KR102001830B1 - Composite Sensor For Bidet And Its Fastening Device - Google Patents

Abstract

The present invention relates to a composite sensor for a bidet and a fastening device therefor, and more specifically, to a fastening device, which includes a temperature sensor in an existing seating sensor structure to integrate the temperature sensor with a board and provides the same on the base of a bidet. A fastening device for a composite sensor for a bidet, according to an embodiment of the present invention, comprises: a composite sensor integrated by including the temperature sensor in a PCB of a seating sensor; the base of the bidet having a flow preventing groove formed on the surface thereof to prevent movement of the composite sensor; ribs protruding from the base on both sides of the flow preventing groove and each having a fastening groove capable of fastening a fastening member; and a fixing plate fastened to the ribs such that a coated heating wire and the composite sensor installed on the base can come into close contact while the composite sensor is pressed from above such that the bottom surface of the composite sensor can come into close uniform contact with the surface of the board.

Description

TECHNICAL FIELD [0001] The present invention relates to a composite sensor for bidet,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a composite sensor for a bidet and a fastening device for the bidet, and more particularly, to a fastening device for integrating a temperature sensor in a conventional seating sensor structure and integrating the same in a seat of a bidet.

2. Description of the Related Art Conventionally, a bidet is installed in a toilet and performs a local cleaning operation in various modes according to a user's input setting. In recent years, the bidet operates electronically.

That is, it is possible to control not only the intensity of the water pressure to be sprayed, the temperature of the hot water, the temperature of the hot air and the temperature of the bidet sheet, but also the start or end of washing or warm air.

The existing bidet has a thermostat temperature sensor attached to the inside of the bidet to warm the thermostat to adjust the temperature of the thermostat by controlling the current applied to the thermostat. And a capacitance seating seat sensor for judging whether or not the seat is seated.

Further, a harness for transmitting the detection signals of these two kinds of sensors to the main controller of the bidet is constituted.

In detail, in each of these configurations, the hot wire is covered with an insulating layer, and an aluminum foil is widely attached to the seat so as to facilitate heat transfer to the seat, and the hot wire is bonded to the aluminum foil.

The next thermistor temperature sensor for temperature sensing draws two strands of connecting wires out of the set to send an electrical signal.

As shown in FIG. 1, the electrostatic capacitance type seating sensor for human body detection is connected to three wires (OUT, VDD, GND) to draw electrical signals to the outside of the seat.

The capacitive seating sensor is attached directly to the seat of the ABS / PP material, and when it comes in contact with or very close to the aluminum foil, the capacitance may change due to the influence of the aluminum foil, When attaching the sensor to the seat, cut the aluminum foil a certain area and keep it at a distance of 1 ~ 3mm from the seating sensor.

In addition, a seating surface suitable for the seat is formed so that the contact surface of the seating sensor can be closely attached to the seat, and a fastening / fastening structure is formed on the upper part so as to be held tightly.

That is, since the thermistor temperature sensor for temperature sensing to adjust the temperature of the seat and the capacitive seating sensor for determining whether the person is seated in the seat are separately (separately) installed inside the seat of the existing bidet, And there was a time-consuming problem.

In order to solve this problem, a composite sensor having a capacitance sensing function and a temperature sensing function is disclosed in the prior art (Korean Utility Model Laid-Open No. 20-2008-0005665).

In this prior art document, a capacitive sensor part and a temperature sensor part are formed on one PCB, and the temperature sensor part is formed by connecting a radial type or an axial thermistor in which a lead wire is connected to an NTC thermistor chip, After the lead wire is inserted into the hole and soldered, the temperature sensor head portion (where the NTC thermistor chip and the two lead wires are soldered) is placed in the circular hole formed in the PCB.

However, in the temperature sensor, the responsiveness is determined only when the temperature of the entire temperature sensor is changed. That is, the larger the size, the lower the response speed.

The composite sensor disclosed in the prior art has a problem that it is difficult to perform a function as a normal temperature sensor because the size is too large and the temperature sensing speed is slow.

Publication number 10-2011-0021100 (public date March 04, 2011)

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above-mentioned problems, and it is an object of the present invention to provide an SMD type chip thermistor in addition to a PCB of a seating sensor structure, And to provide a composite sensor for a bidet that can shorten the time required for fastening and a fastening device for the bidet.

