CN205037477U - Microcirculation heat transfer device of ceiling system - Google Patents

Abstract

The utility model discloses a microcirculation heat transfer device of ceiling system, it includes first delivery pipe, second delivery pipe, stop valve, filter, single current valve, heat exchanger, ceiling radiant tube, first wet return and second wet return. The utility model discloses a microcirculation attemperator of ceiling system has realized the radiation refrigeration on the one hand for the surperficial radiation temperature of house just with indoor temperature being close very. Like this, the usefulness very electric energy of miniwatt can realize heat transfer and temperature regulation, realizes the heat dissipation cooling through second delivery pipe and second wet return to the nimble temperature regulation of ability, thus make temperature indoor even and soft. The user can open and close the stop valve as required, sets for the temperature threshold value as required, using -way flexible and diverse. Indoor comfort level improves greatly, and the people no longer has heat cold, the lower hot cold sensation that down. Additionally, the utility model discloses a microcirculation attemperator's of ceiling system machine utilization is little, can reduce the energy consumption by a wide margin.

Description

Ceiling system microcirculation heat-exchanger rig

Technical field

The utility model relates to a kind of heat-exchanger rig, particularly a kind of ceiling system microcirculation heat-exchanger rig.

Background technology

Along with modern architecture for environment and life comfort level more and more high requirement, room temperature is controlled in order to an important topic.In prior art, room temperature controls normally to be regulated room temperature by central air-conditioning, not only power consumption, but also contaminated environment.Indoor temperature is uneven, heat or refrigeration undesirable.

Therefore this area is in the urgent need to a kind of ceiling system microcirculation heat-exchanger rig, and it is uneven that it can solve indoor temperature, automatically regulates temperature by radiant heating and refrigeration and heat-exchanger rig, and without the need to the heat-exchanger rig of manual intervention.

Utility model content

Embodiment of the present utility model is intended to overcome above technical problem, can solve indoor temperature uneven, automatically regulates temperature by radiant heating and refrigeration and heat-exchanger rig, and without the need to the heat-exchanger rig of manual intervention.

For solving the problems of the technologies described above, according to first aspect of the present utility model, a kind of ceiling system microcirculation heat-exchanger rig is provided, wherein, ceiling system microcirculation heat-exchanger rig comprises the first feed pipe, the second feed pipe, stop valve, filter, ball-and-seat, heat exchanger, ceiling radiant tube, the first return pipe and the second return pipe; First feed pipe comprises the first water inlet and the first delivery port; First return pipe comprises the second water inlet and the second delivery port; Heat exchanger comprises the 3rd water inlet, the 3rd delivery port, the 4th water inlet and the 4th delivery port; Ceiling radiant tube comprises the 5th water inlet and the 5th delivery port; Second feed pipe comprises the 6th water inlet and the 6th delivery port; Second return pipe comprises the 7th water inlet and the 7th delivery port; First delivery port is communicated with the 3rd water inlet, and the 3rd delivery port is communicated with the 5th water inlet, and the 5th delivery port is communicated with the second water inlet; 4th delivery port is communicated with the 6th water inlet; 7th delivery port is communicated with the 4th water inlet; Stop valve comprises the first stop valve, the second stop valve, the 3rd stop valve, the 4th stop valve, the 5th stop valve and the 6th stop valve; Ball-and-seat comprises the first ball-and-seat, the second ball-and-seat; From the first water inlet to the direction of the first delivery port, the first stop valve, filter, the first ball-and-seat and the second stop valve are successively set on the first feed pipe; From the direction of the 3rd water inlet and the 3rd delivery port, the 3rd stop valve is set; From the direction of the 6th water inlet and the 6th delivery port, the second ball-and-seat and the 4th stop valve are successively set on the second feed pipe; From the direction of the 7th water inlet and the 7th delivery port, the 5th stop valve is arranged on the second return pipe; From the direction of the second water inlet and the second delivery port, the 6th stop valve is arranged on the first return pipe.

