CN205372912U - No fan self -loopa heat preservation system - Google Patents

Abstract

The utility model discloses a no fan self -loopa heat preservation system, including indoor gas admission pipe, honeycomb duct, return bend, air exhaust device, outdoor gas discharge pipe, outdoor gas heat exchange tube, indoor gas heat exchange tube, indoor gas discharge pipe, outdoor gas admission pipe, filter plate, heat transfer case and heat preservation, indoor gas admission pipe and heat transfer case intercommunication, be equipped with the return bend on the indoor gas admission pipe, the return bend bottom is equipped with the honeycomb duct, the heat transfer incasement is equipped with outdoor gas heat exchange tube and indoor gas heat exchange tube, indoor gas heat exchange tube one end is connected with indoor gas admission pipe, the indoor gas heat exchange tube other end is connected with indoor gas discharge pipe, the heat transfer incasement is equipped with the heat preservation, outdoor gas heat exchange tube one end is connected with outdoor gas admission pipe, the outdoor gas heat exchange tube other end is connected with outdoor gas discharge pipe, air exhaust device passes through the exhaust tube and is connected with indoor gas admission pipe and outdoor gas discharge pipe respectively. The utility model discloses realize indoor outer thermal self -loopa, avoid the jam to influence the heat transfer, simple structure, convenient to use does benefit to the popularization.

Description

A kind of Blower-free self-loopa heat-insulation system

Technical field

This utility model relates to a kind of Blower-free field devices, specifically a kind of Blower-free self-loopa heat-insulation system.

Background technology

Blower-free and no-power air blower are to utilize the natural wind speed of nature to promote the turbine of blower fan to rotate, and utilize the principle of indoor-outdoor air convection current, the air of any parallel direction is flowed, accelerates and be changed into from bottom to top vertical air flowing, to improve a kind of device of room ventilation ventilation effect.This blower fan not electricity consumption, noiselessness, can operate for a long time.It is according to the air natural law and air-flow flow principles, rational design at the top of roofing, can the rapidly steam in discharge chamber and dirty gas, improve indoor environment.No-power air blower produces cross-ventilation, dissipation steam, lowers air conditioner load, increases indoor fresh air, and extraction roof dampness, stale, steam, maintenance roof are dry and comfortable, replaces heavy electricity exhaust blower, lowers the support cost savings electricity charge, cuts noise.But easily indoor heat is left when winter uses Blower-free, cause indoor cold, the environment that impact is lived.

Utility model content

The purpose of this utility model is in that to provide a kind of Blower-free self-loopa heat-insulation system, with the problem solving to propose in above-mentioned background technology.

For achieving the above object, this utility model provides following technical scheme:

nullA kind of Blower-free self-loopa heat-insulation system，Pipe is entered including Indoor Air、Mozzle、Bend pipe、Air extractor、Outdoor gas discharge pipe、Exhaust tube、Outdoor gas heat exchanger tube、Indoor Air heat exchanger tube、Indoor Air discharge pipe、Outdoor gas enters pipe、Filter plate、Heat exchange box and heat-insulation layer，Described Indoor Air enters pipe and connects with heat exchange box，Indoor Air enters pipe and is provided with bend pipe，Bend pipe bottom is provided with mozzle，Outdoor gas heat exchanger tube and Indoor Air heat exchanger tube it is provided with in heat exchange box，Outside outdoor gas heat exchanger tube and Indoor Air heat exchanger tube, tube wall is provided with heat radiation graphite film，Indoor Air heat exchanger tube one end enters pipe with Indoor Air and is connected，The Indoor Air heat exchanger tube other end is connected with Indoor Air discharge pipe，Indoor Air discharge pipe connects with heat exchange box，Heat-insulation layer it is provided with in heat exchange box，Indoor Air discharge pipe is installed the second thermometer，Indoor Air discharge pipe is provided with control valve，Outdoor gas enters pipe and connects with heat exchange box，Outdoor gas enters in pipe and is provided with filter plate，Outdoor gas heat exchanger tube one end enters pipe with outdoor gas and is connected，The outdoor gas heat exchanger tube other end is connected with outdoor gas discharge pipe，Outdoor gas discharge pipe is arranged on heat exchange box，Outdoor gas discharge pipe is provided with the first thermometer，Outdoor gas heat exchanger tube and Indoor Air heat exchanger tube are arranged in a mutually vertical manner，Air extractor enters pipe with Indoor Air respectively by exhaust tube and outdoor gas discharge pipe is connected.

