JP7040749B2 - Edge valve and bath water heater - Google Patents

Description

The present invention relates to an edge-cutting valve used for a bath water heater capable of supplying hot water from a hot water supply circuit to a bathtub, and a bath water heater provided with the edge-cutting valve.

The bath water heater is supplied from the water supply pipe via the external water pipe by connecting the water supply pipe and the hot water outlet pipe to the heat exchanger heated by the burner and opening the external hot water supply tap to which the hot water outlet pipe is connected. It is known that a hot water supply circuit that heats the water to be discharged and discharges hot water, and a bath circuit that connects a bath going pipe and a bath returning pipe connected to an external tub in the same or different heat exchanger. ing. Here, a drop pipe is connected between the hot water supply circuit and the bath circuit, and the hot water discharged from the hot water supply circuit is supplied from the drop pipe to the bathtub via the bath circuit so that the bathtub can be filled with hot water.
In such a bath water heater, as disclosed in Patent Document 1, two check valves for preventing the backflow of hot water from the bathtub side are arranged in series on the drop pipe to reverse the water heater. A branch path that opens to the atmosphere is connected between the valve stops, and a check valve equipped with a partition wall that receives pressure on the hot water supply circuit side and a valve body that operates integrally with the partition wall is provided in the branch path. It is provided. In this edge-cutting valve, when the water pressure on the hot water supply circuit side is higher than the water pressure on the bathtub side, the partition wall receives the water pressure on the hot water supply circuit side to close the valve body, and the check valve on the downstream side operates. When a backflow occurs and the water pressure on the bathtub side becomes high, the partition wall receives the water pressure on the bathtub side to open the valve body, and the hot water flowing back between the check valves is discharged via the branch path. There is.

Japanese Unexamined Patent Publication No. 2004-150662

The valve body of the edge-cutting valve is provided with a ring-shaped seat portion that sits on the valve seat of the branch path at the front end of the holding member fixed to the partition wall. It has a structure that separates it from the valve seat. However, since the gap (opening) between the valve seat and the seat portion at the time of valve opening is small, the backflowing hot water remains in the gap due to tension, and the hot water stays without being discharged from the branch path. There was a risk of freezing in winter.

Therefore, an object of the present invention is to provide a marginal valve and a bath water heater that can prevent residual water at the opening / closing portion and improve the drainage performance.

In order to achieve the above object, the invention according to claim 1 can supply a hot water supply circuit having a burner and a heat exchanger, and a hot water supply circuit connected to an external bathtub to supply hot water from the hot water supply circuit to the bathtub. In a bath water heater including a drop pipe provided with two check valves to prevent backflow of hot water from the bathtub side, it is provided in a branch path formed between the two check valves in the drop pipe. When the water pressure on the hot water supply circuit side is higher than the water pressure on the bathtub side, it operates in a valve closed position where it sits on a flat valve seat provided in the branch path and closes the branch path, and the water pressure on the hot water supply circuit side increases. When the water pressure is lower than the water pressure on the bathtub side, it is a marginal valve that operates at the valve opening position away from the valve seat and opens the branch path.
Includes an elastic ring that contacts and detaches from the valve seat and a circular holding member with a ring-shaped groove that holds the elastic ring.
It is characterized in that at least one notch is formed in the holding member on the radial outer side of the elastic ring to prevent the retention of hot water from the valve seat at the valve opening position.
The invention according to claim 2 is characterized in that, in the configuration of claim 1, a plurality of notches are provided at equal intervals in the circumferential direction.
In order to achieve the above object, the invention according to claim 3 can supply a hot water supply circuit having a burner and a heat exchanger and hot water from the hot water supply circuit to the bathtub by being connected to an external bathtub from the hot water supply circuit. A bath water heater that includes a drop pipe equipped with two check valves to prevent backflow of hot water from the bathtub side.
The margin cutting valve according to claim 1 or 2 is provided in a branch path formed between two check valves in a drop pipe.

According to the first and third aspects of the present invention, the elastic ring includes an elastic ring that is brought into contact with and detached from a flat valve seat, and a circular holding member having a ring-shaped concave groove that holds the elastic ring. By forming a notch on the holding member on the radial outer side to prevent hot water from staying between the valve seat and the valve seat, residual water is prevented from remaining at the opening and closing part by the edge cut valve and drainage is performed. Performance can be improved.
According to the second aspect of the present invention, in addition to the above effect, since a plurality of notches are provided at equal intervals in the circumferential direction, the tension of hot water at the opening / closing portion can be reliably destroyed, and the drainage performance is further improved. Can be expected to improve.