According to another aspect of the present invention, there is provided a composite sensor for a bidet including a PCB mounted on a seat of a bidet and having a seating sensor for detecting whether or not the seat is seated;

A temperature sensor of an SMD type chip thermistor which is soldered to a circuit pattern formed on a PCB of the seating sensor to sense the temperature;

A terminal for securing a signal of the temperature sensor and the seating sensor;

And a seat detection function and a temperature sensing function are integrated into one.

If the terminals of the composite sensor are OUT, VDD, GND, and TEM 4,

One terminal of the temperature sensor is connected to the GND terminal of the seating sensor or the VDD terminal of the seating sensor and the other terminal is connected to TEM or one terminal of the temperature sensor 1 is connected to the GND of the seating sensor, And is connected to the VDD terminal of the seating sensor, and the other terminal of the temperature sensors 1 and 2 is connected to the TEM.

The fastening device for a composite sensor for a bidet according to an embodiment of the present invention includes a composite sensor including a temperature sensor incorporated in a PCB of a seating sensor and integrated therewith;

A base of a bidet having a flow prevention groove formed on a surface thereof for preventing the flow of the composite sensor;

A rib protruding from both sides of the flow prevention groove and formed with a fastening groove for fastening the fastening member; And

A fixing plate that presses the composite sensor at an upper portion of the composite sensor so that the bottom surface of the composite sensor is in uniform contact with the surface of the fixing surface and is fastened to the rib so that the composite heating sensor and the composite heating sensor,

.

In addition, the fixing plate is provided with fastening holes at both sides thereof at positions corresponding to the fastening grooves of the ribs, and a receiving portion opened to the lower portion is formed at an intermediate portion of the fastening plate, so that the composite sensor and the coating superposed heating wire are received. And a pressing protrusion is formed so that the pressing protrusion can be formed.

In addition, a thermally conductive adhesive tape that is bonded to the upper part of the coated superelastic element and the composite sensor and transfers the heat generated in the superelevable element to the composite sensor is provided under the fixed plate.

The spacer may further include a spacer spaced apart from the bottom surface of the composite sensor by an aluminum foil attached to the seat.

And when the composite sensor is polygonal, the coated superparamagnet is disposed close to at least one side of the composite sensor.

According to the means for solving the above-mentioned problems, firstly, the SMD type chip thermistor can be additionally provided on the PCB of the seating sensor structure to realize a combined sensor of seating + temperature while improving the temperature sensing speed.

Second, it is possible to install the coated heating wire in close contact with both sides of the composite sensor case of the seating + temperature.

Third, the bottom surface of the composite sensor case and the contact surface of the bidet seat can be uniformly adhered to each other.

Fourth, it is possible to maintain a certain distance from the outer edge of the composite sensor case and the aluminum foil to be attached so as to uniform the temperature distribution of the seat by attaching the coating heating line.

Fifth, the heat generated from the coating heating element can be transmitted to the composite sensor well.

1 is a photograph for showing a conventional seat-occupying sensor.
2 is a photograph showing a composite sensor of a seating + temperature according to an embodiment of the present invention.
3 is a circuit diagram of Fig.
4A to 4D are photographs showing a manufacturing process of a composite sensor according to an embodiment of the present invention.
5A and 5B are circuit diagrams of a composite sensor of seating + temperature according to another embodiment of the present invention.
6A and 6B are a schematic view of a composite sensor of seating + temperature according to another embodiment of the present invention and a view for showing a harness thereof.
FIGS. 7A to 7D show various methods of installing the composite sensor, and FIGS. 8A to 8D are temperature graphs thereof.
FIG. 9 is an exploded perspective view showing a fastening device for a composite sensor according to an embodiment of the present invention.
10 is an assembled perspective view of the fastening device shown in Fig.
11 is a front sectional view of Fig.
12 is a view showing a fastening device of a composite sensor for a bidet according to an embodiment of the present invention when fastened to a seat.
13 is a photograph for showing another fastening state of the fastening device according to another embodiment of the present invention.
14A and 14B are views showing a state in which a coating heating element is arranged close to four sides of the composite sensor.
15 is a view showing a state in which a coating heating element is disposed close to three sides of the composite sensor.
16 is a view showing a state in which a coating heating element is disposed close to two sides of the composite sensor.
FIGS. 17A to 17C are views showing a state in which a coating superposed heating element is disposed close to one side surface of the composite sensor. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

It is to be noted that the same components of the drawings are denoted by the same reference numerals and symbols as possible even if they are shown in different drawings.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Also, when a part is referred to as "including " an element, it does not exclude other elements unless specifically stated otherwise.