According to second aspect of the present utility model, provide a kind of ceiling system microcirculation heat-exchanger rig, wherein, ceiling system microcirculation heat-exchanger rig also comprises: booster pump, and booster pump is arranged on the first feed pipe; Booster pump is between the first ball-and-seat and the second stop valve.

According to the third aspect of the present utility model, a kind of ceiling system microcirculation heat-exchanger rig is provided, wherein, ceiling system microcirculation heat-exchanger rig also comprises: temperature sense controller, and temperature sense controller comprises the temperature-detecting device and temperature-adjusting device that are connected; Temperature-adjusting device is arranged on the first feed pipe, for heating the water in the first feed pipe; Temperature-detecting device is arranged on the first return pipe, for detecting the water temperature of the water in the first return pipe.

According to fourth aspect of the present utility model, provide a kind of ceiling system microcirculation heat-exchanger rig, wherein, temperature-detecting device comprises: the display floater be connected and temperature sensor; Temperature sensor is for detecting the water temperature of the water in the first return pipe.Display floater is used for the Real-time Water temperature value of displays temperature sensor senses.

According to the 5th aspect of the present utility model, provide a kind of ceiling system microcirculation heat-exchanger rig, wherein, temperature-adjusting device comprises: the master board be connected and heater; Heater is for heating the water in the first feed pipe; Master board is used for control heater, to improve the water temperature in the first feed pipe.

According to the 6th aspect of the present utility model, provide a kind of ceiling system microcirculation heat-exchanger rig, wherein, heater is that micro-electric heating is precious.

According to the 7th aspect of the present utility model, provide a kind of ceiling system microcirculation heat-exchanger rig, wherein, the rated operational voltage of micro-electric heating treasured is 220V, rated maximum power is 1500W, volume is 5L, appearance and size is 289*274*442mm.

According to eighth aspect of the present utility model, provide a kind of ceiling system microcirculation heat-exchanger rig, wherein, heater is heating water tank.

According to the 9th aspect of the present utility model, provide a kind of ceiling system microcirculation heat-exchanger rig, wherein, booster pump is SG type riser booster pump.

According to the tenth aspect of the present utility model, provide a kind of ceiling system microcirculation heat-exchanger rig, wherein, the operating voltage of SG type riser booster pump is 220V, bore is 25mm, flow is 40m ³/ h.

On the one hand achieve radiation refrigeration, make the radiometric temperature of house just and indoor temperature very close.Like this, heat exchange and temperature adjustment can be realized with very low power electric energy, realize radiating and cooling by the second feed pipe and the second return pipe, thus temperature can be regulated flexibly, thus make indoor air temperature even and soft.User can open and close stop valve as required, as required design temperature threshold value, and occupation mode is versatile and flexible.Filter can purify water, and the impurity on the one hand in the anti-sealing of energy blocks water pipe, adds the reliability of this device; Carbon core filter can also being set on the other hand, for filtering the water in the first feed pipe, producing the drinking water that can directly drink, saving water resource.First return pipe and the second feed pipe can connected with water faucets, be used for flush toilet, drink or water flowers and plants etc., environment-friendly water-saving.Such resident family needs cooling hardly in summer or only supplies little cold air.Room inner surface radiation temperature and room temperature closely, thus built one as snug as a bug in a rug, there is no excitement, warm and humid evenly soft, the indoor environment that it's like spring all the year round.Thus more traditional cooling apparatus, ceiling system microcirculation register of the present utility model is more comfortable, more healthy, more energy-conservation.Thus not only reduce the consumption of house to the energy, also utilize natural conditions better to build harmonious warm human settlement, energy-conserving and environment-protective.After adopting ceiling system microcirculation register of the present utility model, indoor comfort degree improves greatly, and people no longer has sensation cold in upper heat and lower cold, lower heat.In addition, the machine utilization of ceiling system microcirculation register of the present utility model is little, significantly can reduce energy consumption.In addition, because indoor do not have traditional air conditioner, radiator and pipeline, indoor effectively usable floor area is added.Such house can energy-conservation 70%.For example, in traditional building, central air-conditioning will reach balancing energy, and the every square meter of supply air system consumes the electric energy of 60 watts, and the electric energy adopting soft ceiling heating Refrigeration Technique only to need 10 watts.In addition, ceiling system microcirculation register structure of the present utility model is simple, is easy to realize and batch production.

