CN106524290A - Double-pipe wall-hung stove water circuit system and operating control method thereof - Google Patents

Abstract

The invention relates to a double-pipe wall-hung stove water circuit system and an operating control method thereof. The double-pipe wall-hung stove water circuit system comprises a water outlet valve, a double-pipe heat exchanger, a heating water return pipe, a heating water outlet pipe, a bathing water inlet pipe, a bathing water outlet pipe, a bypass pipe and a water pump, wherein the water outlet valve comprises a valve body and a valve element, and the valve element is arranged in the valve body; and a water inlet, a first water outlet and a second water outlet are formed in the valve body, the first water outlet communicates with the heating water return pipe through the bypass pipe, the water inlet communicates with the heating water outlet pipe, and the valve element is used for controlling the first water outlet, the second water outlet and the water inlet to communicate or not communicate. According to the water circuit system and the operating control method thereof, the temperature of bathing water is stable and comfortable in the bathing mode, and the service life of the double-pipe heat exchanger is long.

Description

Telescopic wall-mounted stove water circuit system and its progress control method

Technical field

The present invention relates to gas-heating water heater technical field, more particularly to a kind of telescopic wall-mounted stove water circuit system and Its progress control method.

Background technology

Traditional bushing type wall-mounted gas heating stove, after bathroom function is stopped using, the bathroom pipeline in heat exchanger is residual The high-temperature water for staying fails cooling in time, enables bathroom function in the short time again, and flame is directly high to the residual in bathroom pipeline Warm water is heated, and causes bath water temperature too high, causes human skin sense of touch uncomfortable.Additionally, the heating in double pipe heat exchanger The easy fouling of tube wall of pipeline, causes the quality problems such as heating pipe blocking or heating pipe cracking to occur, shortens bushing type The service life of heat exchanger.

The content of the invention

Based on this, it is necessary to for the problem that prior art is present, there is provided a kind of double pipe heat exchanger high life Telescopic wall-mounted stove water circuit system and its progress control method, the water circuit system and its progress control method are realized in bathroom mould Under formula, bath water temperature stabilization is comfortable.

A kind of telescopic wall-mounted stove water circuit system, it is characterised in that including outlet valve, double pipe heat exchanger, heating backwater Pipe, heating outlet pipe, bathroom water inlet pipe, sanitary outfall pipe, bypass pipe and water pump, the heating outlet pipe are changed with described sleeve pipe formula The heating outlet connection of hot device, the bathroom water inlet pipe is connected with the bathroom water inlet of described sleeve pipe formula heat exchanger, described to defend Bath outlet pipe is connected with the sanitary outfall mouth of described sleeve pipe formula heat exchanger；

The outlet of the water pump is connected with the heating water return outlet by water pipe, and the water inlet of the water pump is adopted with described Warm return pipe connection；

The outlet valve includes valve body and valve element, and the valve element is installed in the valve body, and the valve body is offered into water Mouth, the first outlet and the second outlet, first outlet are connected with the heating return pipe by the bypass pipe, institute State water inlet to connect with the heating outlet pipe, the valve element control respectively first outlet, second outlet with The water inlet connection disconnects.

Above-mentioned telescopic wall-mounted stove water circuit system, bath water are heated from bathroom water inlet sleeve pipe formula heat exchanger, and Go out from sanitary outfall pipe flow.Heating water is heated from heating water return outlet sleeve pipe formula heat exchanger, and is flowed out from heating outlet. Under bathroom pattern, valve element control water inlet is connected with the first outlet and water inlet and the second outlet disconnect, and bushing type is changed Heating water in hot device is flowed out from heating outlet, Jing heating outlet pipes, water inlet, the first outlet, heating return pipe, water Pump and heating water return outlet, flow back to double pipe heat exchanger.Thus, heating water realizes partial circulating, and in the double pipe heat exchanger with Bath water exchanges heat.When bath water temperature is too high, heating water energy enough absorbs the heat of bath water；When bath water temperature When spending low, heating water energy enough provides heat for bath water.As heating water circulation flows, and change with bath water Heat so that bath water temperature stabilization is comfortable.Additionally, the heating water under bathroom pattern, in traditional double pipe heat exchanger Do not flow, heating water continuous heating simultaneously keeps high temperature, the easy fouling of pipeline, cause heating pipe blocking or heating pipe cracking Occur etc. quality problems, shorten the service life of double pipe heat exchanger.Heating water circulation in described sleeve pipe formula heat exchanger Flowing, so as to will not continuous high temperature, reduce the generation of the quality problems such as heating pipe fouling, blocking or cracking, improve bushing type The service life of heat exchanger.