It is a schematic circuit diagram of a bath water heater. In the external explanatory view of the bath water heater, (A) shows a front surface, (B) shows a flat surface, and (C) shows a side surface. It is a bottom view of a bath water heater. It is a front view of the inside of a housing which omitted the front cover. It is a front view of the inside which omitted the housing, the controller, and the wiring connected to this. It is a perspective view from the front of FIG. It is a perspective view from the rear of FIG. FIG. 5 is an enlarged cross-sectional view taken along the line AA of FIG. It is a perspective view of the seat part and the outer holding member.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(Outline configuration of bath water heater)
FIG. 1 is a schematic circuit diagram showing an example of a bath water heater. This bath water heater 1 supplies combustion air to each of the three burner units 3, 3 ..., Which are provided with a plurality of burners 4, 4, ... A combustion fan 5 is provided, and a hot water supply heat exchanger 6 and a bath heat exchanger 7 through which the combustion exhaust of the burners 4, 4, ... Passes are installed in the upper part of the combustion chamber 2. 8 is an ignition plug, 9 is a frame rod, an exhaust hood 10 for exhausting combustion exhaust that has passed through both heat exchangers 6 and 7 is provided at the upper part of the combustion chamber 2, and combustion is performed outside the combustion chamber 2. A sheet-shaped overheat prevention device 11 printed with a fuse circuit for detecting the leakage of combustion exhaust from the chamber 2 is wound around.

A gas pipe 12 to which a gas pipe from the outside is connected is connected to the gas inlet of the equipment accommodating the combustion chamber 2 and the like, and the branch pipes 13, 13 and branch pipes 13 and 13 branching from the gas pipe 12 are connected to each burner unit 3. Each branch pipe 13 is provided with a gas solenoid valve 14 that opens and closes a gas flow path. Further, the gas pipe 12 before branching is provided with a source gas solenoid valve 15 and a gas proportional valve 16 from the upstream side, respectively.

The hot water supply heat exchanger 6 includes a hot water supply heat transfer tube 18 that serpentinely penetrates a plurality of fins 17, 17 ... Arranged at predetermined intervals, and a water inlet of an instrument is provided at the inlet of the hot water supply heat transfer tube 18. A water supply pipe 19 connected to the water heater 19 is connected to the water heater, and a hot water outlet pipe 20 connected to the hot water outlet of the appliance is connected to the outlet of the hot water supply heat transfer tube 18. A water pipe thermistor 21 for detecting the temperature of the hot water supply heat transfer tube 18 is provided at a bent portion of the hot water supply heat transfer tube 18 exposed to the outside of the hot water supply heat exchanger 6. Further, a bypass pipe 22 that bypasses the hot water supply heat exchanger 6 is connected between the water supply pipe 19 and the hot water outlet pipe 20, and the connection portion between the water supply pipe 19 and the bypass pipe 22 is driven by a stepping motor. A distribution valve 23 for variably controlling the flow rate of the bypass pipe 22 is provided.
There is.

Further, on the upstream side of the connection portion of the water supply pipe 19 with the bypass pipe 22, a water entry thermistor 24 for detecting the water entry temperature and a hot water supply water amount sensor 25 for detecting the amount of water flowing through the water supply pipe 19 are provided.
A hot water supply heat exchanger thermistor 26 for detecting the outlet temperature is provided at the outlet of the hot water supply heat exchanger 6 in the hot water outlet pipe 20, and the hot water outlet temperature is detected on the downstream side of the connection portion with the bypass pipe 22. A hot water supply and hot water thermistor 27 and a water amount control valve 28 that is driven by a stepping motor to variably control the flow rate of the hot water discharge pipe 20 are provided.
Therefore, a hot water supply circuit A including a hot water supply heat exchanger 6 heated by the burner unit 3, a water supply pipe 19 connected to the hot water supply heat exchanger 6, a hot water outlet pipe 20, and a bypass pipe 22 is formed here.

