CN209688998U - A kind of heat-insulation system for building energy conservation - Google Patents

Abstract

The utility model proposes a kind of heat-insulation systems for building energy conservation, solves the limitation in the prior art because of structure, building carries out the problem of causing the waste of resource when air circulation, including for will air in buildings be discharged during, exhaust group with heat exchange is transmitted to the air of discharge, the air inlet group for being used for that outside air is transmitted to and carried out during transmission heat exchange on building is set, is arranged on building；For carrying out air inlet group and the storage of exhaust group water, and the water storage group of internal water coke slurry is carried out, setting is using ground, and is connected to respectively with exhaust group and air inlet group；The utility model proposes the heat-insulation system for building energy conservation be used for building energy conservation heat-insulation system.

Description

A kind of heat-insulation system for building energy conservation

Technical field

The utility model relates to building energy saving field fields, particularly relate to a kind of heat-insulation system for building energy conservation.

Background technique

In the winter of cold district and northern area, temperature is very low, frequently with method be carry out building in warm oneself, so And since building internal-external temperature difference is larger, internal heat is lost quickly；In the prior art to building by the way of Exterior wall is kept the temperature, and is carried out building by heat preservation and is isolated with extraneous, and then reduces heat losses；Improve the heat preservation in building Effect；

However, in some buildings being needed to wind circulation is carried out in building, to guarantee air in buildings Degree of purity；In the prior art, due to the limitation of structure, when the air discharge in building, due in building temperature compared with Height, the same temperature of air in building is higher, when being discharged to the external world, can take away the heat in certain building, and extraneous The air in building is entered equally because ambient temperature is lower, with extraneous temperature, and then when extraneous temperature enters Afterwards, the temperature in building can be reduced, the increase of heat energy is in turn resulted in, in turn results in the waste of resource.

Utility model content

The utility model proposes a kind of heat-insulation systems for building energy conservation, solve the limit in the prior art because of structure System, building carry out the problem of causing the waste of resource when air circulation.

The technical solution of the utility model is achieved in that

A kind of heat-insulation system for building energy conservation, comprising:

For the exhaust with heat exchange will to be transmitted to the air of discharge during air in buildings is discharged Group is arranged on building；

For by outside air transmit and during transmission carry out heat exchange air inlet group, be arranged on building；

For carrying out air inlet group and the storage of exhaust group water, and the water storage group of internal water coke slurry being carried out, setting is using ground, and It is connected to respectively with exhaust group and air inlet group.

As further technical solution, exhaust group includes:

Exhaust pipe, one end are placed in outside building, in the other end and building；

Exhaust pump, setting are connected on exhaust pipe, and with exhaust pipe；

First circulation pump, is arranged on exhaust pipe, and is connected to the water layer 4 of exhaust tube outer surface.

As further technical solution, air inlet group includes:

Air inlet pipe, one end are placed in outside building, in the other end and building；

Air intake pump, setting are connected in air inlet pipe, and with air inlet pipe；

Second circulation pump, setting are connected in air inlet pipe, and with the water layer of air inlet tube outer surface 4.

As further technical solution, further includes:

Filter screen is arranged in air inlet pipe and is placed in outside building on the port of one end.

As further technical solution, water storage group includes:

Cold water storage cistern and boiler, setting is using ground, and cold water storage cistern is connected to exhaust group；Boiler is connected to air inlet pipe； And cold water storage cistern is connected to boiler；And the first valve is provided between cold water storage cistern and boiler；

Cross box, setting are connected to cold water storage cistern and boiler respectively using ground；Is provided between cross box cold water storage cistern Two valves；Third valve is provided between boiler and cross box.

As further technical solution, further includes:

Temperature detector is connected to water storage group；

Concurrent heating device is connect with temperature detector and water storage group respectively.

Technical solutions of the utility model pass through the setting of exhaust group and air inlet group, and exhaust group is connected to water storage with air inlet group Group, so that the cold water in water storage group is connected to exhaust group, the hot water in water storage group is connected to air inlet group, in this way when air enters Make, cold air can carry out heat exchange with the hot water in air inlet group, and then entering the air in building is the heat sky after heating Gas, and the cold water in the hot-air being discharged through exhaust group and exhaust group carries out heat exchange, so that the air of discharge is cold air, into And can be effectively using the heat in building, the wasting of resources caused by avoiding in air circulation process.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is a kind of structural schematic diagram of the heat-insulation system for building energy conservation of the utility model；

Fig. 2 is the structure enlargement diagram of the part A-A in Fig. 1.

