CN209227803U - A kind of building energy conservation heat insulation structure - Google Patents

Abstract

The utility model discloses a kind of building energy conservation heat insulation structures, including wall, drainpipe, distributor pipe, water pump, header box, power supply line, battery, heating mechanism, water storage box and heat circulation pipe, the side of the wall is equipped with adhesive layer, the adhesive layer side close to wall is fitted with insulating layer, the drainpipe is embedded in insulating layer, the distributor pipe is mounted on one side lever wall of drainpipe, the distributor pipe side close to drainpipe is equipped with circulation pipe, the water pump is connected between drainpipe and circulation pipe, the insulating layer side far from adhesive layer is equipped with outer wall layers.The building energy conservation heat insulation structure setting has the device using solar powered form, come the water storage box for heating or freezing on building balcony, wall outer side using the water in water storage box in building recycles, summer can freeze, winter can heat, but also be consumption solar energy, it can also heat-preserving building wall while energy saving.

Description

A kind of building energy conservation heat insulation structure

Technical field

The utility model relates to building heat preservation relevant device technical field, specially a kind of building energy conservation heat insulation structure.

Background technique

For the wall of building after building up, basic wall will receive the influence of environment at ambient, expand with heat and contract with cold, this is to building It is very dangerous for building, therefore building needs the wall of the further heat-preserving building of insulating layer when building up.Existing market Although building energy conservation heat insulation structure type and quantity on are very more, all only letters of most of building energy conservation heat insulation structure Single use material carries out fitting wall, and the energy-saving heat preserving of wall is only realized from material, and effect is existing, but not too much Ideal, therefore on the market there is an urgent need to which the technology of building energy conservation heat insulation structure structure can be improved, to improve this equipment.

Utility model content

The purpose of this utility model is to provide a kind of building energy conservation heat insulation structures, to solve above-mentioned background technique proposition Building energy conservation heat insulation structure currently on the market all only simply carries out fitting wall using material, only realizes wall from material The energy-saving heat preserving of body, effect are existing, but not too much ideal problem.

To achieve the above object, the utility model provides the following technical solutions: a kind of building energy conservation heat insulation structure, including wall Body, drainpipe, distributor pipe, water pump, header box, power supply line, battery, heating mechanism, water storage box and heat circulation pipe, the wall Side adhesive layer is installed, wherein

The adhesive layer side close to wall is fitted with insulating layer, and the drainpipe is embedded in insulating layer, and described point Stringing is mounted on one side lever wall of drainpipe, is equipped with circulation pipe close to the distributor pipe side of drainpipe, the water pump connects It connects between drainpipe and circulation pipe, the insulating layer side far from adhesive layer is equipped with outer wall layers, the outer wall layers side Solar energy tabula rasa is fixed on body wall, the header box is embedded in outer wall layers and connect with solar energy tabula rasa, the power supply line It is connected to header box one end, the power supply line other end far from header box is equipped with solar converter, the battery peace Mounted in solar converter side；

The heating mechanism is connected to battery side, and the battery side close to heating mechanism is also equipped with refrigeration Mechanism, the water storage box are mounted on refrigeration mechanism side, and the heat circulation pipe is wrapped on water storage box, close to the institute of heat circulation pipe It states and is also wound with SAPMAC method pipe on water storage box.

Preferably, the insulating layer is set as EPS insulation board material, and clamping has drainpipe, distributor pipe among insulating layer And circulation pipe.

Preferably, for for setting, the set quantity of drainpipe and the institute of circulation pipe between the drainpipe and circulation pipe If quantity is identical.

Preferably, the distributor pipe is set as lateral " u "-shaped, and the central axes between distributor pipe about drainpipe are symmetrical.

It preferably, is comparable size and material between the heat circulation pipe and SAPMAC method pipe, and heat circulation pipe and SAPMAC method The winding form of pipe is identical, and is alternately connection between heat circulation pipe and SAPMAC method pipe.

