CN205531443U - Novel energy -conserving light steel house room - Google Patents

Abstract

The utility model discloses a novel energy -conserving light steel house room. Wherein: one side of first wall body links to each other with one side of second wall body, and the opposite side of second wall body links to each other with one side of third wall body, the opposite side of third wall body links to each other with one side of fourth wall body, one side that the opposite side and the first wall body of fourth wall body leave links to each other, be provided with the second cavity between first semiconductor thermoelectric generation piece and the insulating layer, the one end setting of copper sheet is in the inside of heat preservation, the other end setting of copper sheet is in the inside of internal lobe wall. Traditional light steel house room mostly is the low layer house, and these houses have reduced construction cost because having used the lightweight steel construction, but the less use lightweight steel construction of high -rise building, and the house of traditional lightweight steel construction is not effect showing very energy -conserving in the aspect of moreover, the utility model has the advantage of simple structure for can turn into the heat energy of wall body the electric energy, save the energy, realize energy -conserving purpose.

Description

A kind of novel energy-conserving light steel structure house

Technical field

This utility model relates to a kind of light steel structure house, particularly relates to a kind of novel energy-conserving light steel structure house.

Background technology

Traditional light steel structure house is mostly low-rise building, and these houses decrease construction cost because employing lightweight steel construction, but skyscraper less use lightweight steel construction, and also the house of traditional lightweight steel construction is not that effect is the most notable at energy-conservation aspect.

Summary of the invention

Task to be solved in the utility model is to provide a kind of novel energy-conserving light steel structure house, enabling reaches that body of wall heat energy is converted to electric energy and realizes energy-conservation purpose.

In order to solve the problems referred to above, this utility model is achieved through the following technical solutions:

A kind of novel energy-conserving light steel structure house, including: siphonal lobe wall, the first semiconductor temperature differential generating sheet, the first air pump, the first conduit, the first temperature sensor, thermal insulation layer, the second temperature sensor, the second air pump, the second conduit, the second semiconductor temperature differential generating sheet, heat-insulation layer, internal lobe wall, copper sheet, the 3rd air pump, the 3rd conduit, the first humidity sensor, the first cavity, the second humidity sensor, the 4th air pump, the 4th conduit, the second cavity, lightweight steel construction framework, the first body of wall, the second body of wall, top board, base plate, the 3rd body of wall, the 4th body of wall；Wherein: the side of the first body of wall is connected with the side of the second body of wall, the opposite side of the second body of wall and the side of the 3rd body of wall are connected；The opposite side of the 3rd body of wall and the side of the 4th body of wall are connected；The opposite side of the 4th body of wall and the remaining side of the first body of wall are connected；The upper end of the first body of wall, the upper end of the second body of wall, the upper end of the 3rd body of wall, the upper end of the 4th body of wall are all connected with an end face of top board；The lower end of the first body of wall, the lower end of the second body of wall, the lower end of the 3rd body of wall, the lower end of the 4th body of wall are all connected with an end face of base plate；The first described body of wall is made up of siphonal lobe wall, lightweight steel construction framework, the first semiconductor temperature differential generating sheet, thermal insulation layer, the second semiconductor temperature differential generating sheet, heat-insulation layer, internal lobe wall from outside to inner side successively；It is provided with the second cavity between first semiconductor temperature differential generating sheet and thermal insulation layer；It is provided with the first cavity between thermal insulation layer and the second semiconductor temperature differential generating sheet；The second temperature sensor, the first humidity sensor it is provided with in first cavity；One end of first cavity is connected by the second conduit and the second air pump；The other end of the first cavity is connected by the 3rd conduit and the 3rd air pump；The first temperature sensor, the second humidity sensor it is provided with in second cavity；One end of second cavity is connected by the first conduit and the first air pump；The other end of the second cavity is connected by the 4th conduit and the 4th air pump；Being embedded with copper sheet between heat-insulation layer and internal lobe wall uniformly, lightweight steel construction framework is embedded in the inside of siphonal lobe wall.

