temperature becomes low, the temperature is displayed using the principle of bending toward the copper plate.

Next, there is a thermoresistive thermometer using the temperature change of electrical resistance. This is a resistance thermometer, which is based on the fact that the electrical resistance of metals and semiconductors has temperature dependence.

A thermocouple thermometer connects two different types of metal or alloy wires to form a looped circuit that conducts electricity. When a temperature difference is applied to both ends of the contact, the thermoelectric power is generated at both ends of the contact so that a current flows. This is called the Peltier effect (thermoelectric effect), and the thermometer used is the thermocouple thermometer. The measurement of the generated thermoelectric power is measured by a potentiometer or a millivolt system with a large internal resistance, and is most widely used for temperature measurement in the temperature-thermoelectric power calibration. The reason for this is that the volume of the metal joint portion, which is the sensing portion, is very small, so that the tolerance according to the heat capacity is small and the response to heat is excellent. Thermocouples used include platinum wire, platinum-rhodium alloy wire, copper wire and constant wire.

There is a color thermometer according to the light. These include optical pyrometers (also called optical pyrometers) and radiation pyrometers.

The optical pyrometer is a method of obtaining the color temperature by comparing the color temperature of the measuring object with the standard color temperature, which can be measured to about 700 to 2500 ° C. The radiation pyrometer measures the temperature based on the change in the resistance value due to the temperature rise of the thermistor by condensing the heat energy radiated from the object to be measured with a lens or a concave mirror and placing a thermistor (a resistor sensitive to the ambient temperature) at the focus. As one of the radiation pyrometers, there is a thermometer for thermography using a semiconductor thermosensitive element for infrared rays. Using this, we investigate the surface temperature distribution of the Earth and the skin temperature distribution in the human body.

There are also Ger-con thermometers and thermo-color thermometers. Gerkhorn thermometer is a triangular pyramid with a height of 10 cm, made of silicate and metal oxide. It is used to examine the temperature distribution in the furnace by examining the degree of melting of the triangular pyramid by arranging and heating each place in the furnace. Thermo-color thermometer is a thermometer that uses the principle that the thermochrome, also called Zion paint, changes color.

A thermometer using a phenomenon in which a complex salt such as cobalt and chromium reversibly changes color depending on the temperature. This material is called a thermoclay after being dried with clay. Recently, a liquid-crystal thermometer using the temperature characteristic of a liquid crystal (liquid crystal) as a thermo-color thermometer has been introduced

Among the various methods described above, a temperature sensor suitable for the use environment is applied.

In addition, the humidity sensor for measuring the temperature of the room or the vehicle detects the humidity and outputs it as an electrical signal. The humidity is measured by using the fact that the electrical resistance and the electric capacity of the porous ceramics and the polymer electrolyte change due to the physical adsorption of moisture, the change of the resonance frequency of the piezoelectric body, and the electrolysis of water.

The illuminance sensor for measuring the temperature of a room or a vehicle is a method for forming an electrode pattern on a substrate in the production of a substrate used for PDP (Plasma Display Panel), LCD (Liquid Crystal Display) A method in which a formed mask is projected and irradiated onto a substrate to which a photoresist is applied to form a pattern of the mask on the substrate is used.

The electromagnetic wave sensor for measuring the temperature of the room or the vehicle includes a coil for receiving electromagnetic waves generated from the information communication device and generating a fine current, a coil for converting the analog voltage into an analog voltage according to the intensity of the micro current generated by the coil, Of the resistance value. When the coil receives an electromagnetic wave generated from the information communication device, a minute current change is detected. The change of the detected current is converted into an analog voltage by the resistor of the electromagnetic wave sensing unit and output.

In addition, the vibration sensor for measuring the temperature of the room or the vehicle is an apparatus for detecting the acceleration by converting the mechanical energy of the force into electric energy. According to the method of converting mechanical energy into electrical energy, the acceleration detector is classified into a piezoelectric type, a servo type, and a torsional gauge type. Among them, the piezoelectric type is the most widely used method in an acceleration sensor.