Accompanying drawing explanation

Fig. 1 is the first structural representation of the embodiment one of ceiling system microcirculation heat-exchanger rig of the present utility model;

Fig. 2 is the second structural representation of the embodiment one of ceiling system microcirculation heat-exchanger rig of the present utility model.

Description of reference numerals:

1, the first feed pipe 2, second feed pipe 3, filter

4, heat exchanger 5, ceiling radiant tube 6, first return pipe

7, the second return pipe 8, first stop valve 9, second stop valve

10, the 3rd stop valve 11, the 4th stop valve 12, the 5th stop valve

13, the 6th stop valve 14, first ball-and-seat 15, second ball-and-seat

16, booster pump 17, temperature-detecting device 18, temperature-adjusting device

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with detailed description of the invention also with reference to accompanying drawing, the utility model is further described.Should be appreciated that, these describe just exemplary, and do not really want to limit scope of the present utility model.In addition, in the following description, the description to known features and technology is eliminated, to avoid unnecessarily obscuring concept of the present utility model.

Embodiment one

Fig. 1 is the first structural representation of the embodiment one of ceiling system microcirculation heat-exchanger rig of the present utility model;

Fig. 2 is the second structural representation of the embodiment one of ceiling system microcirculation heat-exchanger rig of the present utility model.

As depicted in figs. 1 and 2, ceiling system microcirculation heat-exchanger rig of the present utility model comprises the first feed pipe 1, second feed pipe 2, stop valve, filter 3, ball-and-seat, heat exchanger 4, ceiling radiant tube 5, first return pipe 6 and the second return pipe 7; First feed pipe 1 comprises the first water inlet and the first delivery port; First return pipe 6 comprises the second water inlet and the second delivery port; Heat exchanger 4 comprises the 3rd water inlet, the 3rd delivery port, the 4th water inlet and the 4th delivery port; Ceiling radiant tube 5 comprises the 5th water inlet and the 5th delivery port; Second feed pipe 2 comprises the 6th water inlet and the 6th delivery port; Second return pipe 7 comprises the 7th water inlet and the 7th delivery port; First delivery port is communicated with the 3rd water inlet, and the 3rd delivery port is communicated with the 5th water inlet, and the 5th delivery port is communicated with the second water inlet; 4th delivery port is communicated with the 6th water inlet; 7th delivery port is communicated with the 4th water inlet; Stop valve comprises the first stop valve 8, second stop valve 9, the 3rd stop valve 10, the 4th stop valve 11, the 5th stop valve 12 and the 6th stop valve 13; Ball-and-seat comprises the first ball-and-seat 14, second ball-and-seat 15; From the first water inlet to the direction of the first delivery port, the first stop valve 8, filter 3, first ball-and-seat 14 and the second stop valve 9 are successively set on the first feed pipe 1; From the direction of the 3rd water inlet and the 3rd delivery port, the 3rd stop valve 10 is set; From the direction of the 6th water inlet and the 6th delivery port, the second ball-and-seat 15 and the 4th stop valve 11 are successively set on the second feed pipe 2; From the direction of the 7th water inlet and the 7th delivery port, the 5th stop valve 12 is arranged on the second return pipe 7; From the direction of the second water inlet and the second delivery port, the 6th stop valve 13 is arranged on the first return pipe 6.

Radiation is a kind of heat transfer type efficiently.It is more faster than the heat transfer type such as convection current and heat conduction.Past uses heat radiation to provide heating to have quite long history to room.Its apparatus-form mostly is and arranges radiator in room, and shortcoming is that operating temperature is high, and thermal loss is large; And indoor heating is uneven.Floor radiant heating and refrigeration system belong to the soft formula radiation of low temperature.