Wherein in one embodiment, also including bypass arm, the outlet valve is further opened with connecting with the water inlet The 3rd outlet, the 3rd outlet by it is described bypass arm be connected with the heating return pipe, the bypass arm Bypass valve is provided with inside, the bypass valve is connected or disconnected with the heating return pipe for controlling the 3rd outlet. Under heating pattern, when there is blocking in floor heating part, such as fin or the blocking of floor heating piece, heating backwater exception, heating backwater Pipe hydraulic pressure declines.Now there is pressure reduction with the hydraulic pressure of water inlet in the hydraulic pressure of heating return pipe.When the hydraulic pressure of the 3rd outlet with adopt The pressure difference of the hydraulic pressure of warm return pipe more than or equal to bypass valve starting differential pressure value when, bypass valve conducting, the 3rd outlet with Heating return pipe is connected.Thus, heating water is flowed out from double pipe heat exchanger, Jing water inlets, the 3rd outlet, bypass valve, Bypass arm and heating return pipe are back in double pipe heat exchanger, it is ensured that heating water circulation flows, it is to avoid bushing type occur Heat exchanger is by flame dry combustion method phenomenon.

Wherein in one embodiment, the valve element is provided with blockage, and the blockage is slideably positioned in the valve body, When the blockage slides into first position, the water inlet connect with second outlet and the blockage by it is described enter The mouth of a river is disconnected with first outlet；When the blockage slides into the second position, the water inlet and first water outlet Mouth is connected and the water inlet is disconnected by the blockage with second outlet.

Wherein in one embodiment, the outlet valve also includes drive mechanism, and the drive mechanism is described for driving Blockage is slided between the first position and the second position.

Wherein in one embodiment, the drive mechanism includes motor, and the valve element is provided with and is connected with the blockage Valve rod, valve stem slides described in the Motor drive.

Wherein in one embodiment, also including filling pipe, described filling pipe one end connects the bathroom water inlet pipe, described The filling pipe other end connects the heating return pipe, and the filling pipe is provided with water compensating valve, and the water compensating valve controls the moisturizing The break-make of pipe.

Wherein in one embodiment, also including relief valve, one end of the relief valve is connected with the heating return pipe, The other end of the relief valve is for outside drain water.

Wherein in one embodiment, also including expansion tank, the expansion tank is arranged on the heating return pipe.

A kind of progress control method of described sleeve pipe formula wall-hung boiler water circuit system, comprises the following steps：

When being switched to bathroom pattern, the valve element is controlled first outlet and is connected with the water inlet and described second Outlet is disconnected with the water inlet；

When being switched to heating pattern, the valve element is controlled first outlet and is disconnected with the water inlet and described second Outlet is connected with the water inlet.