The piezoelectric acceleration detector uses a piezoelectric effect in which electric energy is generated in proportion to the magnitude of the force when an external force is applied to the piezoelectric element located at the detection portion and deformation occurs. The main components of the piezoelectric acceleration sensor are a basic structure, an inertial mass, and a sensing piezoelectric element. There are roughly three types of piezoelectric elements depending on the generation method of the piezoelectric element located at the sensing portion.

At this time, when the force F is applied to the inertial mass M, the piezoelectric element P between the inertial mass M and the base structure B is compressed and deformed in the same direction as the polarization direction of the piezoelectric element. If the force F is applied to the weight M mounted through the piezoelectric element P, the shearing force is applied to the piezoelectric element P, and the shear force is applied to the same direction as the polarization direction of the piezoelectric element P. In addition, when the force F is applied to the weight M mounted on the tip of the piezoelectric element P, the one-sided support arm is twisted at right angles to the polarization axis direction of the piezoelectric element.

These various types of piezoelectric acceleration sensors are classified according to conditions such as frequency, acceleration amount, and measurement range. For example, a compression type and a shearing type are used for detection of a used frequency, and a one-side supporting type which can detect a minute vibration with higher detection sensitivity than these methods is used.

The noise sensor for measuring the temperature of the room or vehicle is constituted by a noise detection circuit for calculating the sound pressure value of the entire frequency band based on the voltage signal amplified by the microphone preamplifier. The noise detection circuit consists of an RMS detector that calculates the sound pressure value of the entire frequency band by detecting the root mean square (RMS) value of the input voltage signal, and compares the calculated sound pressure value with an appropriate unit, for example, dB.

To simplify the operation of the noise measurement apparatus, the noise generated in the measurement object in the non-directional room is input to the microphone, converted into a voltage signal according to the sound pressure, and then amplified by the microphone preamplifier. The voltage signal amplified by the microphone preamplifier is calculated as the sound pressure value of the entire frequency band in the noise detection circuit, and the value is converted into dB and displayed through the deflections section.

As a result, the temperature display device 100 of the present invention can measure the indoor environment or the living environment of the vehicle, and can display the temperature, humidity, illuminance, electromagnetic wave, vibration, noise The user can easily understand the environmental condition at a glance and cope with the situation in a dangerous situation that infants and the general public can not recognize.

Further, the contamination sensor 113 measures the carbon dioxide, carbon monoxide, formaldehyde, asbestos, ambien, volatile organic compounds, fine dust, etc. of the room or the vehicle.

A pollution degree detecting circuit diagram of a general air cleaner includes a contamination detecting sensor including an exothermic heating coil to which 5 V is applied and a gas electrode on which tin oxide (SnO 2) is surface-treated, And the contamination detection signal is applied to the microcomputer through the connected resistors R1 and R2.

When the +5 V constant voltage is applied to the contamination detection sensor, the heating coil is heated to generate heat, and the heated heat is transmitted to the gas electrode so that the resistance between the gas electrode and the resistor R1 And the output voltage appearing between the resistor R2 and the ground is applied to the microcomputer so that the air pollution degree is detected.

That is, when the oxygen is adsorbed on tin oxide (SnO2) surface-treated on the gas electrode, the oxygen has an electron affinity, which interferes with the flow of free electrons in tin oxide (SnO2) Increases resistance.

When such a reducing gas (for example, hydrogen) is introduced into the sensor, oxidation reaction of the gas with adsorbed oxygen occurs on the surface of tin oxide (SnO 2). As a result, adsorption occurs on the surface of tin oxide The amount of oxygen contained in the air is reduced and the electrons are easily moved, and the concentration of the gas contained in the atmosphere can be detected by the resistance change by the principle that the electrical resistance is reduced.