On the other hand, the bath heat exchanger 7 includes a bath heat transfer tube 30 that penetrates the fins 17, 17, ... In a serpentine manner, and at the entrance of the bath heat transfer tube 30, the bath adapter 32 of the external bathtub 31 is provided via an external pipe. A bath return pipe 33 connected to the bath return pipe 33 is connected, and a bath going pipe 34 connected to the bath adapter 32 via an external pipe is connected to the outlet of the bath heat transfer pipe 30. The bath return pipe 33 is provided with a pump 35, a bath return thermistor 36 for detecting the bath return temperature is provided on the upstream side thereof, and hot water in the bath return pipe 33 is provided on the downstream side of the pump 35. A bath water flow switch 37 that operates ON / OFF according to the flow and a water level sensor 38 that detects the water level in the bathtub 31 by the water pressure are provided. Further, the bath going tube 34 is provided with a bath going thermistor 39 for detecting the bath going temperature.
Therefore, here, the bath circuit B including the bath heat exchanger 7 heated by the burner unit 3, the bath return pipe 33 and the bath going pipe 34 connected between the bath heat exchanger 7 and the bathtub 31. Is formed.
As described above, the bath water heater 1 has a hot water supply heat exchanger 6 and a bath heat exchanger 7 having different routes in one combustion chamber 2 and is heated by a common burner unit 3, 3 ... 1 It is a can 2 water channel type.

Then, between the hot water supply circuit A and the bath circuit B, a drop pipe 41 is connected between the downstream side of the water amount control valve 28 in the hot water discharge pipe 20 and the pump 35 and the bath return thermistor 36 in the bath return pipe 33. There is. The drop pipe 41 is provided with a bath water amount sensor 42 for detecting the amount of water flowing through the drop pipe 41 on the upstream side, and a drop water solenoid valve 43 for opening and closing the drop pipe 41 on the downstream side. Further, two check valves 44, 44 are provided on the downstream side of the drop water solenoid valve 43, respectively, and hot water flowing back from the bath return pipe 33 is discharged between the check valves 44, 44 from the overflow port. A check valve 45 for discharging is connected. The edge cutting valve 45 will be described later.
Reference numeral 50 is a controller that receives a detection signal from each thermistor, a sensor, or the like and operates each valve or the like to control the temperature of hot water, control the filling of hot water in the bathtub 31, 51 is a hot water supply remote controller, and 52 is a bath remote controller.

(Normal operation of bath water heater)
In this bath water heater 1, normal hot water supply is performed as follows.
When the hot water tap of the external pipe connected to the hot water outlet is opened and water is passed through the appliance, and the water flow is detected by the hot water supply water amount sensor 25, the controller 50 rotates the combustion fan 5 for a predetermined time to burn. The combustion exhaust stored in the chamber 2 is discharged (prepurge). After that, the original gas solenoid valve 15 and each gas solenoid valve 14 of the gas pipe 12 are opened, the gas proportional valve 16 is opened at a predetermined opening degree, gas is supplied to each burner unit 3, and the igniter is operated. Then, the spark plug 8 ignites the burners 4, 4, ....
As a result, in the hot water supply heat exchanger 6, the water flowing through the hot water supply heat transfer tube 18 is heat-exchanged with the combustion exhaust of the burner 4, and the heated hot water is discharged from the hot water supply plug through the hot water outlet pipe 20 and the external pipe.

The controller 50 monitors the outlet temperature by the hot water supply heat exchanger thermistor 26 of the hot water supply pipe 20, drives the stepping motor of the distribution valve 23, and the outlet temperature prevents the generation of drainage and overheating in the hot water supply heat exchanger 6. The flow rate (bypass rate) to the bypass pipe 22 is controlled so as to be maintained within a possible temperature range.
Further, the hot water supply temperature is monitored by the hot water supply hot water thermistor 27, and the opening / closing control of each gas electromagnetic valve 14 and the opening of the gas proportional valve 16 are performed so that the hot water discharge temperature becomes the set temperature specified by the hot water supply remote controller 51 or the bath remote controller 52. While adjusting the temperature, the amount of air is continuously changed by controlling the rotation speed of the combustion fan 5.
When the hot water tap is closed, the controller 50 confirms that the signal from the hot water supply sensor 25 is stopped, closes the original gas solenoid valve 15 and the gas solenoid valve 14, extinguishes the burner 4, and rotates the combustion fan 5 for a predetermined time (post). purge).