The utility model has the advantage of: by arranging temperature difference electricity generation device, make it possible to the heat energy of body of wall is converted into electric energy, there is significant energy-saving effect, in addition air pump can be good at realizing the regulation of the temperature to cavity and humidity with the setting of sensor, because this utility model only employs lightweight steel construction framework in a part of body of wall, make this structure disclosure satisfy that the requirement of strength to high-level structure house, can be used for building skyscraper.

Accompanying drawing explanation

Fig. 1 is the structural representation of the first body of wall of the present utility model.

Fig. 2 is the structure chart in this utility model house.

Fig. 3 is the composition structural representation in this utility model house.

Reference: siphonal lobe wall 1, first semiconductor temperature differential generating sheet 2, first air pump 3, first conduit 4, first temperature sensor 5, thermal insulation layer 6, second temperature sensor 7, second air pump 8, second conduit 9, second semiconductor temperature differential generating sheet 10, heat-insulation layer 11, internal lobe wall 12, copper sheet 13, 3rd air pump 14, 3rd conduit 15, first humidity sensor 16, first cavity 17, second humidity sensor 18, 4th air pump 19, 4th conduit 20, second cavity 21, lightweight steel construction framework 22, first body of wall 23, second body of wall 24, top board 25, base plate 26, 3rd body of wall 27, 4th body of wall 28.

Detailed description of the invention

Embodiment, a kind of novel energy-conserving light steel structure house, including: siphonal lobe wall 1, first semiconductor temperature differential generating sheet 2, first air pump 3, first conduit 4, first temperature sensor 5, thermal insulation layer 6, second temperature sensor 7, second air pump 8, second conduit 9, second semiconductor temperature differential generating sheet 10, heat-insulation layer 11, internal lobe wall 12, copper sheet 13, 3rd air pump 14, 3rd conduit 15, first humidity sensor 16, first cavity 17, second humidity sensor 18, 4th air pump 19, 4th conduit 20, second cavity 21, lightweight steel construction framework 22, first body of wall 23, second body of wall 24, top board 25, base plate 26, 3rd body of wall 27, 4th body of wall 28；Wherein: the side of the first body of wall 23 is connected with the side of the second body of wall 24, the opposite side of the second body of wall 24 and the side of the 3rd body of wall 27 are connected；The opposite side of the 3rd body of wall 27 and the side of the 4th body of wall 28 are connected；The opposite side of the 4th body of wall 28 and the first remaining side of body of wall 23 are connected；The upper end of the first body of wall 23, the upper end of the second body of wall 24, the upper end of the 3rd body of wall 27, the upper end of the 4th body of wall 28 are all connected with an end face of top board 25；The lower end of the first body of wall 23, the lower end of the second body of wall 24, the lower end of the 3rd body of wall 27, the lower end of the 4th body of wall 28 are all connected with an end face of base plate 26；The first described body of wall 23 is made up of siphonal lobe wall 1, lightweight steel construction framework the 22, first semiconductor temperature differential generating sheet 2, thermal insulation layer the 6, second semiconductor temperature differential generating sheet 10, heat-insulation layer 11, internal lobe wall 12 from outside to inner side successively；The second cavity 21 it is provided with between first semiconductor temperature differential generating sheet 2 and thermal insulation layer 6；It is provided with the first cavity 17 between thermal insulation layer 6 and the second semiconductor temperature differential generating sheet 10；Second temperature sensor the 7, first humidity sensor 16 it is provided with in first cavity 17；One end of first cavity 17 is connected with the second air pump 8 by the second conduit 9；The other end of the first cavity 17 is connected with the 3rd air pump 14 by the 3rd conduit 15；First temperature sensor the 5, second humidity sensor 18 it is provided with in second cavity 21；One end of second cavity 21 is connected with the first air pump 3 by the first conduit 4；The other end of the second cavity 21 is connected with the 4th air pump 19 by the 4th conduit 20；Being embedded with copper sheet 13 between heat-insulation layer 11 and internal lobe wall 12 uniformly, lightweight steel construction framework 22 is embedded in the inside of siphonal lobe wall 1.

