JP3997873B2 - Bathroom air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a bathroom air conditioner having at least one function such as ventilation, heating and drying in a bathroom.
[0002]
[Prior art]
In the cold season, even after entering the bathroom after undressing, the room temperature of the bathroom is often low, so it is often necessary to withstand the cold. In order to alleviate this, it is considered to preheat the bathroom. For example, as shown in FIG. 8, it is known to install a bathroom air conditioner equipped with a heater 1 on a bathroom ceiling. Three heaters 1 are arranged in parallel, and a metal net frame 3 having a wire mesh 2 is provided in the vicinity of the heaters 1. The net frame 3 is connected to a metal ventilation case (not shown) by a ground wire 11. Note that FIG. 8 is upside down, and the heater 1 is actually disposed above (on the ceiling side) the net frame 3.
[0003]
The three heaters 1 are connected in parallel with heater cables 4 and 5 which are thickly configured to pass a large current and have a heat-resistant coating, and these heater cables 4 and 5 are connected to an AC power source 6. . A switch 9 is inserted in the heater cable 4 in series. Then, an electric current is supplied from the AC power source 6 to the heater 1 to heat the heater 1 to warm the air around the heater 1 and to rotate the centrifugal fan based on an operation command of an operation panel (not shown) to warm the air. Can be preheated in the bathroom.
[0004]
By the way, when the current flowing through the heater 1 leaks and a so-called leakage current Ic is generated, there is a possibility that a safety inconvenience may occur in some cases due to leakage in a bathroom where water is applied to a person during bathing. When such a leakage occurs, it is necessary to forcibly stop the current to the heater 1 immediately. Therefore, in a conventional bathroom air conditioner, a zero-phase current transformer (ZCT) in which the heater cables 4 and 5 are wound several times (three times) in order to ensure higher detection sensitivity than the leakage breaker of the distribution board. On the basis of the control signal a from the leakage detection circuit 8 connected to the coil 7, the signal lead-out line 7A of the zero-phase current transformer coil 7, the switch 9 on the heater cable 4 is forced. And a reset circuit 10 that immediately stops. If there is no leakage, the current Ia flowing through the heater cable 4 and the current Ib flowing through the heater cable 5 have the same value, so the control signal 8 from the leakage detection circuit 8 is not output, but when leakage occurs. Since the current Ib is smaller than the current Ia, the zero-phase current transformer coil 7 detects this current deviation, and the detection signal is input to the leakage detection circuit 8. The leakage detection circuit 8 amplifies the input detection signal, and if it is above a predetermined level, determines that leakage has occurred, outputs a control signal a to the reset circuit 10, and further resets The circuit 10 outputs a reset signal b to turn off the switch 9 on the heater cable 4. Thereby, the current to the heater 1 can be forcibly stopped immediately.
[0005]
Further, as a patent document relating to leakage detection, a leakage breaker that performs leakage detection using a zero-phase current transformer coil has been proposed (see, for example, Patent Document 1).
[0006]
In addition, as other patent documents, a central control unit that centrally controls each bathroom device such as audio, television, lighting equipment, ventilation fan, mirror defogging heater, floor heater installed in the bathroom, and leakage from each bathroom device. There has been proposed a control device for a bathroom device provided with a leakage detection circuit that detects whether or not a leakage current occurs and interrupts the power supply connected to each bathroom device when a leakage occurs (see, for example, Patent Document 2).
[0007]
Further, as another patent document, a leakage detection device is proposed in which a leakage breaker is not required by setting the leakage detection current to an appropriate value in bathroom floor heating (see, for example, Patent Document 3).
[0008]
[Patent Document 1]
Japanese Patent Laid-Open No. 11-213849 [Patent Document 2]
Patent No. 2844735 [Patent Document 3]
JP-A-11-132484 [0009]
[Problems to be solved by the invention]
However, in the prior art shown in FIG. 8 and Patent Document 1, the two heater cables are thick because they carry a large current and have a heat-resistant coating, and once they are zero-phase current transformers. Since it is connected to the heater after passing through the coil, the degree of freedom in wiring the heater cable is limited. In particular, when two heater cables are wound around a zero-phase current transformer coil in order to ensure detection sensitivity, the heater cable is also fixed by the zero-phase current transformer coil, making free wiring of the heater cable more difficult. . In addition, an insert-type faston terminal is attached to one end of the heater cable, but since this connection work is performed on the heater cable wound around the zero-phase current transformer coil, the zero-phase current transformer coil becomes an obstacle. This makes workability even worse.
[0010]
Moreover, in patent document 2 and patent document 3, although the leak detection from a bathroom apparatus is performed, it is unknown whether the zero phase current transformer coil is used for the leak detection.