In the present embodiment, feed pipe is the pipeline that water flows into, and is divided into the first feed pipe 1 and the second feed pipe 2; First water inlet of the first feed pipe 1 connects main water supply pipe, and wherein, main water supply pipe mostly is such as: water system or the water supply line of building; 6th delivery port of the second feed pipe 2 connects the pipeline of the water circulation of air-conditioning, and condensed water, after heat exchanger 4 carries out heat exchange, successively through the second ball-and-seat 15 and described 4th stop valve 11 inflow heat exchanger 4, flows into air-conditioning by the second feed pipe 2; Stop valve is used for cutting off and throttling the current in the first feed pipe 1 and the second feed pipe 2; Filter 3 is for filtering the impurity in the first feed pipe 1 in water body, and the particle acrobatics in water is trapped within its interior; Ball-and-seat can only one-way flow for limiting current; Ceiling radiant tube 5 is coil pipe; In the inside of building, be used for being embedded in equably in concrete floor for the coil pipe of warm refrigeration, the hot water of 26 degrees Celsius ~ 40 degrees Celsius be provided winter, the cold water of 20 degrees Celsius ~ 26 degrees Celsius is provided summer; Energy in ceiling radiant tube 5 is released by radiation; Water circulation flows through the first feed pipe 1, ceiling radiant tube 5 and the first return pipe 6, and water and ceiling radiant tube 5 constantly carry out heat exchange, and ceiling radiant tube 5 and room air constantly carry out heat exchange; By arranging ceiling radiant tube 5 thus reach the effect of the temperature reducing or raise whole room equably in whole body of wall; Return pipe is divided into the first return pipe 6 and the second return pipe 7; First return pipe 6 is the path that water in ceiling radiant tube 5 is back to main water supply pipe, both can draw for flush toilet or pouring flowers and plants or introduce in other ceiling system microcirculation register, also again can be flowed into first feed pipe 1 of this device by main water supply pipe, thus recycle water resource; 7th water inlet of the second return pipe 7 connects the pipeline of the water circulation of air-conditioning, and condensed water is flowed out, through the 5th stop valve 12 inflow heat exchanger 4 from air-conditioning by the second return pipe 7; For utilizing air conditioner condensate water to freeze, thus realize cooling; Temperature sense controller is for detecting water temperature, and whether open and close heating function higher than the temperature threshold of user preset according to water temperature, heating function is closed when the temperature threshold of water temperature higher than user preset, heating function is opened when the temperature threshold of water temperature lower than user preset, wherein, the temperature threshold preset can be 20 degrees Celsius ~ 40 degrees Celsius.

Ceiling system microcirculation register of the present utility model achieves radiation refrigeration on the one hand, makes the radiometric temperature of house just and indoor temperature very close.Like this, heat exchange and temperature adjustment can be realized with very low power electric energy, realize radiating and cooling by the second feed pipe 2 and the second return pipe 7, thus temperature can be regulated flexibly, thus make indoor air temperature even and soft.User can open and close stop valve as required, as required design temperature threshold value, and occupation mode is versatile and flexible.Filter 3 can purify water, and the impurity on the one hand in the anti-sealing of energy blocks water pipe, adds the reliability of this device; Carbon core filter 3 can also being set on the other hand, for filtering the water in the first feed pipe 1, producing the drinking water that can directly drink, saving water resource.First return pipe 6 and the second feed pipe 2 can connected with water faucets, be used for flush toilet, drink or water flowers and plants etc., environment-friendly water-saving.