Therefore, when the pollutant is generated, the voltage across the gas electrode is significantly reduced, and the voltage between both ends of the resistors R1 and R2 is relatively increased, so that the output voltage of the contamination detecting sensor 1 is converted into a digital signal And the blowing fan is controlled according to various conditions by comparing the value obtained by the conversion with preset data.

The conventional method of controlling the air cleaner using the pollution detection sensor will be described in detail with reference to FIG. 1B. First, the contamination state of the room is divided into three or more conditions, and according to the clean condition classified into the respective conditions, The voltage output from the sensor is input to the microcomputer in advance and stored.

For example, assuming that the output voltage of the contamination detection sensor 1 is 0.7 V when the room is clean, assuming that the room is contaminated to some extent and the air purifier needs to be driven, the output voltage is 1 V, .

In this state, when the air purifier is supplied with power and is operated in the automatic operation mode, the microcomputer reads the output voltage Vo of the contamination detection sensor after warming up for about 3 minutes. The output voltage (Vo) is 0.7 V or less, it is judged as a clean state.

Particularly, sensors for measuring fine dust use an air quality mass measuring device using a beta ray absorption method, a moving type electric mobility classification device, an optical particle counter, and a vibration correction microbalance.

The fine dust detecting apparatus includes a MEMS sensor unit, a driving unit attached to the MEMS sensor unit to resonate the MEMS sensor unit, and a MEMS sensor unit that measures the mass density of the fine dust using the displacement of the MEMS sensor unit due to the fine dust adsorbed on the MEMS sensor unit. And an optical interferometer that can detect the light. The MEMS sensor part may include a MEMS structure and a suction electrode attached to the MEMS structure and generating an electrostatic force by an electric field supplied thereto. At this time, the end of the adsorption electrode may be connected to a power supply unit capable of applying an electric field to the adsorption electrode.

The MEMS structure may be formed in the shape of a cantilever, a bridge, a slope bridge or a thin film. The MEMS structure can be displaced by changing the shape by the mass of the adsorbed fine dust.

As a result, the temperature display device 100 of the present invention can measure the pollution degree of the room or the vehicle air, and can display the various types of the measured information when the measured information exceeds a certain standard, such as carbon dioxide, carbon monoxide, formaldehyde, asbestos, The measuring unit 110 for measuring the compound, the fine dust, and the like can easily understand the level of the contamination level at a glance, and can respond in a timely manner when the infant and the ordinary person are in a harmful situation that is not recognized.

In addition, the travel sensor 115 measures the acceleration, the distance, and the fuel consumption of the vehicle.

As described above, a sensor for measuring various running situations is separately provided.

First, an acceleration sensor, which is generally used to measure acceleration, is a method of measuring displacement of a system made up of a spring and a mass called a size model system. When the angular frequency to be measured is lower than the natural angular frequency of the mass part, the displacement of the mass part almost corresponds to the acceleration. As this type of acceleration sensor, there are movable coil type, piezoelectric type, capacitive type, strain gauge type, servo type, and differential trans type.

As a result, the temperature display device 100 of the present invention is configured to measure the driving situation of the vehicle, and to measure the driving state of the vehicle, through the measuring unit 110 that measures the acceleration, the distance, and the fuel consumption of the vehicle so that the measured information is displayed in various forms Can be easily understood at a glance, and eco-driving can be suitably adapted to the driving condition of the vehicle, thereby improving the eco-friendly and economical driving effect.

Furthermore, it may be a sensor that recognizes the user's breathing or motion.

The measuring unit 110 may exist in various forms, but may be partially exposed on the entire surface of the bottom plate as shown in FIGS. 1 and 2.

On the other hand, the display unit 120 displays the measured information through the measuring unit 110 when the measured information exceeds a certain standard.

Particularly, when the information measured through the measuring unit 110 exceeds a certain standard, the display unit 120 displays the information on the basis of color, sound, action, character, volume, or the like.