[0011]
The subject of this invention is providing the bathroom air conditioner which can improve the freedom degree of wiring of a heater cable.
[0012]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides a bathroom air conditioner having a function of supplying air heated by the heater to the bathroom, wherein the bathroom air conditioner body is heated air. A wire mesh is provided in the opening, a ground wire is connected to the wire mesh, and the ground wire connected to the wire mesh is a zero-phase current transformer A leakage current that is wound around a coil and flows from the heater to the wire mesh is detected by the zero-phase current transformer coil .
[0013]
According to the above configuration, the zero-phase current transformer coil can directly detect the leakage current rather than indirectly detecting the leakage current from the current deviation flowing through the heater cable as in the prior art. It is not necessary to pass the heater cable through the zero-phase current transformer coil, thereby improving the degree of freedom of wiring of the heater cable.
In addition, since the ground wire is connected to the wire mesh of the opening and the leakage current to the ground wire is detected by the leakage zero-phase current transformer coil , the leakage current flowing through the wire mesh can be reliably detected.
[0017]
Furthermore, the present invention is characterized in that a current interrupting means for interrupting a current to the heater is provided when the zero-phase current transformer coil detects a leakage current. If the current interrupting means is provided in this way, the current to the heater is immediately interrupted at the time of occurrence of electric leakage, and an electric shock accident can be prevented beforehand.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
3 and 4 show a bathroom air conditioner 20 according to the present invention. The bathroom air conditioner 20 has a metal box-shaped ventilation case 21 embedded in the ceiling. On the lower surface of the ventilation case 21, a suction port 22 for sucking air in the bathroom and hot air into the bathroom are provided. The blower outlet 23 which blows off is provided. A heater 24 is provided in the air outlet 23, and the air blown from the air outlet 23 is heated by the heater 24.
[0019]
Further, an exhaust port 25 is provided on the side of the ventilation case 21, and the exhaust port 25 communicates with the outside. Further, a damper 26 is provided in the ventilation case 21, and this damper 26 can be switched between a solid line position, a broken line position, and a chain line position shown in FIG. In the heating mode, the damper 26 is switched to the solid line position, the inlet 22 and the outlet 23 are communicated, and the heater 24 is energized. In the ventilation mode, the damper 26 is switched to the broken line position so that the suction port 22 and the exhaust port 25 communicate with each other. In the drying mode, the damper 26 is switched to the chain line position, which is the intermediate position, and the heater 24 is energized. In this drying mode, the clothes can be dried. In addition, when the heater 24 is in a non-energized state, the wind is blown out from the outlet 23 as a cool breeze mode.
[0020]
Further, a centrifugal fan 27 is provided in the ventilation case 21, and air is sucked from the suction port 22 by the centrifugal fan 26, and the sucked air is blown out from the blowout port 23 or exhausted from the exhaust port 25. It has come to be. A motor 28 rotates the centrifugal fan 27, and the motor 28 is fixed to the top plate 21 </ b> A of the ventilation case 21.
[0021]
As shown in FIG. 1, three heaters 24 are arranged in parallel, and heater cables 31 and 32 connected to an AC power source 30 are connected in parallel to each heater 24. The heater cable 31 is provided with a switch 33, and the other heater cable 32 is grounded via a distribution board. In the vicinity of the heater 24, a metal net frame 35 having a metal mesh 34 is provided. The metal mesh 34 and the net frame 35 are formed of a conductor. Note that FIG. 1 is upside down, and the heater 24 is actually disposed above the net frame 35 (on the ceiling side).
[0022]
In the present embodiment, the ground wire 36 connected to the net frame 35 is wound around the zero-phase current transformer coil 37, and the tip of the ground wire 36 is connected to the ventilation case 21. The ventilation case 21 is grounded to the ground via a distribution board. A signal lead wire 37A is attached to the zero-phase current transformer coil 37, and the tip of the signal lead wire 37A is connected to a leakage detection circuit 38. The leakage detection circuit 38 is connected to a reset circuit 39 for forcibly turning off the switch 33 on the heater cable 31. Here, the reset circuit 39 and the switch 33 constitute a current interrupting means.
[0023]
As shown in FIG. 5, the zero-phase current transformer coil 37 is formed in an annular shape, and two signal extraction lines 37A are attached to the peripheral edge thereof. Reference numeral 37B denotes a connector attached to the signal extraction line 37A. As shown in FIG. 6, a ground wire 36 is wound around the zero-phase current transformer coil 37 several times (three times) to form a coil assembly 40, and the assembly line of the bathroom air conditioner has a coil assembly. 40. A terminal 41 is attached to one end side of the ground wire 36, and a faston terminal 42 is attached to the other end side. The faston terminal 42 is grounded as described above.