The progress control method of described sleeve pipe formula wall-hung boiler water circuit system, under bathroom pattern, valve element control water inlet with First outlet is connected and water inlet and the second outlet disconnect, and the heating water in double pipe heat exchanger is from heating outlet stream Go out, Jing heating outlet pipes, water inlet, the first outlet, heating return pipe, water pump and heating water return outlet flow back to casing type heat exchanging Device.Thus, heating water realizes partial circulating, and exchange heat with bath water in double pipe heat exchanger.When bath water temperature mistake Gao Shi, heating water energy enough absorb the heat of bath water；When bath water temperature is too low, heating water energy is enough used for bathroom Water extraction heating load.As heating water circulation flows, and exchange heat with bath water so that bath water temperature stabilization is comfortable.This Outward, under bathroom pattern, the heating water in traditional double pipe heat exchanger does not flow, and heating water continuous heating simultaneously keeps high Temperature, the easy fouling of pipeline cause the quality problems such as heating pipe blocking or heating pipe cracking to occur, shorten casing type heat exchanging The service life of device.Heating in described sleeve pipe formula heat exchanger with water circulation flow, so as to will not continuous high temperature, reduce heating pipe The generation of the quality problems such as road fouling, blocking or cracking, improves the service life of double pipe heat exchanger.

It is wherein in one embodiment, described when being switched to heating pattern, the valve element control first outlet with It is after the water inlet disconnects and second outlet connects step with the water inlet, further comprising the steps of：

When the hydraulic pressure of the 3rd outlet with the pressure difference of the hydraulic pressure of the heating return pipe more than or equal to the bypass valve During starting differential pressure value, the bypass valve conducting, so that the 3rd outlet is connected with the heating return pipe；

When the hydraulic pressure of the 3rd outlet is less than the unlatching of the bypass valve with the pressure difference of the hydraulic pressure of the heating return pipe During pressure difference, the bypass valve cuts out, so that the 3rd outlet is disconnected with the heating return pipe.

Description of the drawings

Fig. 1 is the structural representation of described sleeve pipe formula wall-hung boiler water circuit system under bathroom pattern；

Fig. 2 is the structural representation of outlet valve of the present invention；

Fig. 3 is the sectional view of line C-C in Fig. 2；

Fig. 4 is the structural representation of described sleeve pipe formula wall-hung boiler water circuit system under heating pattern；

Fig. 5 is the structural representation of described sleeve pipe formula wall-hung boiler water circuit system under heating backwater abnormal conditions.

100th, outlet valve, 101, valve element, 102, valve body, 103, water inlet, the 104, first outlet, the 105, second water outlet Mouthful, the 1061, first obstruction projection, the 1062, second obstruction projection, 107, drive mechanism, 108, first step, 109, second Rank, 110, first position, 111, valve rod, the 112, the 3rd outlet, 113, the second position, 200, double pipe heat exchanger, 201, adopt Warm outlet, 202, heating water return outlet, 203, bathroom water inlet, 204, sanitary outfall mouth, 301, heating return pipe, 302, bypass Pipe, 303, bypass arm, 304, bathroom water inlet pipe, 305, sanitary outfall pipe, 306, water compensating valve, 307, water pump, 308, swelling water Case, 309, filling pipe, 310, flame, 311, relief valve, 312, bypass valve, 313, heating outlet pipe.

Specific embodiment

As shown in figure 1, a kind of telescopic wall-mounted stove water circuit system, including outlet valve 100, double pipe heat exchanger 200, heating Return pipe 301, heating outlet pipe 313, bathroom water inlet pipe 304, sanitary outfall pipe 305, bypass pipe 302 and water pump 307.Heating goes out Water pipe 313 is connected with the heating outlet 201 of double pipe heat exchanger 200.Bathroom water inlet pipe 304 and double pipe heat exchanger 200 Bathroom water inlet 203 is connected.Sanitary outfall pipe 305 is connected with the sanitary outfall mouth 204 of double pipe heat exchanger 200.Water pump 307 Outlet is connected with heating water return outlet 202 by water pipe, and the water inlet of water pump 307 is connected with heating return pipe 301.

