KR200223604Y1 - Defrosting and moisture removal device of the side mirror with a constant temperature holding function - Google Patents

Abstract

The planar heating element 2, which is coated on the back surface of the mirror 1 fixed to the mirror holder 5, and electrically connected to the circuit pattern 21 of the planar heating element 2, is electrically connected to the planar heating element 2. (2) Positive or negative temperature coefficient elements (6,7) to ensure that the heat generated from (2) is kept constant, and a safety tape attached to the surface heating element (2) so as not to contact with moisture or foreign matter (3) The constant temperature maintenance function can reduce the manufacturing cost and simplify the design by using the low temperature and low volume constant temperature coefficient or negative temperature coefficient element as a temperature sensing means instead of bimetal. It provides a frost and moisture removal device of the side mirror having a.

Description

Defrosting and moisture removal device of the side mirror with a constant temperature holding function

This design relates to the frost and moisture removal device of a side mirror having a constant temperature holding function. More specifically, it is a relatively inexpensive but small positive temperature coefficient (PTC) instead of bimetal. The present invention relates to a frost and moisture removing device of a side mirror having a constant temperature holding function that can reduce the manufacturing cost and simplify the design by using an element or a negative temperature coefficient (NTC) element as a temperature sensing means.

In general, as shown in FIG. 1, a side view mirror M is installed on the exterior left and right sides of the driver's seat to allow the vehicle to see the rear of the driving lane or the side lane as shown in FIG. 1. Since the side mirror M provides the driver with important information about the vehicle driving behind the left and right sides of the vehicle while the vehicle is running, it is very important to keep it clean at all times.

Conventionally, when rain or snow falls on the vehicle while driving, the rain or snow gets on the side mirror M, and the rear view is difficult to see. Because of the danger, it is necessary to clean the side mirror (M) using the moment stopped by the stop signal of a traffic light, or stop the driving for a while and secure the vehicle to the right side of the road, and then clean the side mirror (M). There was a hassle. In addition, even if the side mirror (M) has been wiped clean like this, it is inconvenient to continue the cumbersome work as described above because the rainy view or snow gets in the back again after a short time after the operation is restarted. There is this.

In order to alleviate this inconvenience and inconvenience, if the rain or snow on the side view mirror gets dirty due to rain or snow during the vehicle operation, the rear view through the side view mirror does not stop. In addition, a technique for a device for safe vehicle operation by researching to easily remove raindrops or snow on both mirrors of side view mirrors has been studied.

Such devices are roughly classified into three types: first, by using a mechanical mechanism to wipe off the water, by using hot air to dry the water, and by using heat generated from the heater to dry the water. That's how it is.

As an example of the technique of a device for removing water using the above mechanical mechanism, the wiper is installed on the mirror surface of the side-view mirror and then intermittent or The technology that allows wipers to wipe the rainwater on the mirror of the rearview mirror effectively by selecting it continuously is described in Korean Utility Model Application Publication No. 93-2966 (Date: May 27, 1993 AD); Or snow removal apparatus ";

However, the device for removing moisture using a mechanical mechanism is a method of removing rain or snow by using a small wiper, so it is cumbersome to replace the wiper when worn, and also complicated electronic circuits and Since it is operated by a mechanical mechanism, it is easy to cause a failure, and there is a problem in that installation cost is also high.

On the other hand, as an example of a technique for drying the water using the hot air described above, by installing a fan motor inside the body of the side view mirror to force the air from the outside to inject air to the mirror surface vehicle Technology for removing moisture or preventing cloudy weather during rainy weather or during rainy weather is disclosed in Korean Utility Model Application Publication No. 91-6985 (published date: September 17, 1991 AD); Rearview mirror ”;

However, as described above, the apparatus for drying water using hot air has a structure in which external air is introduced into the side view mirror, which may cause the mirror to freeze in the cold weather, and when the temperature drops sharply, the motor There is a problem that the mechanical mechanism for driving the freezing or air hole is frozen and clogged, thereby not operating normally.