On the other hand, when the automatic switch of the hot water supply remote controller 51 or the bath remote controller 52 is pressed, the controller 50 opens the drop water solenoid valve 43 of the drop pipe 41 to allow water to pass through the hot water supply heat exchanger 6 to burn the burner 4. The hot water from the hot water outlet pipe 20 is supplied to the bathtub 31 through the drop pipe 41 and the bath return pipe 33. When the amount of water detected by the bath water amount sensor 42 provided in the drop pipe 41 reaches the set amount of water, the drop water solenoid valve 43 is closed to stop the water flow and extinguish the burner 4.
Next, the pump 35 is operated to circulate hot water between the bath heat exchanger 7 and the bathtub 31. At this time, when the temperature of the hot water circulated by the bath return thermistor 36 and the bath going thermistor 39 is monitored and a decrease from the set temperature is confirmed, the burners 4, 4, ... Are ignited and burned as in the case of hot water supply. Combustion air is supplied by the fan 5. Therefore, the bath circulating water circulating between the bath heat exchanger 7 and the bathtub 31 is heat-exchanged with the combustion exhaust of the burner 4 when flowing through the bath heat transfer tube 30, and is heated to a set temperature. When the set temperature is reached, the combustion of the burner 4 is stopped and the pump 35 is stopped.

(Appearance of bath water heater)
2A and 2B are explanatory views showing the appearance of the bath water heater 1, in which FIG. 2A shows a front surface, FIG. 2B shows a flat surface, and FIG. 2C shows a side surface. The bath water heater 1 closes a vertically long box-shaped housing 60 that is surrounded by a top plate 61 and a bottom plate 62, left and right side plates 63A and 63B, and a back plate 54 and opens the front surface, and the front surface of the housing 60. It has a front cover 65, and a horizontally long tubular exhaust port 66 provided in front of the exhaust hood 10 is projected from the upper portion of the front cover 65. Intake ports 67, 67 ... Are provided at the lower portion and the side portion of the front cover 65.

Further, FIG. 3 is a bottom view of the bath water heater 1. In the bottom plate 62, a water inlet 68 for connecting a water supply pipe 19 to an external water pipe is provided on the left rear side of the bottom plate 62, and hot water is discharged in front of the water inlet 68. A hot water outlet 69 for connecting the pipe 20 to an external hot water tap is provided. Further, a bath return port 70 for connecting the bath return pipe 33 to the bathtub 31 is provided on the front right side, and a bath exit 71 for connecting the bath return pipe 34 to the bathtub 31 is provided on the rear center. Has been done. A gas inlet 72 for connecting the gas pipe 12 to an external gas pipe is provided in the central portion, and a power line lead-in port 73 is provided in front of the gas inlet 72. An overflow port 74 to which the drain pipe 86 of the edge cutting valve unit 80, which will be described later, is connected is provided slightly in front of the hot water outlet 69 and the intake port 73.

(Inside the housing of the bath water heater)
FIG. 4 is a front view of the inside of the housing 60 from which the front cover 65 has been removed, FIG. 5 is a front view of the inside of the housing 60 without the controller 50 and wiring connected to the controller 50, and FIG. A perspective view and FIG. 7 are perspective views from the rear.
The combustion chamber 2 is arranged on the upper side in the housing 60, and is composed of a lower casing 75 accommodating the burner unit 3 and an upper casing 76 accommodating the hot water supply heat exchanger 6 and the bath heat exchanger 7. The exhaust hood 10 is assembled on the upper side of the upper casing 76. The combustion fan 5 is provided on the rear side of the lower part of the combustion chamber 2, and at the opening of the housing 60 at the lower part of the combustion chamber 2, a controller 50 in which the electrical board is housed in a square box body in front view is provided. It is installed sideways.
The water supply pipe 19 connected to the water inlet 68 is arranged upward through between the combustion chamber 2 and the side plate 63A on the left side of the housing 60, and passes from the left side of the upper casing 76 to the right side through the rear side. It wraps around and moves forward between the upper casing 76 and the right side plate 63B, and is connected to the hot water supply heat transfer tube 18 of the hot water supply heat exchanger 6 at the lower front side on the right side of the upper casing 76.