By ceiling system microcirculation register of the present utility model, resident family needs cooling hardly in summer or only supplies little cold air.Room inner surface radiation temperature and room temperature closely, thus built one as snug as a bug in a rug, there is no excitement, warm and humid evenly soft, the indoor environment that it's like spring all the year round.Thus more traditional cooling apparatus, ceiling system microcirculation register of the present utility model is more comfortable, more healthy, more energy-conservation.Thus not only reduce the consumption of house to the energy, also utilize natural conditions better to build harmonious warm human settlement, energy-conserving and environment-protective.After adopting ceiling system microcirculation register of the present utility model, indoor comfort degree improves greatly, and people no longer has sensation cold in upper heat and lower cold, lower heat.In addition, the machine utilization of ceiling system microcirculation register of the present utility model is little, significantly can reduce energy consumption.In addition, because indoor do not have traditional air conditioner, radiator and pipeline, indoor effectively usable floor area is added.Such house can energy-conservation 70%.For example, in traditional building, central air-conditioning will reach balancing energy, and the every square meter of supply air system consumes the electric energy of 60 watts, and the electric energy adopting soft ceiling heating Refrigeration Technique only to need 10 watts.In addition, ceiling system microcirculation register structure of the present utility model is simple, is easy to realize and batch production.

Further preferably, embodiment of the present utility model provides a kind of ceiling system microcirculation heat-exchanger rig and also comprises the present embodiment: booster pump 16, and booster pump 16 is arranged on the first feed pipe 1; Booster pump 16 is between the first ball-and-seat 14 and the second stop valve 9.

In the present embodiment, booster pump 16 is for strengthening hydraulic pressure.

Such one side can increase water yield, improves heat exchanger effectiveness; The speed of water circulation can be promoted on the other hand, the water capacity is easily secondary use, environment-friendly water-saving; In addition, this spline structure is simple, is easy to realize and batch production.

The present embodiment further preferably, embodiment of the present utility model provides a kind of ceiling system microcirculation heat-exchanger rig, wherein, ceiling system microcirculation heat-exchanger rig also comprises: temperature sense controller, and temperature sense controller comprises the temperature-detecting device 17 and temperature-adjusting device 18 that are connected; Temperature-adjusting device 18 is arranged on the first feed pipe 1, for heating the water in the first feed pipe 1; Temperature-detecting device 17 is arranged on the first return pipe 6, for detecting the water temperature of the water in the first return pipe 6.

In the present embodiment, staff can not only monitor water temperature by temperature-detecting device 17; Further, staff can carry out control temperature adjusting device 18 according to water temperature condition and raises or reduce temperature value.

Such one side achieves radiant heating, makes the radiometric temperature of house just and indoor temperature very close.Like this, artificial heating can be realized with very low power electric energy, realize heating by the first feed pipe 1 and the first return pipe 6, thus make indoor air temperature even and soft.Such resident family needs heat supply in the winter time hardly or only supplies little heat.Room inner surface radiation temperature and room temperature closely, thus built one as snug as a bug in a rug, there is no cold wind excitement, warm and humid evenly soft, the indoor environment that it's like spring all the year round.Thus more traditional heating installation, ceiling system microcirculation register of the present utility model is more comfortable, more healthy, more energy-conservation.Thus not only reduce the consumption of house to the energy, also utilize natural conditions better to build harmonious warm human settlement, energy-conserving and environment-protective.After adopting ceiling system microcirculation register of the present utility model, indoor comfort degree improves greatly, and people no longer has sensation cold in upper heat and lower cold, lower heat.In addition, the machine utilization of ceiling system microcirculation register of the present utility model is little, significantly can reduce energy consumption.In addition, because indoor do not have traditional air conditioner, radiator and pipeline, indoor effectively usable floor area is added.Such house can energy-conservation 70%.For example, in traditional building, central air-conditioning will reach balancing energy, and the every square meter of supply air system consumes the electric energy of 60 watts, and the electric energy adopting soft ceiling heating Refrigeration Technique only to need 10 watts.In addition, ceiling system microcirculation register structure of the present utility model is simple, is easy to realize and batch production.

Further preferably, embodiment of the present utility model provides a kind of ceiling system microcirculation heat-exchanger rig to the present embodiment, and wherein, temperature-detecting device 17 comprises: the display floater be connected and temperature sensor; Temperature sensor is for detecting the water temperature of the water in the first return pipe 6.Display floater is used for the Real-time Water temperature value of displays temperature sensor senses.

