designer wooden flat roof carport for 2 car near very realistic wooden garden studio
wooden flat roof designer carport near very realistic wooden garden studio
designer wooden garden studio with flat roof for disabled people with wheelchair and ramp
designer wooden garden studio with flat roof with terrace for people with Reduced Mobility
designer wooden garden studio with flat roof with terrace for people with Reduced Mobility
designer wooden garden studio with flat roof with terrace for people with Reduced Mobility
designer wooden garden studio with flat roof with terrace for people with Reduced Mobility
designer wooden garden studio with flat roof with terrace for people with Reduced Mobility
designer wooden garden studio with flat roof with terrace for people with Reduced Mobility
:In the design for this single family house the sloping site is used as a device for programmatic and volumetric organization. A box-like volume bifurcates into two separate volumes; one seamlessly following the northern slope; the other lifted above the hill creating a covered parking space and generating a split-level internal organization. The volumetric transition is generated by a set of five parallel walls that rotate along a horizontal axis from vertical to horizontal. The ruled surface maintaining this transition is repeated five times in the building. From inside the huge window strips from floor to ceiling allow a fluid continuity between interior and landscape. From the exterior the reflective glass seams to become one with its surroundings.
:In the design for this single family house the sloping site is used as a device for programmatic and volumetric organization. A box-like volume bifurcates into two separate volumes; one seamlessly following the northern slope; the other lifted above the hill creating a covered parking space and generating a split-level internal organization. The volumetric transition is generated by a set of five parallel walls that rotate along a horizontal axis from vertical to horizontal. The ruled surface maintaining this transition is repeated five times in the building. From inside the huge window strips from floor to ceiling allow a fluid continuity between interior and landscape. From the exterior the reflective glass seams to become one with its surroundings.
:In the design for this single family house the sloping site is used as a device for programmatic and volumetric organization. A box-like volume bifurcates into two separate volumes; one seamlessly following the northern slope; the other lifted above the hill creating a covered parking space and generating a split-level internal organization. The volumetric transition is generated by a set of five parallel walls that rotate along a horizontal axis from vertical to horizontal. The ruled surface maintaining this transition is repeated five times in the building. From inside the huge window strips from floor to ceiling allow a fluid continuity between interior and landscape. From the exterior the reflective glass seams to become one with its surroundings.
:In the design for this single family house the sloping site is used as a device for programmatic and volumetric organization. A box-like volume bifurcates into two separate volumes; one seamlessly following the northern slope; the other lifted above the hill creating a covered parking space and generating a split-level internal organization. The volumetric transition is generated by a set of five parallel walls that rotate along a horizontal axis from vertical to horizontal. The ruled surface maintaining this transition is repeated five times in the building. From inside the huge window strips from floor to ceiling allow a fluid continuity between interior and landscape. From the exterior the reflective glass seams to become one with its surroundings.
Draw me a picture of the highway kilometers and highway service areas. The pictures should be realistic. 1. There is a parking shed inside, with charging piles under the shed and solar photovoltaic panels on the shed. 2. There is a service area building with solar photovoltaic panels on the roof. 3. There is a highway. There are solar photovoltaic panels on the slope of the highway roadbed and solar photovoltaic panels under the slope.
Draw me a picture of the highway kilometers and highway service areas. The pictures should be realistic. 1. There is a parking shed inside, with charging piles under the shed and solar photovoltaic panels on the shed. 2. There is a service area building with solar photovoltaic panels on the roof. 3. There is a highway. There are solar photovoltaic panels on the slope of the highway roadbed and solar photovoltaic panels under the slope.
Draw me a picture of the highway kilometers and highway service areas. The pictures should be realistic. 1. There is a parking shed inside, with charging piles under the shed and solar photovoltaic panels on the shed. 2. There is a service area building with solar photovoltaic panels on the roof. 3. There is a highway. There are solar photovoltaic panels on the slope of the highway roadbed and solar photovoltaic panels under the slope.
Draw me a picture of the highway kilometers and highway service areas. The pictures should be realistic. 1. There is a parking shed inside, with charging piles under the shed and solar photovoltaic panels on the shed. 2. There is a service area building with solar photovoltaic panels on the roof. 3. There is a highway. There are solar photovoltaic panels on the slope of the highway roadbed and solar photovoltaic panels under the slope.
Draw me a picture of the highway kilometers and highway service areas. The pictures should be realistic. 1. There is a parking shed inside, with charging piles under the shed and solar photovoltaic panels on the shed. 2. There is a service area building with solar photovoltaic panels on the roof. 3. There is a highway. There are solar photovoltaic panels on the slope of the highway roadbed and solar photovoltaic panels under the slope.