As shown in Figures 2 and 3, outlet valve 100 includes valve body 102 and valve element 101.Valve element 101 is installed in valve body 102. Valve body 102 offers water inlet 103, the first outlet 104 and the second outlet 105.First outlet 104 passes through bypass pipe 302 are connected with heating return pipe 301.302 one end of bypass pipe is connected with heating return pipe 301,302 other end of bypass pipe and first Outlet 104 is connected.Water inlet 103 is connected with heating outlet pipe 313.Valve element 101 controls the first outlet 104, second respectively Outlet 105 is connected or is disconnected with water inlet 103.

Bath water is heated from 304 sleeve pipe formula heat exchanger 200 of bathroom water inlet pipe, and is flowed out from sanitary outfall pipe 305. Heating water is heated from 202 sleeve pipe formula heat exchanger 200 of heating water return outlet, and is flowed out from heating outlet 201.In bathroom mould Under formula, the control water inlet 103 of valve element 101 is connected with the first outlet 104 and water inlet 103 is disconnected with the second outlet 105, set Heating water in pipe heat exchanger 200 is flowed out from heating outlet 201, and Jing heating outlet pipe 313, water inlet 103, first go out The mouth of a river 104, bypass pipe 302, heating return pipe 301, water pump 307 and heating water return outlet 202, flow back to double pipe heat exchanger 200.Such as This, heating water realizes partial circulating, and exchanges heat with bath water in double pipe heat exchanger 200.When bath water temperature it is too high When, heating water energy enough absorbs the heat of bath water；When bath water temperature is too low, heating water energy is enough bath water Heat is provided.As heating water circulation flows, and exchange heat with bath water so that bath water temperature stabilization is comfortable.

Additionally, under bathroom pattern, the heating water in conventional sleeve pipe heat exchanger does not flow, heating water continuous heating And keep high temperature, the easy fouling of pipeline to cause the quality problems such as heating pipe blocking or heating pipe cracking to occur, shorten set The service life of pipe heat exchanger.Heating in described sleeve pipe formula heat exchanger 200 water circulation flows, so as to continue height Temperature, reduces the generation of the quality problems such as heating pipe fouling, blocking or cracking, improves the service life of double pipe heat exchanger 200.

As shown in figure 4, under heating pattern, heating water Jing double pipe heat exchangers 200 are heated, from heating outlet 201 Outflow, Jing heating outlet pipe 313, water inlet 103 and the second outlet 105, flow into floor heating part, so as to improve indoor temperature, full Sufficient people's heating demand.It is appreciated that floor heating part includes floor heating pipe, fin and floor heating piece.

As shown in figure 5, described sleeve pipe formula wall-hung boiler water circuit system also includes bypass arm 303.Outlet valve 100 is further opened with The 3rd outlet 112 connected with water inlet 103.3rd outlet 112 is connected with heating return pipe 301 by bypassing arm 303 Connect.Bypass valve 312 is provided with bypass arm 303.Bypass valve 312 is used for the 3rd outlet 112 of control and heating return pipe 301 Connection disconnects.Specifically, bypass 303 one end of arm to be connected with bypass pipe 302, so as to realize connecting with heating return pipe 301 Logical, bypass 303 other end of arm is connected with the 3rd outlet 112.

As shown in figure 5, under heating pattern, when there is blocking in floor heating part, such as fin or the blocking of floor heating piece, heating Backwater exception, 301 hydraulic pressure of heating return pipe decline.Now there is pressure with the hydraulic pressure of water inlet 103 in the hydraulic pressure of heating return pipe 301 Difference.When the hydraulic pressure of the 3rd outlet 112 is more than or equal to opening for bypass valve 312 with the pressure difference of the hydraulic pressure of heating return pipe 301 When opening pressure difference, bypass valve 312 is turned on, and the 3rd outlet 112 is connected with heating return pipe 301.Thus, heating water is from sleeve pipe Flow out in formula heat exchanger 200, Jing water inlets 103, the 3rd outlet 112, bypass valve 312, bypass arm 303 and heating return pipe 301 are back in double pipe heat exchanger 200, it is ensured that heating water circulation flows, it is to avoid double pipe heat exchanger 200 occur by flame 310 dry combustion method phenomenons.It is appreciated that starting differential pressure value is scalable.