Such one side user can facilitate and observe water temperature intuitively, understands the situation of change of water temperature and room temperature; On the other hand once the utility model occurs abnormal, also can pinpoint the problems intuitively, be easy to cleaning and safeguard; In addition, this spline structure is simple, is easy to realize and batch production.

Further preferably, embodiment of the present utility model provides a kind of ceiling system microcirculation heat-exchanger rig to the present embodiment, and wherein, temperature-adjusting device 18 comprises: the master board be connected and heater; Heater is for heating the water in the first feed pipe 1; Master board is used for control heater, to improve the water temperature in the first feed pipe 1.

In the present embodiment, by arranging a multiple master board of mistake in whole building, the temperature in multiple room can be controlled, can regulate and monitor the room temperature of entire building easily.Particularly, this heater can be that micro-electric heating is precious, can also be heating water tank.

Such one side is easy to administer and maintain; Save space so on the other hand, easy to use; In addition, cost-saving like this, decrease the waste of material; In addition, this spline structure is simple, is easy to realize and batch production.

Further preferably, embodiment of the present utility model provides a kind of ceiling system microcirculation heat-exchanger rig to the present embodiment, and wherein, heater is that micro-electric heating is precious.

In the present embodiment, for micro-electric heating treasured is used for heating the water in feed pipe, particularly, this micro-electric heating treasured can be discus Shi Rebao, round pie, there are bakelite, iron and stainless steel casing, feel is comparatively hard, and its one side has triangle socket, inside has heating wire to conduct electricity, generally there is auto-breaking to arrange, can auto-breaking be realized.Realize heating the water in feed pipe with the heating of micro-electric heating treasured, because micro-electric heating treasured has effect of high temperature resistant, leakproof and insulation, micro-electric heating Bora is therefore used to do the temperature threshold that the heater hot water that can meet in feed pipe almost remains on setting.It should be noted that, during the preset temperature threshold value of the hot water temperature flow through in feed pipe higher than user, this heater will quit work.

Such one side achieves the power on/off by controlling electric kettle, and achieve the temperature threshold that the hot water that can meet in feed pipe almost remains on setting, thus make the radiometric temperature of house constant, indoor air temperature is even and soft.Just and indoor temperature very close; Discus Shi Rebao not easily fault, safe and reliable on the other hand, is easy to administer and maintain; In addition, this spline structure is simple, is easy to realize and batch production.

The present embodiment further preferably, embodiment of the present utility model provides a kind of ceiling system microcirculation heat-exchanger rig, wherein, the rated operational voltage of micro-electric heating treasured is 220V, rated maximum power is 1500W, volume is 5L, appearance and size is 289*274*442mm.

Such one side achieves the power on/off by controlling electric kettle, and achieve the temperature threshold that the hot water that can meet in feed pipe almost remains on setting, thus make the radiometric temperature of house constant, indoor air temperature is even and soft.Just and indoor temperature very close; Appearance and size is little on the other hand, saves space; In addition, such volume and power are the most suitable, and heating effect is good; In addition, this spline structure is simple, is easy to realize and batch production.

Further preferably, embodiment of the present utility model provides a kind of ceiling system microcirculation heat-exchanger rig to the present embodiment, and wherein, heater is heating water tank.

In the present embodiment, heating water tank is used for heating the current in feed pipe, particularly, and the device that the water tank that this heating water tank can be 8L for employing cubical content heats the inner bag that cubical content is 5L.Realize heating the current in feed pipe to inner bag heating by heating water tank, because inner bag has effect of high temperature resistant, leakproof and insulation, heating water tank is therefore used to do the temperature threshold that the heater hot water that can meet in feed pipe almost remains on setting.It should be noted that, during the preset temperature threshold value of the hot water temperature flow through in feed pipe higher than user, this heater will quit work.