FIG. 2 is a view for showing a composite sensor of seating + temperature according to an embodiment of the present invention, and FIG. 3 is a circuit diagram of FIG.

2, the temperature sensor (TH1, 3 of R _TH) is SMD type to configure the chip thermistor in addition to the PCB of the conventional seating sensor (U1) structure, to sense the temperature, the seating the GND terminal The combined sensor 100 of the seating temperature + temperature is integrally implemented by securing the signals of the two sensors with four terminals (OUT, VDD, GND, TEM) by commonly connecting to the sensor U1 and the temperature sensor TH1.

That is, in order to improve the temperature sensing speed, the SMD type chip thermistor ( _RTH ) is directly soldered to the circuit pattern of the seating sensor (U1) PCB to realize the integrated sensor (100) as one body.

At this time, a temperature sensor (R _TH) is sharer and the GND terminal of the seat sensor (U1).

In this case, the TEM terminal is the TEM terminal and the output terminal is the test point.

4A to 4D are photographs showing a manufacturing process of a composite sensor according to an embodiment of the present invention.

In FIG. 4A, the SMD type chip thermistor, IC, and MLCC, which are temperature sensors, are mounted on the surface of the seating sensor PCB.

In FIG. 4B, the 4-terminal and 4-wire insulation coating of the PCB are soldered to each other.

In Fig. 4c, a PCB is built in the case.

In Fig. 4 (d), epoxy is injected into the case to cure.

Through such a process, a composite sensor is manufactured.

5A and 5B are circuit diagrams of a composite sensor of seating + temperature according to another embodiment of the present invention.

5A shows a structure in which one terminal of the temperature sensor is connected to the VDD terminal of the seating sensor and the other terminal is connected to the TEM.

5B shows a structure in which one terminal of the temperature sensor 1 is connected to the GND of the seating sensor, one terminal of the temperature sensor 2 is connected to the VDD terminal of the seating sensor, and the other terminal of the temperature sensors 1 and 2 is connected to the TEM.

In particular, as shown in FIG. 5B, a method in which two temperature sensors are connected to the GND and VDD terminals of a seating sensor is a new technology, and can be applied to a structure in which a temperature sensor is connected to VDD or GND.

On the other hand, the bidet maker may connect the three-strand harness of the seating sensor and the two-strand harness of the temperature sensor separately to the main PCB in the bidet.

That is, the three-wire connector of the seat sensor and the two-wire connector of the temperature sensor can be connected to the 3-pin PCB connector and the 2-pin PCB connector of the main PCB, respectively.

FIGS. 2 and 3 show a temperature sensor mounted on a PCB of a seating sensor, and a GND terminal is shared and connected by four harnesses. In this case, one of the four harnesses is connected to the GND terminal by an insulating sheath, It is possible to meet the demand of the bidet manufacturer by connecting to the wire connector of the seat sensor and connecting the other wire to the wire connector of the temperature sensor.

As a result, in order to continue to use the main PCB of the bidet without modification, the GND terminal is not used as a common sensor of the seating + temperature, and the circuit of the seat sensor and the circuit of the temperature sensor are separately formed on one composite sensor PCB. After connecting 5 wires of soldering holes on the main PCB of the bidet, connect the 5 wires of insulation (harness) by soldering etc. Then connect the 3 wire connector of the seat sensor to the seat PCB connector of the main PCB , The two-wire connector of the temperature sensor can be connected to the temperature sensor PCB connector on the main PCB.

At this time, the PCB connector of the main PCB may be a single 5-pin PCB connector, or a 3-pin or 2-pin PCB connector in which the seating sensor and the temperature sensor are separated.

6A and 6B are a schematic view of a composite sensor of seating + temperature according to another embodiment of the present invention and a view for showing a harness thereof.

FIG. 6A shows the temperature sensor circuit and the seating sensor circuit separated from each other by five terminals, and FIG. 6B shows the three-wire connector of the seating sensor and the two-wire connector of the temperature sensor.

The seating sensor and the temperature sensor applied to the seat of the bidet should be careful such that the heat of the heating wire (coating heating wire) is easily transferred to the composite sensor when the sensor is installed on the seat so that each sensor can perform its function properly have.