The hot water supply side heat transfer tube 18 is arranged from the front side on the right side surface of the upper casing 76 to which the water supply pipe 19 is connected to the rear side while passing through the fins 17, 17 ... In a meandering manner in the upper casing 76. It moves to the upper side at the rear part of the upper casing 76, and is arranged to the front side while penetrating the fins 17, 17 ... ..
The hot water outlet pipe 20 is routed diagonally downward from the front upper part of the right side surface of the upper casing 76 to the front of the upper casing 76, and then crosses the front of the upper casing 76 diagonally downward. It is bent downward so as to be between the left side plate 63A and the left side plate 63A, and is connected to the hot water outlet 69 via the water amount control valve 28. The bypass pipe 22 is also arranged in the vertical direction between the combustion chamber 2 and the side plate 63A.

On the other hand, the bath heat transfer tube 30 is arranged in the front-rear direction while penetrating the fins 17, 17, ... The rear end is connected to the bath return pipe 33 at the central portion on the front side of the left side surface of the casing 76, and the rear end is connected to the bath exit pipe 34 at the central portion on the rear side on the right side surface of the upper casing 76.
The bath return pipe 33 is routed to the front of the upper casing 76, crosses the front of the upper casing 76 diagonally downward behind the hot water pipe 20, crosses the hot water pipe 20 in a front view, and then is on the right side of the upper casing 76. Is bent backward between the combustion chamber 2 and the right side plate 63B, and is connected to the bath return port 70 via the bath water flow switch 37 and the pump 35.
The bath going pipe 34 wraps around from the rear of the upper casing 76 to the left side, and then bends downward behind the water supply pipe 19 so as to be between the combustion chamber 2 and the left side plate 63A in front view. After bending diagonally toward the center behind the combustion fan 5, it is connected to the bath outlet 71.

In this way, the water supply pipe 19, the hot water outlet pipe 20, the bath return pipe 33, the bath going pipe 34, and the like are arranged on the side or the rear of the lower casing 75 and the controller 50 in front view, and are arranged on the front side thereof. Since it is not located, if the front cover 65 is removed, the burner unit 3 and the controller 50 in the lower casing 75 can be maintained as they are, and the controller 50 and the like can be attached and detached without the pipes getting in the way. In particular, in the one-can, two-water type combustion chamber 2, the hot water outlet pipe 20 and the bath return pipe 33 are the drawer side from the combustion chamber 2 and the normal connection side to the bottom plate 62 for the convenience of routing in a narrow space. Is reversed on the left and right, but since they are arranged on the opposite side of the lower casing 75 so as to cross each other, the space on the lower side can be secured even if the drawer side and the connection side to the bottom plate 62 are reversed on the left and right. ..

(Rim cut valve unit)
The drop pipe 41 is arranged upward from the water volume control valve 28 and is connected to the bath return pipe 33 on the right side via the edge cutting valve unit 80 arranged in the vertical direction on the lower left side of the combustion chamber 2. ..
As shown in FIG. 8, the check valve unit 80 is provided with a drop path 82 in the unit case 81 that communicates with the drop pipe 41 and forms a part thereof in the vertical direction, and the drop path 82 is vertically 2 in the drop path 82. Two check valves 44, 44 are arranged in series. Further, in the drop path 82, a branch path 83 is formed to branch backward between the check valves 44 and 44, and the downstream side of the branch path 83 is a drainage channel 84 on the front side and an introduction path 85 on the rear side. It is branched into. A drainage pipe 86 connected to the overflow port 74 is connected to the drainage channel 84, and an introduction pipe 87 connected to the water supply pipe 19 is connected to the introduction path 85.

The edge cutting valve 45 is provided on the upstream side of the drainage channel 84 in the branch path 83. The edge cutting valve 45 is provided integrally with the diaphragm 88 that separates the drainage channel 84 and the introduction channel 85, and the diaphragm 88 on the upstream side (front side in FIG. 8) of the diaphragm 88, and is provided on the upstream side of the drainage channel 84. A valve body 90 provided with a seat portion 91 that can be seated on the valve seat 89 provided in the branch path 83 is provided. The seat portion 91 is an elastic ring such as an O-ring, and the valve body 90 is fitted to the outer holding member 92 that holds the seat portion 91 on the front surface and the rear end thereof is bonded to the diaphragm 88, and the front surface of the outer holding member 92. It is provided with a disk-shaped inner holding member 93 that presses and fixes the seat portion 91 from the inside.
Of these, as shown in FIG. 9, the outer holding member 92 has a circular shape when viewed from the front, and a ring-shaped concave groove 94 for holding the seat portion 91 is formed on the front surface, and the center of the front surface is formed. A protrusion 95 into which the inner holding member 93 is fitted is provided so as to project. Further, on the outer periphery of the front end, square notches 96, 96 ... That partially communicate the concave groove 94 with the outside are formed at equal intervals in the circumferential direction.