Such one side achieves the power on/off by controlling heating water tank, and achieve the temperature threshold that the hot water that can meet in feed pipe almost remains on setting, thus make the radiometric temperature of house constant, indoor air temperature is even and soft.Just and indoor temperature very close; Appearance and size is little on the other hand, saves space; In addition, such volume and power are the most suitable, and heating effect is good; In addition, this spline structure is simple, is easy to realize and batch production.

Further preferably, embodiment of the present utility model provides a kind of ceiling system microcirculation heat-exchanger rig to the present embodiment, and wherein, booster pump 16 is SG type riser booster pump 16.

Such one side can increase water yield, improves heat exchanger effectiveness; The speed of water circulation can be promoted on the other hand, the water capacity is easily secondary use, environment-friendly water-saving; In addition, SG type riser booster pump 16 is applicable to different heating system pipeline, highly versatile; In addition, this spline structure is simple, is easy to realize and batch production.

Further preferably, embodiment of the present utility model provides a kind of ceiling system microcirculation heat-exchanger rig to the present embodiment, and wherein, the operating voltage of SG type riser booster pump 16 is 220V, bore is 25mm, flow is 40m ³/ h.

Such one side can increase water yield, improves heat exchanger effectiveness; The speed of water circulation can be promoted on the other hand, the water capacity is easily secondary use, environment-friendly water-saving; In addition, be more suitable for the utility model like this, pressure effect is good, and water velocity is fast; In addition, this spline structure is simple, is easy to realize and batch production.

The operation principle that ceiling system microcirculation register of the present utility model realizes is as follows:

Resident family resident is when using ceiling system microcirculation register, and the water flowed out from main water supply pipe flows into from the first water inlet the first feed pipe 1, flows through the first stop valve 8, filter 3, first ball-and-seat 14 and the second stop valve 9 successively; From the first delivery port inflow heat exchanger 4, the water after heat exchanger 4 carries out heat exchange flows into ceiling radiant tube 5 by the 3rd stop valve 10; The water flowed out from the 5th delivery port of ceiling radiant tube 5 flows into main water supply pipe through the 5th stop valve 12.

The water flowed out from air conditioner condensation waterpipe flows into from the 7th water inlet the second return pipe 7, and through the 5th stop valve 12 inflow heat exchanger 4, the water after heat exchanger 4 carries out heat exchange flows into air conditioner condensation waterpipe through the second ball-and-seat 15 and the 4th stop valve 11.

In the process used, if the water temperature of the water in feed pipe is when the preset temperature threshold value higher than user, the valve on the first feed pipe 1 and the first return pipe 6 can be opened or open the power supply of booster pump 16; Open the valve on the second feed pipe 2 and the second return pipe 7; When current are through temperature sense controller, stopping also being heated by the temperature-adjusting device 18 of temperature sense controller; When current are through heat exchanger 4, open heat exchanger 4, the air conditioner condensate water in heat exchanger 4 carries out quick heat radiating cooling to the water in the first feed pipe 1; Now hot water is accelerated through the first return pipe 6 and discharges by water circulating pump; The water that temperature is lower is entered by the first feed pipe 1, realizes cooling.

In the process used, if the water temperature of the water in the first feed pipe 1 is when the preset temperature threshold value lower than user, the valve on the first feed pipe 1 and the first return pipe 6 can be closed or cut off the power supply of booster pump 16; Close the valve on the second feed pipe 2 and the second return pipe 7; When current are through temperature sense controller, the temperature-adjusting device 18 of temperature sense controller also will start heating; Close heat exchanger 4, heat exchanger 4 stops heat radiation; The water that temperature after feed pipe heating is higher is stored in ceiling radiant tube 5, realizes heating up.

Should be understood that, above-mentioned detailed description of the invention of the present utility model only for exemplary illustration or explain principle of the present utility model, and is not formed restriction of the present utility model.Therefore, any amendment made when not departing from spirit of the present utility model and scope, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.In addition, the utility model claims be intended to contain fall into claims scope and border or this scope and border equivalents in whole change and modification.