In figure:

1, exhaust group, 11, exhaust pipe；12, exhaust pump；13, first circulation pumps；2, air inlet group；21, air inlet pipe；22, air inlet Pump；23, second circulation pumps；24, filter screen；3, water storage group；31, cold water storage cistern；32, boiler；33, cross box；34, concurrent heating Device；4, water layer 4.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in Figs. 1-2, the utility model proposes a kind of heat-insulation system for building energy conservation, comprising:

Exhaust group 1 is arranged on building；It will be during air in buildings be discharged, to discharge by exhaust group 1 Air be transmitted and heat exchange, wherein

Exhaust group 1 includes exhaust pipe 11, exhaust pump 12 and first circulation pump 13；11 one end of exhaust pipe is placed in building Outside, in the other end and building；The setting of exhaust pump 12 is connected on exhaust pipe 11, and with exhaust pipe 11；First circulation pump 13 is set It sets on exhaust pipe 11, and is connected to the water layer 4 of 11 outer surface of exhaust pipe；As shown in Fig. 2, being provided with water layer on exhaust pipe 11 4, water is placed in water layer 4, carries out heat exchange with the air being discharged by exhaust pipe 11；And then it will be in the cooling capacity and air in water Heat swaps, and reduces the temperature of air；The discharge of air is realized by exhaust pump 12；

Air inlet group 2 is arranged on building；Outside air is transmitted and carries out heat exchange during transmission by recent group； Wherein,

Air inlet group 2 includes air inlet pipe, air intake pump 22 and second circulation pump 23, which is placed in outside building, separately In one end and building；The setting of air intake pump 22 is connected in air inlet pipe, and with air inlet pipe；Second circulation pump 23 is arranged in air inlet pipe On, and be connected to the water layer of air inlet tube outer surface 4；In the utility model, the structure of air inlet pipe is identical as air accumulator, internal equal It is provided with water layer 4, water is placed in the water layer 4, carries out heat exchange with the air of air inlet pipe discharge；In turn by the heat and sky in water Cooling capacity in gas swaps, and improves the temperature of air；The entrance isomorphism air intake pump 22 of air is realized；

Certainly, during air enters, it can enter doped with sundries, therefore, be preferable to provide in the utility model There is filter screen 24, which is arranged in air inlet pipe and is placed in outside building on the port of one end；Sky is filtered by filter screen 24 Sundries in gas improves the degree of purity for entering the air in air inlet pipe；

Air inlet pipe and 11 length of exhaust pipe are adjustable in the utility model, with specific reference to actual conditions adjust, and air inlet pipe and S-shaped structure can also be arranged in exhaust pipe 11, increase the distance of transmission, and then realize better heat exchange；

The setting of water storage group 3 is using ground, and is connected to respectively with exhaust group 1 and air inlet group 2；Air inlet is carried out by water storage group 3 Group 2 and the storage of 1 water of exhaust group, and carry out internal water coke slurry；Wherein,

Water storage group 3 includes cold water storage cistern 31 and boiler 33, and the cold water storage cistern 31 and the setting of boiler 33 are using ground, and cold water Case 31 is connected to exhaust group 1；Boiler 33 is connected to air inlet pipe；And cold water storage cistern 31 is connected to boiler 33；And in cold water storage cistern 31 The first valve is provided between boiler 33；

Slow down it is small by 33, setting using ground, be connected to respectively with cold water storage cistern 31 and boiler 33；Slow down small 33 cold water storage cistern 31 it Between be provided with the second valve；Boiler 33 and slows down and be provided with third valve between small 33.

In actual use process, the first valve, the second valve and third valve, which are in, closes shape body, and 33 He of boiler It is provided with hot water and cold water in cold water storage cistern 31, when progress air enters, drives air to pass through air inlet pipe by air intake pump 22 Into, it is hot water in the water layer 4 due to being provided with water layer 4 in air inlet pipe during being transmitted by air inlet pipe, and build The air of beyond the region of objective existence is cold air, therefore, is made in the cooling capacity and air inlet pipe in cold air during being transmitted by air inlet pipe Hot water carry out heat exchange, and then improve enter air temperature；And under the drive of first circulation pump 13, so that air inlet pipe water Water is recycled with the water in boiler 33 in layer 4；