Compared with prior art, the utility model has the beneficial effects that the building energy conservation heat insulation structure:

1. be provided with the device using solar powered form, to heat or the water storage box built on balcony that freeze, Wall outer side using the water in water storage box in building recycles, and summer can freeze, and winter can heat, but also be to consume too Positive energy, can also heat-preserving building wall while energy saving；

2. be provided with drainpipe to be embedded in insulating layer, and by the distributor pipe of U-shaped it is careful be distributed in insulating layer Inside, enable to hot and cold water when flowing into drainpipe can by the distribution of distributor pipe, so that the heating surface area of wall increases, and And homogenize, it is more convenient heat preservation；

3. being provided with the water storage box that can be supplied water for heat preservation, it is wound with heat circulation pipe and SAPMAC method pipe on the outside of water storage box, is handed over For when wind so that heating or refrigeration cistern interior water when, same temperature change effect can be obtained, and be equal Even temperature change, is faster also more convenient, but also is independent of each other.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the utility model drain structure schematic diagram；

Fig. 3 is the utility model water storage box structural schematic diagram.

In figure: 1, wall, 2, adhesive layer, 3, insulating layer, 4, drainpipe, 5, distributor pipe, 6, water pump, 7, circulation pipe, 8, outer Wall layers, 9, solar energy tabula rasa, 10, header box, 11, power supply line, 12, solar converter, 13, battery, 14, heating mechanism, 15, refrigeration mechanism, 16, water storage box, 17, heat circulation pipe, 18, SAPMAC method pipe.

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 making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of building energy conservation heat insulation structure, including wall 1, adhesive layer 2, insulating layer 3, drainpipe 4, distributor pipe 5, water pump 6, circulation pipe 7, outer wall layers 8, solar energy tabula rasa 9, header box 10, Power supply line 11, solar converter 12, battery 13, heating mechanism 14, refrigeration mechanism 15, water storage box 16,17 and of heat circulation pipe The side of SAPMAC method pipe 18, the wall 1 is equipped with adhesive layer 2, wherein

2 side of the adhesive layer close to wall 1 is fitted with insulating layer 3, and the insulating layer 3 is set as EPS heat preservation plate material Matter, and the intermediate clamping of insulating layer 3 has drainpipe 4, distributor pipe 5 and circulation pipe 7, is in order in water by the way of this inlay In the case where circulation heat preservation, moreover it is possible to Double insulating is carried out by material, so that the wall of building is preferably kept the temperature, the row Water pipe 4 is embedded in insulating layer 3, and the distributor pipe 5 is mounted on 4 one side lever wall of drainpipe, and the distributor pipe 5 is set as laterally " u "-shaped, and the central axes between distributor pipe 5 about drainpipe 4 are symmetrical, distributor pipe 5 can distribute water out of drainpipe 4, The region that drainpipe 4 can not be related to is flowed through, recycles the shape of distributor pipe 5 itself that water is flow back to drainpipe 4, does not influence following for water Ring can also increase the protected area of wall, and 5 side of the distributor pipe close to drainpipe 4 is equipped with circulation pipe 7, the draining For for setting, the set quantity of drainpipe 4 and the set quantity of circulation pipe 7 are identical, each draining between pipe 4 and circulation pipe 7 Pipe 4 is all connected to a circulation pipe 7 by water pump 6, but circulation pipe 7 and drainpipe 4 be not in same wall, is the wall of opposition Body, so that the state that water flow is a kind of " 0 " shape constantly recycles, the water pump 6 is connected between drainpipe 4 and circulation pipe 7, far 3 side of the insulating layer from adhesive layer 2 is equipped with outer wall layers 8, is fixed with solar energy tabula rasa on the outer 8 side body wall of wall layers 9, the header box 10 is embedded in outer wall layers 8 and connect with solar energy tabula rasa 9, and the power supply line 11 is connected to header box 10 One end, 11 other end of the power supply line far from header box 10 are equipped with solar converter 12, and the battery 13 is mounted on 12 side of solar converter；

The heating mechanism 14 is connected to 13 side of battery, and 13 side of the battery close to heating mechanism 14 is also pacified Equipped with refrigeration mechanism 15, the water storage box 16 is mounted on 15 side of refrigeration mechanism, and the heat circulation pipe 17 is wrapped in water storage box 16 On, SAPMAC method pipe 18, the heat circulation pipe 17 and SAPMAC method pipe are also wound on the water storage box 16 of heat circulation pipe 17 It is comparable size and material between 18, and heat circulation pipe 17 is identical with the winding form of SAPMAC method pipe 18, and heat circulation pipe 17 Alternately to connect between SAPMAC method pipe 18, the region for facilitating hot and cold water to process is identical, and due to being alternately to wind, stablizes and become The process of change is uniform.