Operation principle:

When siphonal lobe wall 1 and the second cavity 21 form the temperature difference, the first semiconductor temperature differential generating sheet 2 starts generating；When first cavity 17 forms the temperature difference with heat-insulation layer 11, the second semiconductor temperature differential generating sheet 10 starts generating；First temperature sensor the 5, second humidity sensor 18 detects temperature and the humidity of the second cavity 21 respectively；When temperature or humidity are too high, the first air pump 3 is started working with the 4th air pump 19, is filled with in the second cavity 21 by extraneous air, is then exhausted from, and reaches the purpose of cooling and wet down by forming air-flow in the second cavity 21；Thermal insulation layer 6 plays the purpose of the heat transmission of isolation the second cavity 21 and the first cavity 17；Second temperature sensor the 7, first humidity sensor 16 in first cavity 17 detects the temperature in the first cavity 17 and humidity respectively, when temperature or humidity are too high, the second air pump 8 and the 3rd air pump 14 are started working so that the air-flow that is internally formed of the first cavity 17 takes heat and dampness out of first cavity 17 by gas；Copper sheet 13 has good heat conductivity, it is possible to by heat conduction, the heat of heat-insulation layer 11 is delivered to indoor；If can transfer heat to heat-insulation layer 11 when that indoor temperature being too high, now the first cavity 17 forms the temperature difference with heat-insulation layer 11；Second semiconductor temperature differential generating sheet 10 starts generating；Can be stored, as emergency by the electric energy obtained with upper type.

Claims (1)

1. null1. a novel energy-conserving light steel structure house，Including: siphonal lobe wall (1)、First semiconductor temperature differential generating sheet (2)、First air pump (3)、First conduit (4)、First temperature sensor (5)、Thermal insulation layer (6)、Second temperature sensor (7)、Second air pump (8)、Second conduit (9)、Second semiconductor temperature differential generating sheet (10)、Heat-insulation layer (11)、Internal lobe wall (12)、Copper sheet (13)、3rd air pump (14)、3rd conduit (15)、First humidity sensor (16)、First cavity (17)、Second humidity sensor (18)、4th air pump (19)、4th conduit (20)、Second cavity (21)、Lightweight steel construction framework (22)、First body of wall (23)、Second body of wall (24)、Top board (25)、Base plate (26)、3rd body of wall (27)、4th body of wall (28)；It is characterized in that: the side of the first body of wall (23) is connected with the side of the second body of wall (24), the opposite side of the second body of wall (24) and the side of the 3rd body of wall (27) are connected；The opposite side of the 3rd body of wall (27) and the side of the 4th body of wall (28) are connected；The opposite side of the 4th body of wall (28) and the first body of wall (23) remaining side are connected；The upper end of the first body of wall (23), the upper end of the second body of wall (24), the upper end of the 3rd body of wall (27), the upper end of the 4th body of wall (28) are all connected with an end face of top board (25)；The lower end of the first body of wall (23), the lower end of the second body of wall (24), the lower end of the 3rd body of wall (27), the lower end of the 4th body of wall (28) are all connected with an end face of base plate (26)；Described the first body of wall (23) is made up of siphonal lobe wall (1), lightweight steel construction framework (22), the first semiconductor temperature differential generating sheet (2), thermal insulation layer (6), the second semiconductor temperature differential generating sheet (10), heat-insulation layer (11), internal lobe wall (12) from outside to inner side successively；It is provided with the second cavity (21) between first semiconductor temperature differential generating sheet (2) and thermal insulation layer (6)；It is provided with the first cavity (17) between thermal insulation layer (6) and the second semiconductor temperature differential generating sheet (10)；The second temperature sensor (7), the first humidity sensor (16) it is provided with in first cavity (17)；One end of first cavity (17) is connected with the second air pump (8) by the second conduit (9)；The other end of the first cavity (17) is connected with the 3rd air pump (14) by the 3rd conduit (15)；The first temperature sensor (5), the second humidity sensor (18) it is provided with in second cavity (21)；One end of second cavity (21) is connected with the first air pump (3) by the first conduit (4)；The other end of the second cavity (21) is connected with the 4th air pump (19) by the 4th conduit (20)；Being embedded with copper sheet (13) between heat-insulation layer (11) and internal lobe wall (12) uniformly, lightweight steel construction framework (22) is embedded in the inside of siphonal lobe wall (1).