Valve element 101 control the first outlet 104, the second outlet 105 connect with water inlet 103 or the mode that disconnects very It is many.

Such as, as shown in figure 3, valve element 101 is provided with blockage.Blockage is slideably positioned in valve body 102.Blockage is slided During to first position 110, water inlet 103 is connected with the second outlet 105 and blockage is by water inlet 103 and the first outlet 104 disconnect；When blockage slides into the second position 113, water inlet 103 is connected with the first outlet 104 and blockage will be intake Mouth 103 is disconnected with the second outlet 104.

Specifically, as shown in Figures 2 and 3, first step 108 and second step 109 are provided with outlet valve 100.First Rank 108 is arranged between the first outlet 104 and water inlet 103, and second step 109 is arranged at the second outlet 105 and water inlet Between mouth 103.Blockage is included the be engaged with first step 108 first obstruction projection 1061 and is matched with second step 109 The the second obstruction projection 1062 for closing.When blockage slides into first position 110, the first obstruction projection 1061 slides and contradicts First Rank 108, and the first obstruction projection 1061 is engaged to form primary sealing area with first step 108 so that the first outlet 104 and Water inlet 103 disconnects.Now, the second outlet 105 is communicated with water inlet 103, and heating water flows into ground from the second outlet 105 Warm part.When blockage slides into the second position 113, the second obstruction projection 1062 slides and contradicts second step 109, and the second obstruction Projection 1062 is engaged to form secondary sealing area with second step 109, so that the second outlet 105 is disconnected with water inlet 103.This When, the first outlet 104 is communicated with water inlet 103, the heating warm return pipe 301 of current back production.First obstruction projection 1061 Between first step 108 and the first outlet 104.Second obstruction projection 1062 is located at second step 109 and the second outlet Between 105.First obstruction projection 1061 and the second obstruction projection 1062 will not block water inlet 103 in sliding process, will not Heating water is affected to flow in valve body 102 from water inlet 103.

For another example, blockage can be rotating disk.Rotating disk is rotatablely arranged in inner chamber.Rotating disk is provided with through hole.Work as rotating disk When turning to first position, through hole is corresponding with the first outlet, then the first outlet is communicated with inner chamber, and heating is warm with current back production Return pipe.When rotating disk turns to the second position, through hole is corresponding with the second outlet, then the second outlet is communicated with inner chamber, is adopted Warm water flows into floor heating part from the second outlet.

As shown in figure 3, outlet valve 100 also includes drive mechanism 107.Drive mechanism 107 is used for driving blockage first Slide between position 110 and the second position 113, connected with water inlet 103 with controlling the first outlet 104, the second outlet 105 Or disconnect.

As shown in figure 3, drive mechanism 107 includes motor.Valve element 101 is provided with the valve rod 111 being connected with blockage.Motor drives Ovable valve stem 111 slides.Motor drives blockage sliding between first position 110 and the second position 113 by driving valve rod 111 It is dynamic, so as to realize that controlling the first outlet 104, the second outlet 105 connects or disconnect with water inlet 103.Using Motor drive Valve rod 111, described sleeve pipe formula wall-hung boiler water circuit system realize that electrical control valve rod 111 slides.In switching heating pattern or bathroom During pattern, motor can quick response switching command, so as to fast driving valve rod 111 slides into specified location, realize heating mould Formula or bathroom pattern switch immediately.