In the case of the seating sensor, it is necessary to have a close contact from the lower contact surface of the seating sensor and the seating surface of the seating sensor so as to detect whether or not the seat is seated in accordance with the change in capacitance, and to have a uniform clearance from the attached aluminum foil .

In the case of the temperature sensor, the temperature of the hot wire (coated superconducting wire) must be detected quickly, so that it should be disposed close to the hot wire (coated superconducting wire) and the heat of the hot wire (coated superconducting wire) must be transmitted well.

FIGS. 7A to 7D show various methods of installing the composite sensor, and FIGS. 8A to 8D are temperature graphs thereof.

The results of the experiment below show how the surface temperature of the bed is controlled by the temperature sensor during heating / maintenance / cooling according to the installation method of the composite sensor when the bed temperature of the bidet is set to 40 ℃.

Here, the X axis is time (sec) and the Y axis is temperature (占 폚).

As shown in FIG. 7A, when the composite sensor is far from the coated heating wire and the thermally conductive adhesive tape is not attached, the temperature sensed by the composite sensor does not reach the set temperature of 40 ° C as shown in FIG. 8A, The surface temperature of the settling plate is continuously heated to 50 ° C or more, which is higher than the set temperature of 40 ° C.

In this case, the composite sensor does not function as a temperature sensor.

As shown in FIG. 7B, when the composite sensor is in close contact with the superposed heating wire, but the thermally conductive adhesive tape is not attached, the composite sensor functions as a temperature sensor, but the surface temperature of the bed is maintained above the set value.

As shown in FIG. 7C, when the composite sensor is mounted on a thermally conductive adhesive tape but is far from the superheating coil, the composite sensor functions as a temperature sensor and the surface temperature of the superheater is similar to the set value. Overheated.

As shown in FIG. 7D, when the coating heating wire is attached to both sides of the composite sensor and the thermally conductive adhesive tape is attached, the composite sensor functions as a temperature sensor and the surface temperature of the fixing base is similar to the set value. Relatively less is overheated.

Based on the above experiment results, it is installed on the seat of bidet so that the function of composite sensor can be implemented properly as follows.

FIG. 9 is an exploded perspective view showing a fastening device for a composite sensor according to an embodiment of the present invention, FIG. 10 is an assembled perspective view of the fastening device according to FIG. 9, FIG. 2 is a view showing a fastening device of a composite sensor for a bidet according to an embodiment of the present invention when fastened to a seat; FIG.

9 to 12, the fastening apparatus 100 according to an embodiment of the present invention includes a base 20, a spacer 24, a rib 26, a fixing plate 28, and a fastening member 30 .

On the surface of the seat 20 of the bidet 200, a flow prevention groove 21 for preventing the flow of the composite sensor 10 is formed.

The spacers 24 are formed before and after the flow preventing grooves 21 as viewed in the figure so as to maintain a clearance between the aluminum foil attached to the seat 20 and the bottom surface of the composite sensor 10.

The ribs 26 are protrudingly formed on both sides of the flow prevention groove 21 of the seat 20 and are formed with fastening grooves 27 for fastening the fastening members 30 such as screws.

The fixing plate 28 presses the bottom surface of the composite sensor 10 so as to be in intimate contact with the contact surface (surface) of the base 20 of the bidet and at the same time presses the coating heating wire 22 on the side surface of the composite sensor 10, ).

To this end, a fastening hole is formed on both sides of the fixing plate 28 at positions corresponding to the fastening recesses 27 of the ribs 26, A pressing projection 29 is formed in the portion 28a for receiving the composite sensor 10 and the coating heating wire 22 on the side of the composite sensor 10 so that the composite sensor 10 can be pressed from above.

At this time, the accommodating portion 28a is formed narrower from the lower portion to the upper portion, and the outer side of the coated superelayer 22 supported inside by the composite sensor 10 is divided into the upper side of the fixed plate 28 having the accommodating portion 28a, Is supported by the side surface.

In the structure of the fastening device 100 as described above, in a state where the composite superconducting sensor 10 and the superposed heating element 22 are positioned on both sides of the composite sensor 10 in the flow preventing grooves 21 formed in the supporter 20, The fastening holes of the fastening groove 27 of the rib 26 and the fastening plate 28 are aligned with each other so that the composite sensor 10 and the superposed heating wire 22 are received in the receiving portion 28a of the fastening member 28, When the fixing plate 28 is fastened to the ribs 26 by means of the fastening plate 30, the pressing protrusions 29 press the composite sensor 10 from above and come into close contact with the seat 20, (10) is in close contact.