[0024]
A connector 37B is attached to the tip of the signal extraction line 37A attached to the zero-phase current transformer coil 37, and this connector 37B is inserted into a connector receptacle provided on a power supply board (not shown).
[0025]
In the assembly line of the bathroom air conditioner, the coil assembly 40 has a terminal on one end side of the ground wire 36 attached to the net frame 35 with screws (not shown) as shown in FIG. The net frame 35 is attached to a heater cover 43 for covering the heater 24, and the heater cover 43 is fixed to the heater base 44 together with the heater 24. The heater base 44 is attached in the ventilation case 21.
[0026]
In the bathroom air conditioner having the above-described configuration, when the heating mode or the drying mode is set to operate, the switch 33 is turned on, a current flows through the heater 24, and the heater 24 generates heat. Here, assuming that the current flowing through the heater cable 31 is Ia and the current flowing through the heater cable 32 is Ib, the current Ia and the current Ib are equal if no leakage from the heater 24 occurs. Accordingly, at this time, no leakage current flows through the ground wire 36.
[0027]
If leakage occurs from the heater 24 to the wire mesh 34 or the net frame 35 (the leakage current at this time is Ic), the leakage current Ic flows to the ground wire 36. The currents Ia and Ib and the leakage current Ic are in the relationship of the following formula.
Ia = Ib + Ic
[0028]
Since the tip of the ground wire 36 is grounded and the heater cable 32 is also grounded, the leakage current Ic flowing to the ground wire 36 eventually flows as shown by a broken line. Since the ground wire 36 is wound around the zero-phase current transformer coil 37, a voltage is generated in the zero-phase current transformer coil 37 when a leakage current Ic flows through the ground wire 36. For example, when the leakage current Ic is about 8 mA, a voltage of about 5 mV is generated from the zero-phase current transformer coil 37. A signal relating to this voltage is taken into the leakage detection circuit 38 via the signal extraction line 37A. Then, the leakage detection circuit 38 detects that leakage has occurred from the signal taken in from the zero-phase current transformer coil 37 and outputs a control signal a to the reset circuit 39 as shown in FIG. . Further, the reset circuit 39 outputs a reset signal b to turn off the switch 33 on the heater cable 32. Thereby, the electric current to the heater 24 can be interrupted. In the present embodiment, the time from the occurrence of electric leakage to the current interruption is as high as about 10 milliseconds.
[0029]
According to the present embodiment, since the heater cables 31 and 32 are not provided with the zero-phase current transformer coil 37, the heater cables 31 and 32 can be freely wired.
[0030]
【The invention's effect】
As described above, according to the present invention, since nothing is provided in the heater cable, the degree of freedom of wiring of the heater cable can be improved.
[Brief description of the drawings]
FIG. 1 is a block diagram of a main part of a bathroom air conditioner according to the present invention.
FIG. 2 is a diagram illustrating a state in which leakage occurs and the current to the heater is interrupted in the bathroom air conditioner of FIG. 1;
FIG. 3 is a perspective view of a bathroom air conditioner according to the present invention.
4 is a cross-sectional view of the bathroom air conditioner of FIG. 3;
FIG. 5 shows a zero-phase current transformer coil, in which (a) is a front view and (b) is a side view.
FIG. 6 is a configuration diagram of a coil assembly including a zero-phase current transformer coil and a ground wire.
FIG. 7 is an exploded perspective view of a heater peripheral member.
FIG. 8 is a configuration diagram of a main part of a conventional bathroom air conditioner.
[Explanation of symbols]
20 Bathroom air conditioner 21 Ventilation case 22 Suction port 23 Air outlet 24 Heater 25 Exhaust port 26 Damper 27 Centrifugal fan 28 Motor 30 AC power source 31, 32 Heater cable 33 Switch 34 Wire mesh 35 Net frame 36 Ground wire 37 Zero-phase current transformer coil 38 Electric leakage detection circuit 39 Reset circuit 40 Coil assembly

Claims (2)

A bathroom air conditioner provided with a heater and having a function of supplying air heated by the heater into the bathroom,
The bathroom air conditioner body has an opening for supplying warm air into the bathroom,
And the opening is provided with a wire mesh,
A ground wire is connected to the wire mesh,
The ground wire connected to the wire mesh is wound around a zero-phase current transformer coil,
A bathroom air conditioner , wherein a leakage current flowing from the heater to the wire mesh is detected by the zero-phase current transformer coil . In the bathroom air conditioner according to claim 1,
A bathroom air conditioner comprising a current interrupting means for interrupting a current to the heater when the zero-phase current transformer coil detects a leakage current.

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