As described in Fig. 1, Fig. 4 and Fig. 5, described sleeve pipe formula wall-hung boiler water circuit system also includes filling pipe 309.Filling pipe 309 One end connects bathroom water inlet pipe 304,309 other end of filling pipe connection heating return pipe 301.Filling pipe 309 is provided with water compensating valve 306.Water compensating valve 306 controls the break-make of filling pipe 309.Water compensating valve 306 plays pressurization.Water compensating valve 306 is adjusted and is tieed up automatically Hold the heating water hydraulic pressure after adjusting.When heating is reduced with water hydraulic pressure, water compensating valve 306 automatically opens up water filling, reaches setting pressure It is automatically switched off during power, it is to avoid the too high damage system equipment of hydraulic pressure.Water compensating valve 306 carries check-valves, is prevented from heating water and returns Stream.

As described in Fig. 1, Fig. 4 and Fig. 5, described sleeve pipe formula wall-hung boiler water circuit system also includes relief valve 311.Relief valve 311 One end be connected with heating return pipe 301, the other end of relief valve 311 is for outside drain water.When in heating return pipe 301 Hydraulic pressure when increasing to over setting, relief valve 311 is opened, water by relief valve 311 to outside drain, to prevent heating backwater In pipe 301, hydraulic pressure exceedes specified value.When the hydraulic pressure in heating return pipe 301 is equal to or less than setting, relief valve 311 is closed Close.

As described in Fig. 1, Fig. 4 and Fig. 5, described sleeve pipe formula wall-hung boiler water circuit system also includes expansion tank 308.Expansion tank 308 are arranged on heating return pipe 301.Water pump 307 be pipe pressurizing, to improve the flow velocity of water in pipeline, by heating water from Heating return pipe 301 is conveyed in double pipe heat exchanger 200.Expansion tank 308 can house and compensate the breathing of water in pipeline Amount, serves the effect of equilibrium water amount and pressure, it is to avoid relief valve 311 frequently opens draining or water compensating valve 306 is frequently opened and mended Water.

A kind of progress control method of described sleeve pipe formula wall-hung boiler water circuit system, comprises the following steps：

S1：When being switched to bathroom pattern, valve element 101 is controlled the first outlet 104 and is connected with water inlet 103 and the second water outlet Mouth 105 is disconnected with water inlet 103.As shown in figure 1, bath water adds from 304 sleeve pipe formula heat exchanger 200 of bathroom water inlet pipe Heat, and flow out from sanitary outfall pipe 305.Heating water is heated from 202 sleeve pipe formula heat exchanger 200 of heating water return outlet, and from Heating outlet 201 flows out.Under bathroom pattern, the control water inlet 103 of valve element 101 is connected and is intake with the first outlet 104 Mouth 103 is disconnected with the second outlet 105, and the heating water in double pipe heat exchanger 200 is flowed out from heating outlet 201, and Jing is adopted Warm outlet pipe 313, water inlet 103, the first outlet 104, bypass pipe 302, heating return pipe 301, water pump 307 and heating backwater Mouth 202, flows back to double pipe heat exchanger 200.Thus, heating water realizes partial circulating, and in double pipe heat exchanger 200 and bathroom Exchanged heat with water.When bath water temperature is too high, heating water energy enough absorbs the heat of bath water；When bath water temperature mistake When low, heating water energy enough provides heat for bath water.As heating water circulation flows, and exchange heat with bath water, make Obtain bath water temperature stabilization.Additionally, under bathroom pattern, the heating water in conventional sleeve pipe heat exchanger does not flow, heating With water continuous heating and holding high temperature, the easy fouling of pipeline, cause the quality problems such as heating pipe blocking or heating pipe cracking Occur, shorten the service life of double pipe heat exchanger.Heating in described sleeve pipe formula heat exchanger 200 water circulation flows, from Without continuous high temperature, the generation of the quality problems such as heating pipe fouling, blocking or cracking is reduced, improve double pipe heat exchanger 200 service life.