13, an adhesive tape made of a metal (Al, Cu, or the like) having excellent thermal conductivity for allowing the heat generated from the coated super-heating wire 22 to be transmitted to the composite sensor 10, A heat transfer path may be formed by bonding the coating heating wire 22 and the upper portion of the composite sensor 10 (epoxy filled).

When the thermally conductive adhesive tape is attached to the composite sensor 10 and the coating heating wire 22 of the base 20, the process of connecting the composite sensor 10 and the coating heating wire 22 to each other with the thermally conductive adhesive tape, 28, the thermally conductive adhesive tape is interposed between the composite sensors 10, whereby the thermally conductive adhesive tape is pressed by the pressing projections 29 of the fixing plate 28 and brought into close contact with the upper portion of the composite sensor 10 .

14A and 14B show a case in which the coated superposed heating wire 22 is disposed close to four sides of the composite sensor 10 when the composite sensor 10 is polygonal (square).

FIG. 15 shows a state in which the coated superposed heating elements 22 are arranged close to three sides of the composite sensor 10 when the composite sensor 10 is polygonal (square).

FIG. 16 shows a state in which the coated superposed heating elements are disposed on two sides of the composite sensor when the composite sensor 10 is polygonal (square).

FIGS. 17A to 17C show a case in which the coating superposed heating element 22 is disposed close to one side of the composite sensor 10 when the composite sensor 10 is polygonal (square).

Here, the approximate distance d between the composite sensor 10 and the coating superposed heating wire 22 is 0 to 30 mm.

As described above, according to the present invention, it is possible to minimize the additional supplementary work by incorporating the temperature sensor into the existing seating sensor structure so as to integrate them, and in the past, two sensors (a temperature sensor and a seating sensor) One complex sensor installation can complete the work and shorten the time and process.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

10: Composite sensor 20:
22: Coated heating wire 24: Spacer
26: rib 28: fixed plate
30: Fixing plate 100: Fastening device
200: bidet

Claims (7)

A PCB mounted on a seat of a bidet and equipped with a seating sensor for detecting whether or not the seat is seated;
A temperature sensor of an SMD type chip thermistor which is soldered to a circuit pattern formed on a PCB of the seating sensor to sense the temperature;
A terminal for securing a signal of the temperature sensor and the seating sensor; A seat detection function and a temperature sensing function are integrated into one,
If the terminals of the composite sensor are OUT, VDD, GND, TEM 4,
One terminal of the temperature sensor is connected to the GND terminal of the seating sensor or the VDD terminal of the seating sensor and the other terminal is connected to TEM or one terminal of the temperature sensor 1 is connected to the GND of the seating sensor, Wherein the sensor is connected to the VDD terminal of the seat sensor and the other terminal of the temperature sensors is connected to the TEM. delete A composite sensor in which a temperature sensor is integrated into a PCB of a seating sensor;
A base of a bidet having a flow prevention groove formed on a surface thereof for preventing the flow of the composite sensor;
A rib protruding from both sides of the flow prevention groove and formed with a fastening groove for fastening the fastening member; And
A fixing plate that presses the composite sensor at an upper portion of the composite sensor so that the bottom surface of the composite sensor is in uniform contact with the surface of the fixing surface and is fastened to the rib so that the composite heating sensor and the composite heating sensor,
And a fastening device for the bidet. The method of claim 3,
The fastening plate is formed with fastening holes at both sides thereof at positions corresponding to the fastening grooves of the ribs. In the middle of the fastening plate, a receiving portion opened to the lower side is formed to accommodate the composite sensor and the coating superposed heating wire, And a pressing protrusion is formed on an upper surface of the bidet. The method of claim 3,
And a thermally conductive adhesive tape adhered to the upper part of the coated superelastic wire and the heat generated from the superelevative wire to the composite sensor is provided under the fixed plate. The method of claim 3,
Further comprising spacers spaced apart from the bottom surface of the composite sensor and the aluminum foil attached to the seat. The method of claim 3,
Wherein when the composite sensor is polygonal, the coated superelay is disposed close to at least one side of the composite sensor.

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