As further program of the utility model: described mozzle is provided with control valve.

As this utility model further scheme: described outdoor gas heat exchanger tube and Indoor Air heat exchanger tube are made up of the good conductor of heat.

As this utility model further scheme: described outdoor gas enters pipe, Indoor Air discharge pipe is connected with Blower-free.

Compared with prior art, the beneficial effects of the utility model are: can become globule stream in bend pipe water vapor condensation therein after this utility model Indoor Air heat exchange chance in heat exchange box is cold, discharged by mozzle, simple and convenient, heat-insulation layer avoids scattering and disappearing of heat, better heat exchange, temperature when second thermometer test Indoor Air is discharged, if temperature is higher than outdoor temperature, closing control valve, it is made to may proceed to heat exchange in stop one in heat exchange box, ensure the abundant circulation of heat, filter plate avoids the dust in air etc. to enter, ensure that room air is in cleaning, temperature after first thermometer test heat exchange, facilitate heat exchange, it is beneficial to the circulation of heat, it is bled by timing by air extractor, blocking is avoided to affect heat exchange, simple in construction, easy to use, it is beneficial to popularization.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of Blower-free self-loopa heat-insulation system.

In figure: 1, Indoor Air enters pipe, 2, mozzle, 3, bend pipe, 4, air extractor, the 5, first thermometer, 6, outdoor gas discharge pipe, 7, exhaust tube, 8, outdoor gas heat exchanger tube, 9, Indoor Air heat exchanger tube, 10, Indoor Air discharge pipe, 11, the second thermometer, 12, outdoor gas enter pipe, 13, filter plate, 14, heat exchange box, 15, heat-insulation layer.

Detailed description of the invention

Below in conjunction with detailed description of the invention, the technical scheme of this patent is described in more detail.

nullRefer to Fig. 1，A kind of Blower-free self-loopa heat-insulation system，Pipe 1 is entered including Indoor Air、Mozzle 2、Bend pipe 3、Air extractor 4、Outdoor gas discharge pipe 6、Exhaust tube 7、Outdoor gas heat exchanger tube 8、Indoor Air heat exchanger tube 9、Indoor Air discharge pipe 10、Outdoor gas enters pipe 12、Filter plate 13、Heat exchange box 14 and heat-insulation layer 15，Described Indoor Air enters pipe 1 and connects with heat exchange box 14，Indoor Air enters pipe 1 and is provided with bend pipe 3，Bend pipe 3 bottom is provided with mozzle 2，Mozzle 2 is provided with control valve，Can become globule stream in bend pipe 3 water vapor condensation therein after Indoor Air heat exchange chance in heat exchange box 14 is cold，Discharged by mozzle 2，Simple and convenient，Outdoor gas heat exchanger tube 8 and Indoor Air heat exchanger tube 9 it is provided with in heat exchange box 14，Outside outdoor gas heat exchanger tube 8 and Indoor Air heat exchanger tube 9, tube wall is provided with heat radiation graphite film，Outdoor gas heat exchanger tube 8 and Indoor Air heat exchanger tube 9 are made up of the good conductor of heat，Facilitate heat exchange，Indoor Air heat exchanger tube 9 one end enters pipe 1 with Indoor Air and is connected，Indoor Air heat exchanger tube 9 other end is connected with Indoor Air discharge pipe 10，Indoor Air discharge pipe 10 connects with heat exchange box 14，Heat-insulation layer 15 it is provided with in heat exchange box 14，Heat-insulation layer 15 avoids scattering and disappearing of heat，Better heat exchange，Indoor Air discharge pipe 10 is installed the second thermometer 11，Indoor Air discharge pipe 10 is provided with control valve，Second thermometer 11 tests temperature when Indoor Air is discharged，If temperature is higher than outdoor temperature，Closing control valve，It is made to may proceed to heat exchange in stop one in heat exchange box 14，Ensure the abundant circulation of heat，Outdoor gas enters pipe 12 and connects with heat exchange box 14，Outdoor gas enters in pipe 12 and is provided with filter plate 13，Filter plate 13 avoids the dust in air etc. to enter，Ensure that room air is in cleaning，Outdoor gas enters pipe 12、Indoor Air discharge pipe 10 is connected with Blower-free，Outdoor gas heat exchanger tube 8 one end enters pipe 12 with outdoor gas and is connected，Outdoor gas heat exchanger tube 8 other end is connected with outdoor gas discharge pipe 6，Outdoor gas discharge pipe 6 is arranged on heat exchange box 14，Outdoor gas discharge pipe 6 is provided with the first thermometer 5，First thermometer 5 tests the temperature after heat exchange，Outdoor gas heat exchanger tube 8 and Indoor Air heat exchanger tube 9 are arranged in a mutually vertical manner，Facilitate heat exchange，It is beneficial to the circulation of heat，Air extractor 4 enters pipe 1 with Indoor Air respectively by exhaust tube 7 and outdoor gas discharge pipe 6 is connected，It is bled by timing by air extractor 4，Blocking is avoided to affect heat exchange.