As a result, a technology related to a device for drying water using heat generated from a heater has been in the spotlight. As described above, a technology related to a device for drying water using heat generated from a heater has been applied for a Korean Utility Model Registration Application. "Heating Miller" of Publication No. 90-7627 (Announcement August 23, 1990); and "Heating Miller" of No. 90-8118 (Announcement September 3, 1990) Miller "; And the like. In addition, a technology for preventing the blurring of a mirror using heat generated from the conductive film is applied to the electrodes provided at a distance from each other with respect to the conductive film of the metal or metal oxide formed as a reflective film on the rear surface of the glass substrate. As disclosed in " Anti-blur mirror " of Publication No. 95-2530 (published: January 4, 1995).

However, the above-described conventional technique has to make the driver arbitrarily adjust the heat generated from the heater or the conductive film by operating the switch, which makes the driver cumbersome and reduces the driver's forward visual acuity while driving. When neglected, there is a problem that the battery is over discharged and overheating occurs.

Accordingly, as shown in FIG. 2, the planar heating element 2 is applied to the back surface of the mirror 1 fixed to the mirror holder 5 at a predetermined thickness, and water or foreign matter is applied to the planar heating element 2. The heat generated from the planar heating element 2 is formed by attaching the safety tape 3 so as not to come into contact with it and then electrically connecting the planar heating element 2 by forming a bimetal 4 of two metals having different thermal expansion coefficients. Techniques for maintaining this constant are found in Korean Utility Model Registration Application Publication No. 96-21750 (published July 20, 1996 AD); "Anterior Mirror's Defrosting and Moisture Removal Device"; It has been disclosed by the applicant.

However, the conventional " outdoor mirror frost and moisture removing device " uses a relatively expensive and bulky bimetal 4 as a temperature sensing means. There is a problem that should provide an installation space of the bimetal (4).

The object of the present invention is to solve such a conventional problem, and is manufactured by using a relatively low cost and small positive temperature coefficient (PTC) or negative temperature coefficient (NTC) element as a temperature sensing means instead of bimetal. It is to provide a frost and moisture removal device of the side mirror having a constant temperature holding function that can reduce the design and simplify the design.

1 is a view showing the position of a general side mirror.

2 is a cross-sectional view of the structure of the conventional side mirror frost and moisture removal device.

3 is a cross-sectional view of a frost and moisture removing device of the side mirror having a constant temperature holding function according to the first embodiment of the present invention.

Figure 4 is a configuration diagram of the PTC element of the frost and moisture removal device of the side mirror having a constant temperature holding function according to a first embodiment of the present invention.

5 is an NTC element installation configuration of the frost and moisture removing device of the side mirror having a constant temperature holding function according to a second embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1 mirror 2 surface heating element

3: safety tape 4: bimetal

5 mirror holder 6 PTC element

21: circuit pattern 22: electrode terminal

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings in order to be described in detail that can be easily carried out by those of ordinary skill in the art.

3 is a cross-sectional view of a frost and moisture removing device of the side mirror having a constant temperature holding function according to the first embodiment of the present invention, and FIG. 4 is a side having a constant temperature holding function according to the first embodiment of the present invention. PTC element installation structure of the mirror frost and moisture removal apparatus.

As shown in Fig. 3 and Fig. 4, the configuration of the frost and moisture removing device of the side mirror having a constant temperature holding function according to the first embodiment of the present invention is a mirror fixed to the mirror holder 5 ( The planar heating element 2 is coated on the back surface of 1) at a predetermined thickness, and the PTC element 6 is electrically connected in series on the circuit pattern 21 of the planar heating element 2 to generate the planar heating element 2. The heat is to be kept constant, and the safety tape (3) is attached to the surface heating element (2) to prevent moisture or foreign matter.

The planar heating element 2 is formed by connecting a circuit pattern 21 made of aluminum (Al) or copper (Cu) in series in a zigzag form, and an electrode capable of applying a current to the end of the circuit pattern 21. The terminal 22 is formed.