Certainly, with building outside air continue into, will lead to water temperature in boiler 33 and air inlet pipe reduces, because This, in the utility model, be preferably provided with temperature-detecting device and it is auxiliary vulcanize thermal 34, the temperature detector and water storage group 3 connections；Auxiliary thermal 34 of vulcanizing is connect with temperature detector and water storage group 3 respectively；When detecting hot water by temperature-detecting device When water temperature is lower than setting value in case 33 (such as setting value is 50 °), thermal movement does not carry out heat by electrically heated mode to auxiliary Water heats in water tank 33；In the utility model, assisted heating device is device of solar generating, passes through and absorbs solar energy and will too Sun is stored after capable of being converted to electric energy, when needing water heating in boiler 33, is heated by the electric energy of storage；

When air in buildings discharge, hot-air is discharged under the drive of exhaust pump 12 through exhaust pipe 11, due to exhaust It is provided with water layer 4 in pipe 11, cold water is provided in the water layer 4, and the air being discharged is the air with heat, therefore, when logical Crossing discharge pipe discharge air in buildings is to carry out heat exchange by the air in the cold water and exhaust pipe 11 in water layer 4, and lead to It crosses second circulation pump 23 and realizes that the water of water and cold water storage cistern 31 in 11 inner aqueous layer 4 of exhaust pipe realizes circulation；

And then realize and carry out heat during air inlet or exhaust, avoid the waste of resource；And carrying out hot water When water replaces in case 33 and cold water storage cistern 31, the water in boiler 33 is extracted out by conversion equipment, boiler 33 is empty shape at this time State；The invention between boiler 33 and cold water storage cistern 31 is opened, so that the cold water in cold water storage cistern 31 enters in boiler 33, and is worked as When cold water in cold water storage cistern 31 is placed in boiler 33, slow down the valve opening between small 33 and cold water storage cistern 31, so that dress Water in repairing enters cold water storage cistern 31, and by carrying out heat exchange with hot-air when the transmission of pipeline discharge pipe.

The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all practical at this Within novel spirit and principle, any modification, equivalent replacement, improvement and so on should be included in the guarantor of the utility model Within the scope of shield.

Claims (6)

1. a kind of heat-insulation system for building energy conservation characterized by comprising

For the exhaust group with heat exchange will to be transmitted to the air of discharge during air in buildings is discharged, if It sets on building；

For by outside air transmit and during transmission carry out heat exchange air inlet group, be arranged on building；

For carrying out the air inlet group and exhaust group water storage, and the water storage group of internal water coke slurry is carried out, setting is using Ground, and be connected to respectively with the exhaust group and the air inlet group.

2. being used for the heat-insulation system of building energy conservation as described in claim 1, which is characterized in that the exhaust group includes:

Exhaust pipe, one end are placed in outside building, in the other end and building；

Exhaust pump, setting are connected on the exhaust pipe, and with the exhaust pipe；

First circulation pump, is arranged on the exhaust pipe, and is connected to the water layer of the exhaust tube outer surface.

3. being used for the heat-insulation system of building energy conservation as described in claim 1, which is characterized in that the air inlet group includes:

Air inlet pipe, one end are placed in outside building, in the other end and building；

Air intake pump, setting are connected in the air inlet pipe, and with the air inlet pipe；

Second circulation pump, setting are connected in the air inlet pipe, and with the water layer of the air inlet tube outer surface.

4. being used for the heat-insulation system of building energy conservation as claimed in claim 3, which is characterized in that further include:

Filter screen is arranged in the air inlet pipe and is placed in outside building on the port of one end.

5. being used for the heat-insulation system of building energy conservation as claimed in claim 3, which is characterized in that the water storage group includes:

Cold water storage cistern and boiler, setting is using ground, and the cold water storage cistern is connected to the exhaust group；The boiler with it is described Air inlet pipe connection；And the cold water storage cistern is connected to the boiler；And it is provided between the cold water storage cistern and the boiler First valve；

Cross box, setting are connected to the cold water storage cistern and the boiler respectively using ground；Between the cross box cold water storage cistern It is provided with the second valve；Third valve is provided between the boiler and the cross box.

6. being used for the heat-insulation system of building energy conservation as described in claim 1, which is characterized in that further include:

Temperature detector is connected to the water storage group；

Concurrent heating device is connect with the temperature detector and the water storage group respectively.