S2：When being switched to heating pattern, first outlet of the control of valve element 101 104 is disconnected and the second water outlet with water inlet 103 Mouth 105 is connected with water inlet 103.As shown in figure 4, under heating pattern, heating water Jing double pipe heat exchangers 200 are heated, from Heating outlet 201 flows out, Jing heating outlet pipe 313, water inlet 103 and the second outlet 105, flows into floor heating part, so as to carry High indoor temperature, meets people's heating demand.It is appreciated that floor heating part includes floor heating pipe, fin and floor heating piece.

The progress control method of described sleeve pipe formula wall-hung boiler water circuit system, it is upon step s 2, further comprising the steps of：

S3：When the hydraulic pressure of the 3rd outlet 112 is more than or equal to bypass valve with the pressure difference of the hydraulic pressure of heating return pipe 301 During 312 starting differential pressure value, bypass valve 312 is turned on, so that the 3rd outlet 112 is connected with heating return pipe 301.Such as Fig. 5 institutes Show, under heating pattern, when there is blocking in floor heating part, such as fin or the blocking of floor heating piece, heating backwater exception, heating are returned 301 hydraulic pressure of water pipe declines.Now there is pressure reduction with the hydraulic pressure of water inlet 103 in the hydraulic pressure of heating return pipe 301.When the 3rd outlet When the pressure difference of 112 hydraulic pressure and the hydraulic pressure of heating return pipe 301 is more than or equal to the starting differential pressure value of bypass valve 312, bypass Valve 312 is turned on, and the 3rd outlet 112 is connected with heating return pipe 301.Thus, heating water is flowed from double pipe heat exchanger 200 Go out, Jing water inlets 103, the 3rd outlet 112, bypass valve 312, bypass arm 303 and heating return pipe 301 are back to bushing type In heat exchanger 200, it is ensured that heating water circulation flows, it is to avoid 200 dry combustion method phenomenon of double pipe heat exchanger occur.It is appreciated that opening Pressure difference is opened for scalable.

S4：When the hydraulic pressure of the 3rd outlet 112 and the pressure difference of the hydraulic pressure of heating return pipe 301 are less than bypass valve 312 During starting differential pressure value, bypass valve 312 cuts out, so that the 3rd outlet 112 disconnects 301 with heating return pipe.

The progress control method of described sleeve pipe formula wall-hung boiler water circuit system, step S1 is specifically, drive mechanism 107 is driven immediately Dynamic blockage slides into first position 110.

The progress control method of described sleeve pipe formula wall-hung boiler water circuit system, step S2 is specifically, drive mechanism 107 is driven immediately Dynamic blockage slides into the second position 113.

Specifically, as shown in Figure 1, Figure 4 and Figure 5, drive mechanism 107 includes motor.Valve element 101 is provided with and is connected with blockage Valve rod 111.Motor drives blockage to slide between first position 110 and the second position 113 by driving valve rod 111, from And realize that the first outlet 104 of control, the second outlet 105 are connected or disconnected with water inlet 103.Using Motor drive valve rod 111, telescopic wall-mounted stove water circuit system realizes that electrical control valve rod 111 slides.When heating pattern or bathroom pattern is switched, electricity Machine can quick response switching command, so as to fast driving valve rod 111 slides into specified location, realize heating pattern or bathroom mould Formula switches immediately.

Each technical characteristic of embodiment described above arbitrarily can be combined, for making description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope of this specification record is all considered to be.

Embodiment described above only expresses the several embodiments of the present invention, and its description is more concrete and detailed, but and Therefore can not be construed as limiting the scope of the patent.It should be pointed out that for one of ordinary skill in the art comes Say, without departing from the inventive concept of the premise, some deformations and improvement can also be made, these belong to the protection of the present invention Scope.Therefore, the protection domain of patent of the present invention should be defined by claims.