In the bath water heater 1 configured as described above, in the edge cutting valve unit 80, the water pressure on the hot water supply circuit A side that is normally applied from the introduction pipe 87 to the introduction path 85 is applied to the branch path 83 from the drop path 82. Since the water pressure is higher than the water pressure on the 31 side, the partition wall 88 receives the water pressure on the introduction path 85 side to move the valve body 90 forward, the seat portion 91 is seated on the valve seat 89 and elastically deformed, and the branch path 83 is closed. The valve is closed.
Then, when a backflow from the check valve 44 on the downstream side occurs and the water pressure applied to the branch path 83 from the drop path 82 becomes higher than the water pressure on the introduction path 85 side, the partition wall 88 receives the water pressure on the bathtub 31 side and the valve body 90. Is moved rearward, and the seat portion 91 is separated from the valve seat 89 in the valve open state. Therefore, the backflowing hot water flows from the branch path 83 into the drainage channel 84, and is discharged from the drainage channel 84 through the drainage pipe 86 from the overflow port 74.
If the separation distance (opening) between the valve seat 89 and the seat portion 91 is small at the time of opening the valve, hot water tends to stay between the valve seat 89 and the front end of the seat portion 91 and the outer holding member 92 due to tension. However, since the notches 96, 96 ... Are formed on the outer periphery of the front end of the outer holding member 92, the tension is broken and the hot water does not stay. Therefore, the hot water flowing back into the branch path 83 is surely discharged to the drainage channel 84, and there is no possibility of freezing in winter.

(Effect of the invention relating to the edge cutting valve)
As described above, according to the edge cutting valve 45 and the bath water heater 1 of the above-described embodiment, the valve seat 89 is located outside the seating portion (seat portion 91) of the edge cutting valve 45 with the valve seat 89 at the valve opening position. By forming the notch 96 for preventing the retention of hot water between them, it is possible to prevent residual water at the opening / closing portion of the edge cutting valve 45 and improve the drainage performance.
In particular, since a plurality of notches 96 are provided at equal intervals in the circumferential direction here, the tension of hot water at the opening / closing portion can be reliably destroyed, and further improvement in drainage performance can be expected.

The number and shape of the notches are not limited to the above-mentioned form, and the number may be one or five or more. Further, the shape of the notch may be another shape such as a V-shape or a semicircular shape, or may be formed long in the circumferential direction.
Further, the configuration of the edge cutting valve itself is not limited to the above-mentioned form, and the shapes of the outer holding member and the inner holding member can be appropriately changed, and the half split is divided into two in the axial direction instead of the outer and inner sides. A valve body may be formed from a member. Further, the valve body can be formed not only from two members but also from three or more members.

On the other hand, in the above embodiment, the one-can two-water channel type bath water heater is described, but the invention relating to the edge-cutting valve is not limited to the one-can two-water channel type, and the hot water supply combustion chamber having a hot water supply heat exchanger and the bath. A bath water heater may be provided in which a bath combustion chamber having a heat exchanger is provided separately and the bath circuit is formed separately from the hot water supply circuit.
Further, in the invention relating to the edge cutting valve, the bath return pipe and the bath going pipe connecting between the bath heat exchanger and the bathtub are not indispensable, and the bath water supply is provided only with a drop pipe for connecting the hot water outlet pipe of the hot water supply circuit to the bathtub. It can be applied even if it is a vessel. Bypass pipes are not essential either.

(Effect of the invention relating to the intersection of pipes)
According to the bath water heater 1 of the above-described embodiment, the pipes (the hot water outlet pipe 20 and the bath return pipe 33) in which the side drawn out from the combustion chamber 2 and the connection side with the external pipe in the bottom plate 62 are reversed left and right are the combustion chambers. After being drawn out from 2, the burner unit 3 is accommodated in the combustion chamber 2 by being routed to the connection side with the external pipe so as to intersect each other in front of the hot water supply heat exchanger 6 and the bath heat exchanger 7. It can be arranged so that the pipe does not pass in front of the lower casing 75 or below the combustion chamber 2. Therefore, maintenance of the burner unit 3 and the controller 50 can be performed without the piping getting in the way, and workability related to maintenance can be improved even in the case of a one-can two-water channel type.
In particular, here, since the two pipes in which the drawing side from the combustion chamber 2 and the connecting side to the external pipe are reversed left and right are the hot water outlet pipe 20 and the bath return pipe 33, the connecting side in the bottom plate 62 is left and right. Both separate pipes can be arranged in the housing 2 in a space-saving manner without getting in the way.