Working principle: when using the building energy conservation heat insulation structure, it is necessary first to which the building energy conservation heat insulation structure is carried out One simple to understand, and after construction wall 1, insulating layer 3 is bonded by adhesive layer 2, then external wall layer 8 again, the sun Can tabula rasa 9 be distributed in outer wall layers 8, receive that the energy is transferred to solar energy by power supply line 11 by header box 10 after solar energy Converter 12 is converted into being stored in battery 13 after electric energy being supplied to heating mechanism 14 or refrigeration mechanism 15, heating mechanism 14 It is all mounted on the balcony of building with refrigeration mechanism 15 and water storage box 16 and battery 13, starts heating mechanism 14 or refrigeration mechanism 15, the water for heating or freezing in water storage box 16 using heat circulation pipe 17 or SAPMAC method pipe 18, water flows into row with the drop of height Water pipe 4, then distributor pipe 5 is flowed by drainpipe 4, this process enables the temperature of water to bring wall 1, and water flows into distributor pipe 5 After can flow back intake-discharge pipe 4, then assisted flowing back to water storage box 16 using circulation pipe 7 by water pump 6, the water flow back to is to lose original temperature Water, turning again to water storage box 16 can recycle heated or be cooled in order to recycle again, here it is the workflow of the device, The content being not described in detail in this explanation belongs to the prior art well known to professional and technical personnel in the field.

Although the utility model is described in detail with reference to the foregoing embodiments, come for those skilled in the art Say, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic into Row equivalent replacement, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on should all It is included within the scope of protection of this utility model.

Claims (5)

1. a kind of building energy conservation heat insulation structure, including wall (1), drainpipe (4), distributor pipe (5), water pump (6), header box (10), power supply line (11), battery (13), heating mechanism (14), water storage box (16) and heat circulation pipe (17), the wall (1) Side adhesive layer (2) are installed, wherein

The adhesive layer (2) side close to wall (1) is fitted with insulating layer (3), and the drainpipe (4) is embedded in insulating layer (3) in, the distributor pipe (5) is mounted on (4) one side lever wall of drainpipe, close to the distributor pipe (5) side of drainpipe (4) It is equipped with circulation pipe (7), the water pump (6) is connected between drainpipe (4) and circulation pipe (7), described far from adhesive layer (2) Insulating layer (3) side is equipped with outer wall layers (8), is fixed with solar energy tabula rasa (9) on outer wall layers (8) the side body wall, described Header box (10) is embedded in outer wall layers (8) and connect with solar energy tabula rasa (9), and the power supply line (11) is connected to header box (10) one end, the power supply line (11) other end far from header box (10) are equipped with solar converter (12), the electric power storage Pond (13) is mounted on solar converter (12) side；

The heating mechanism (14) is connected to battery (13) side, close to the battery (13) side of heating mechanism (14) It is also equipped with refrigeration mechanism (15), the water storage box (16) is mounted on refrigeration mechanism (15) side, and the heat circulation pipe (17) twines It is wound on water storage box (16), is also wound with SAPMAC method pipe (18) on the water storage box (16) of heat circulation pipe (17).

2. a kind of building energy conservation heat insulation structure according to claim 1, it is characterised in that: the insulating layer (3) is set as EPS insulation board material, and the intermediate clamping of insulating layer (3) has drainpipe (4), distributor pipe (5) and circulation pipe (7).

3. a kind of building energy conservation heat insulation structure according to claim 1, it is characterised in that: the drainpipe (4) and circulation It manages between (7) as setting, the set quantity of drainpipe (4) is identical as the set quantity of circulation pipe (7).

4. a kind of building energy conservation heat insulation structure according to claim 1, it is characterised in that: the distributor pipe (5) is set as Lateral " u "-shaped, and the central axes between distributor pipe (5) about drainpipe (4) are symmetrical.

5. a kind of building energy conservation heat insulation structure according to claim 1, it is characterised in that: the heat circulation pipe (17) with it is cold It is comparable size and material between circulation pipe (18), and heat circulation pipe (17) is identical with the winding form of SAPMAC method pipe (18), and And it is connected between heat circulation pipe (17) and SAPMAC method pipe (18) for alternating.