Claims (10)

1. a kind of telescopic wall-mounted stove water circuit system, it is characterised in that including outlet valve, double pipe heat exchanger, heating return pipe, Heating outlet pipe, bathroom water inlet pipe, sanitary outfall pipe, bypass pipe and water pump, the heating outlet pipe are exchanged heat with described sleeve pipe formula The heating outlet connection of device, the bathroom water inlet pipe are connected with the bathroom water inlet of described sleeve pipe formula heat exchanger, the bathroom Outlet pipe is connected with the sanitary outfall mouth of described sleeve pipe formula heat exchanger；

The outlet of the water pump is connected with the heating water return outlet by water pipe, and the water inlet of the water pump is returned with the heating Water pipe is connected；

The outlet valve includes valve body and valve element, and the valve element is installed in the valve body, the valve body offer water inlet, One outlet and the second outlet, first outlet are connected with the heating return pipe by the bypass pipe, it is described enter The mouth of a river is connected with the heating outlet pipe, the valve element control respectively first outlet, second outlet with it is described Water inlet is connected or is disconnected.

2. the telescopic wall-mounted stove water circuit system according to claims 1, it is characterised in that also including bypass arm, institute State the 3rd outlet that outlet valve is further opened with connecting with the water inlet, the 3rd outlet by the bypass arm with The heating return pipe connection, is provided with bypass valve in the bypass arm, the bypass valve is used for controlling the 3rd water outlet Mouth is connected or is disconnected with the heating return pipe.

3. the telescopic wall-mounted stove water circuit system according to claims 1, it is characterised in that the valve element is provided with obstruction Portion, the blockage are slideably positioned in the valve body, when the blockage slides into first position, the water inlet with it is described Second outlet is connected and the water inlet is disconnected by the blockage with first outlet；The blockage slides into During two positions, the water inlet is connected with first outlet and the blockage is by the water inlet and second water outlet Mouth disconnects.

4. the telescopic wall-mounted stove water circuit system according to claims 3, it is characterised in that the outlet valve also includes driving Motivation structure, the drive mechanism are used for driving the blockage to slide between the first position and the second position.

5. the telescopic wall-mounted stove water circuit system according to claims 4, it is characterised in that the drive mechanism includes electricity Machine, the valve element are provided with the valve rod being connected with the blockage, valve stem slides described in the Motor drive.

6. the telescopic wall-mounted stove water circuit system according to claims 1, it is characterised in that also including filling pipe, described Filling pipe one end connects the bathroom water inlet pipe, and the filling pipe other end connects the heating return pipe, on the filling pipe Water compensating valve is provided with, the water compensating valve controls the break-make of the filling pipe.

7. the telescopic wall-mounted stove water circuit system according to claims 1, it is characterised in that also including relief valve, described One end of relief valve is connected with the heating return pipe, and the other end of the relief valve is for outside drain water.

8. the telescopic wall-mounted stove water circuit system according to claims 1～7, it is characterised in that also including expansion tank, The expansion tank is arranged on the heating return pipe.

9. the progress control method of the telescopic wall-mounted stove water circuit system described in a kind of claim 1, it is characterised in that include with Lower step：

When being switched to bathroom pattern, the valve element is controlled first outlet and is connected with the water inlet and second water outlet Mouth is disconnected with the water inlet；

When being switched to heating pattern, the valve element is controlled first outlet and is disconnected with the water inlet and second water outlet Mouth is connected with the water inlet.

10. the progress control method of the telescopic wall-mounted stove water circuit system according to claims 8, it is characterised in that institute State when being switched to heating pattern, the valve element is controlled first outlet and disconnected with the water inlet and second outlet It is after step is connected with the water inlet, further comprising the steps of：

When the hydraulic pressure of the 3rd outlet is more than or equal to the unlatching of the bypass valve with the pressure difference of the hydraulic pressure of the heating return pipe During pressure difference, the bypass valve conducting, so that the 3rd outlet is connected with the heating return pipe；

When the hydraulic pressure of the 3rd outlet is less than the starting differential pressure of the bypass valve with the pressure difference of the hydraulic pressure of the heating return pipe During value, the bypass valve cuts out, so that the 3rd outlet is disconnected with the heating return pipe.