Since aluminum (Al) has a resistivity of 2.62 × 10 ⁻⁸ Ω · m and copper (Cu) has a resistivity of 1.69 × 10 ⁻⁸ Ω · m, the circuit pattern 21 As the length of is increased, the total resistance of the circuit pattern 21 is increased. In the embodiment of the present invention, the length of the circuit pattern 21 is determined such that the total resistance of the circuit pattern 21 is several Ω to several tens of Ω based on the formula (R = ρl / A).

When a current is applied through the electrode terminal 22 of the planar heating element 2 having the structure as described above, resistance heat is generated from the circuit pattern 21, and the resistance heat is transferred to the glass 1 and thus the glass 1. Eliminates frost and moisture that form on the surface.

In this case, in order for the heat generated from the planar heating element 2 to be uniformly transmitted evenly over the entire glass 1, the entire surface area of the planar heating element 2 is equalized while the interval of the circuit pattern 21 is uniform. Divide into equal parts.

On the other hand, a portion of the planar heating element 2 on the circuit pattern 21 of the PTC element 6 is electrically connected in series, the PTC element 6 is formed of a carbon paste (carbon paste) having a PTC characteristic Then, it is deposited together with the circuit pattern 21 in a thin film form.

As the PTC element 6 increases in temperature at a constant temperature section, the resistance value is also rapidly increased to reduce the flow of current, so that the amount of heat generated from the circuit pattern 21 is also maintained, thereby preventing overheating. .

5 is an NTC element installation configuration of the frost and moisture removing device of the side mirror having a constant temperature holding function according to a second embodiment of the present invention. In the second embodiment of the present invention, since the configuration of the mirror, the planar heating element, the safety tape, and the like are the same as those of FIG. 3, the same reference numerals are used, and descriptions of the functions will be omitted.

As shown in Figs. 3 and 5, the configuration of the frost and moisture removing device of the side mirror having a constant temperature holding function according to the second embodiment of the present invention is a mirror fixed to the mirror holder 5 ( The planar heating element 2 is applied to the back surface of 1) at a predetermined thickness, and the NTC element 7 is electrically connected in parallel on the circuit pattern 21 of the planar heating element 2 to generate from the planar heating element 2. The heat is to be kept constant, and the safety tape (3) is attached to the surface heating element (2) to prevent moisture or foreign matter.

The NTC element 7 electrically connected in parallel to a portion of the planar heating element 2 on the circuit pattern 21 is made of carbon paste having NTC characteristics and deposited in a thin film form with the circuit pattern 21. The NTC element 7 is generated from the circuit pattern 21 because the resistance value is drastically lowered as the temperature is increased in a predetermined temperature section, thereby bypassing and reducing the flow of current on the circuit pattern 21. Keeping the heat constant prevents overheating.

As described above, in an embodiment of the present invention, by using a relatively inexpensive and bulky PTC or NTC device as a temperature sensing means instead of bimetal, it has the effect of reducing the manufacturing cost and increasing the simplicity of design. It is possible to provide a frost and moisture removing device of a side mirror having a constant temperature holding function. This effect of the present invention can be used in various modifications in the field of automotive side mirrors without departing from the technical scope of the present invention.

Claims (1)

The planar heating element 2 coated on the rear surface of the mirror 1 fixed to the mirror holder 5 with a predetermined thickness and electrically connected in parallel on the circuit pattern 21 of the planar heating element 2 are fixed. As the temperature increases in the temperature section, the resistance decreases rapidly, thereby bypassing and reducing the flow of current on the circuit pattern 21 so that the heat generated from the planar heating element 2 can be kept constant. ), And a safety tape (3) attached to the planar heating element (2) so as not to contact with moisture or foreign matter, The planar heating element 2 is formed by connecting a circuit pattern 21 made of aluminum (Al) or copper (Cu) in series in a zigzag form, and an electrode capable of applying a current to the end of the circuit pattern 21. Defrosting and moisture removing apparatus of the side mirror having a constant temperature holding function, characterized in that the terminal 22 is formed in a structure formed.