Operation principle of the present utility model is: can become globule stream in bend pipe water vapor condensation therein after this utility model Indoor Air heat exchange chance in heat exchange box is cold, discharged by mozzle, simple and convenient, heat-insulation layer avoids scattering and disappearing of heat, better heat exchange, temperature when second thermometer test Indoor Air is discharged, if temperature is higher than outdoor temperature, closing control valve, it is made to may proceed to heat exchange in stop one in heat exchange box, ensure the abundant circulation of heat, filter plate avoids the dust in air etc. to enter, ensure that room air is in cleaning, temperature after first thermometer test heat exchange, facilitate heat exchange, it is beneficial to the circulation of heat, it is bled by timing by air extractor, blocking is avoided to affect heat exchange.

Above the better embodiment of this patent is explained in detail, but this patent is not limited to above-mentioned embodiment, in the ken that one skilled in the relevant art possesses, it is also possible to make a variety of changes under the premise without departing from this patent objective.

Claims (4)

1. null1. a Blower-free self-loopa heat-insulation system，Pipe is entered including Indoor Air、Mozzle、Bend pipe、Air extractor、Outdoor gas discharge pipe、Exhaust tube、Outdoor gas heat exchanger tube、Indoor Air heat exchanger tube、Indoor Air discharge pipe、Outdoor gas enters pipe、Filter plate、Heat exchange box and heat-insulation layer，It is characterized in that，Described Indoor Air enters pipe and connects with heat exchange box，Indoor Air enters pipe and is provided with bend pipe，Bend pipe bottom is provided with mozzle，Outdoor gas heat exchanger tube and Indoor Air heat exchanger tube it is provided with in heat exchange box，Outside outdoor gas heat exchanger tube and Indoor Air heat exchanger tube, tube wall is provided with heat radiation graphite film，Indoor Air heat exchanger tube one end enters pipe with Indoor Air and is connected，The Indoor Air heat exchanger tube other end is connected with Indoor Air discharge pipe，Indoor Air discharge pipe connects with heat exchange box，Heat-insulation layer it is provided with in heat exchange box，Indoor Air discharge pipe is installed the second thermometer，Indoor Air discharge pipe is provided with control valve，Outdoor gas enters pipe and connects with heat exchange box，Outdoor gas enters in pipe and is provided with filter plate，Outdoor gas heat exchanger tube one end enters pipe with outdoor gas and is connected，The outdoor gas heat exchanger tube other end is connected with outdoor gas discharge pipe，Outdoor gas discharge pipe is arranged on heat exchange box，Outdoor gas discharge pipe is provided with the first thermometer，Outdoor gas heat exchanger tube and Indoor Air heat exchanger tube are arranged in a mutually vertical manner，Air extractor enters pipe with Indoor Air respectively by exhaust tube and outdoor gas discharge pipe is connected.
2. 2. a kind of Blower-free self-loopa heat-insulation system according to claim 1, it is characterised in that described mozzle is provided with control valve.
3. 3. a kind of Blower-free self-loopa heat-insulation system according to claim 1, it is characterised in that described outdoor gas heat exchanger tube and Indoor Air heat exchanger tube are made up of the good conductor of heat.
4. 4. a kind of Blower-free self-loopa heat-insulation system according to claim 1, it is characterised in that described outdoor gas enters pipe, Indoor Air discharge pipe is connected with Blower-free.