Claims (10)

1. a ceiling system microcirculation heat-exchanger rig, is characterized in that,

Described ceiling system microcirculation heat-exchanger rig comprises the first feed pipe, the second feed pipe, stop valve, filter, ball-and-seat, heat exchanger, ceiling radiant tube, the first return pipe and the second return pipe;

Described first feed pipe comprises the first water inlet and the first delivery port;

Described first return pipe comprises the second water inlet and the second delivery port;

Described heat exchanger comprises the 3rd water inlet, the 3rd delivery port, the 4th water inlet and the 4th delivery port;

Described ceiling radiant tube comprises the 5th water inlet and the 5th delivery port;

Described second feed pipe comprises the 6th water inlet and the 6th delivery port;

Described second return pipe comprises the 7th water inlet and the 7th delivery port;

Described first delivery port is communicated with described 3rd water inlet,

Described 3rd delivery port is communicated with described 5th water inlet,

Described 5th delivery port is communicated with described second water inlet;

Described 4th delivery port is communicated with described 6th water inlet;

Described 7th delivery port is communicated with described 4th water inlet;

Described stop valve comprises the first stop valve, the second stop valve, the 3rd stop valve, the 4th stop valve, the 5th stop valve and the 6th stop valve;

Described ball-and-seat comprises the first ball-and-seat, the second ball-and-seat;

From described first water inlet to the direction of described first delivery port, described first stop valve, described filter, described first ball-and-seat and described second stop valve are successively set on described first feed pipe;

From the direction of described 3rd water inlet and described 3rd delivery port, described 3rd stop valve is set;

From the direction of described 6th water inlet and described 6th delivery port, described second ball-and-seat and described 4th stop valve are successively set on described second feed pipe;

From the direction of described 7th water inlet and described 7th delivery port, described 5th stop valve is arranged on described second return pipe;

From the direction of described second water inlet and described second delivery port, described 6th stop valve is arranged on described first return pipe.

2. ceiling system microcirculation heat-exchanger rig according to claim 1, is characterized in that, described ceiling system microcirculation heat-exchanger rig also comprises:

Booster pump, described booster pump is arranged on described first feed pipe;

Described booster pump is between described first ball-and-seat and described second stop valve.

3. ceiling system microcirculation heat-exchanger rig according to claim 1, is characterized in that, described ceiling system microcirculation heat-exchanger rig also comprises:

Temperature sense controller, described temperature sense controller comprises the temperature-detecting device and temperature-adjusting device that are connected;

Described temperature-adjusting device is arranged on described first feed pipe, for heating the water in described first feed pipe;

Described temperature-detecting device is arranged on described first return pipe, for detecting the water temperature of the water in described first return pipe.

4. ceiling system microcirculation heat-exchanger rig according to claim 3, it is characterized in that, described temperature-detecting device comprises:

The display floater be connected and temperature sensor;

Described temperature sensor is for detecting the water temperature of the water in described first return pipe;

Described display floater is for showing the Real-time Water temperature value of described temperature sensor perception.

5. ceiling system microcirculation heat-exchanger rig according to claim 3, it is characterized in that, described temperature-adjusting device comprises:

The master board be connected and heater;

Described heater is for heating the water in described first feed pipe;

Described master board for controlling described heater, to improve the water temperature in described first feed pipe.

6. ceiling system microcirculation heat-exchanger rig according to claim 5, is characterized in that,

Described heater is that micro-electric heating is precious.

7. ceiling system microcirculation heat-exchanger rig according to claim 6, is characterized in that,

The rated operational voltage of described micro-electric heating treasured is 220V, rated maximum power is 1500W, volume is 5L, appearance and size is 289*274*442mm.

8. ceiling system microcirculation heat-exchanger rig according to claim 5, it is characterized in that, described heater is heating water tank.

9. ceiling system microcirculation heat-exchanger rig according to claim 1, is characterized in that, described booster pump is SG type riser booster pump.

10. ceiling system microcirculation heat-exchanger rig according to claim 9, is characterized in that, the operating voltage of described SG type riser booster pump is 220V, bore is 25mm, flow is 40m ³/ h.