At this time, as shown in FIG. 2 (a), the display unit 120 displays different colors, sounds, actions, characters, and volumes when the indoor or vehicle environment, the degree of pollution and the running condition of the vehicle are higher than a certain standard, And displays it on the outside due to change or the like.

The display unit 120 may use a bulb 121 that displays various colors. In addition, the display unit 120 may be provided with a speaker 123 to express various sounds. Further, the display unit 120 can be represented by various actions. In addition, the display unit 120 can display a plurality of LEDs 127 in various characters or symbols. In addition, the display unit 120 can be expressed by changing the volume according to the state.

In particular, the action of the display unit 120 can be variously expressed by the rotation 125a, the seesaw 125b, the rotation 125c, the ascending and descending 125d, the widening 125e, and the facial expression 125f.

The display unit 120 may further include a power unit 140 for supplying power. The power supply unit 140 may be a battery replacement type or a solar battery.

And a button unit 150 for controlling the set values of the memory unit 130 stored in the measurement unit 110 and recording and storing data. The alarm on / off function can also be added through the memory unit 130 and the button unit 150.

As a result, the temperature display device 100 of the present invention is able to control the setting values of the memory unit 130 housed in the measuring unit 110 through a button unit 150, Can be adjusted.

The measuring unit 110 may further include a communication unit 160 that enables wire / wireless communication. The communication unit 160 may be provided with a USB 161 for wired communication in the measuring unit 110 and a receiving unit 163 for performing wireless communication such as Bluetooth OR WIFI communication.

The operation of the temperature display device 100 according to the present invention will be described below.

The measurement of the indoor or vehicle environment, the degree of pollution, and the running condition of the vehicle is performed through the measuring unit 110, and if the measured information exceeds the predetermined standard, the measured information is displayed through the display unit 120.

That is, as shown in FIG. 2, the action of the display unit 120 is represented by a red light, a positive sign, and a high sound when the indoor or vehicle environment, degree of contamination, and running condition of the vehicle are higher than a certain standard, The eyes make an angry expression.

In addition, when indoor or vehicle environment, pollution degree, and driving condition of the vehicle are appropriate, green lights, circle symbols, and comfortable music sounds are expressed, and the wings rotate and the eyes have a comfortable expression.

In addition, when indoor or vehicle environment, pollution level, and driving condition of the vehicle are lower than a certain standard, yellow is expressed with a voice of minus sign and bass, and the head moves to the left and right to form a snowy expression.

On the other hand, as shown in FIG. 3, the display unit 120 may be moved upward or downward 125d depending on the indoor or vehicle environment, the degree of contamination, and the running condition of the vehicle. As shown in FIG. 4, 125b. As shown in FIG. 5, the display unit 120 can be expressed by a widening 125e or a volume change 129.

That is, the temperature display device 100 can be applied to various toy forms or accessories.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be clear to those who have knowledge of.

Description of the Related Art [0002]
100: Temperature display device
110: Measuring unit 111: Environmental sensor
113: contamination sensor 115: traveling sensor
117: breathing sensor 119: motion sensor
120: display unit 130: memory unit
140: power supply unit 150: button unit
160:

Claims (6)

A measurement unit for measuring the indoor or vehicle environment,
And a display unit for externally displaying information measured through the measurement unit when the measured information exceeds a predetermined standard.
The method according to claim 1,
Wherein the measuring unit comprises:
And an environmental sensor for measuring temperature, humidity, illuminance, electromagnetic wave, vibration, noise, etc. of the room or the vehicle.
The method according to claim 1,
The display unit includes:
And displays the information on the outside through color, sound, action, character, volume change or the like when the information measured through the measurement unit exceeds a certain standard.
The method according to claim 1,
And a power supply unit for supplying power to the display unit.
The method according to claim 1,
And a button unit for controlling a set value of the memory unit stored in the measurement unit.
The method according to claim 1,
Wherein the measurement unit further includes a communication unit capable of wired / wireless communication.

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