In the above embodiment, the hot water outlet pipe is crossed in front and the bath return pipe is crossed in the back, but it may be crossed upside down.
Further, the pipes to be crossed are not limited to the hot water outlet pipe and the bath return pipe, and are not limited to the above-mentioned form, such as crossing the water supply pipe and the bath return pipe depending on the drawing side from the combustion chamber.
Further, the number of pipes to be crossed is not limited to two, and it is possible to cross three or more pipes.

In addition, in the above embodiment, one heat exchanger is used for hot water supply and the other heat exchanger is used for reheating the bathtub, but the invention relating to the crossing of pipes is not limited to this, and for example, the other heat exchanger is used. It can be applied even if it is connected to a floor heater or the like for heating. That is, the use of one can and two water channels is not limited to the above-mentioned type of water heater.

1 ... bath water heater, 2 ... combustion chamber, 3 ... burner unit, 4 ... burner, 5 ... combustion fan, 6 ... hot water supply heat exchanger, 7 ... bath heat exchanger, 12 ... gas Pipe, 17 ... Fin, 18 ... Hot water supply heat transfer pipe, 19 ... Water supply pipe, 20 ... Hot water supply pipe, 22 ... Bypass pipe, 25 ... Hot water supply water volume sensor, 28 ... Water volume control valve, 30 ... Bath Heat transfer pipe, 31 ... Bath, 33 ... Bath return pipe, 34 ... Bath going pipe, 35 ... Pump, 41 ... Drop pipe, 44 ... Check valve, 45 ... Edge cut valve, 50 ... Controller, 60 ... chassis, 62 ... bottom plate, 65 ... front cover, 68 ... water inlet, 69 ... hot water outlet, 70 ... bath return port, 71 ... bath exit port, 74 ... overflow port , 75 ... Lower casing, 76 ... Upper casing, 80 ... Edge cut valve unit, 81 ... Unit case, 82 ... Drop route, 83 ... Branch route, 84 ... Drainage channel, 85 ... Introduction route , 86 ... drain pipe, 87 ... introduction pipe, 88 ... diaphragm, 89 ... valve seat, 90 ... valve body, 91 ... seat part, 92 ... outer holding member, 93 ... inner holding member, 94 ... concave groove, 96 ... notch.

Claims (3)

A hot water supply circuit having a burner and a heat exchanger, and two reverses that are connected to an external tub from the hot water supply circuit to supply hot water from the hot water supply circuit to the tub and prevent backflow of hot water from the tub side. In a bath water heater including a drop pipe provided with a stop valve, the water pressure on the hot water supply circuit side is provided in a branch path formed between the two check valves in the drop pipe, and the water pressure on the hot water supply circuit side is the bath water heater. When the water pressure on the side is higher than the water pressure on the side, the water pressure on the hot water supply circuit side is higher than the water pressure on the bath side. When it is low, it is a marginal valve that operates at a valve opening position that opens the branch path away from the valve seat.
It comprises an elastic ring that comes into contact with and detaches from the valve seat, and a circular holding member having a ring-shaped concave groove that holds the elastic ring.
A marginal valve characterized in that the holding member is formed on the radial outer side of the elastic ring at least one notch to prevent retention of hot water from the valve seat at the valve opening position. .. The edge cutting valve according to claim 1, wherein a plurality of notches are provided at equal intervals in the circumferential direction. A hot water supply circuit having a burner and a heat exchanger, and two reverses that are connected to an external bathtub from the hot water supply circuit and can supply hot water from the hot water supply circuit to the bathtub and prevent backflow of hot water from the bathtub side. A bath water heater that includes a drop pipe with a valve stop.
The bath water heater according to claim 1 or 2, wherein the edge cutting valve according to claim 1 or 2 is provided in a branch path formed between the two check valves in the drop pipe.

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