Method of producing a heavy modular unit and a modular unit produced according to the method
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E04B-001/04
E04B-001/38
출원번호
US-0451200
(2008-04-30)
등록번호
US-8499526
(2013-08-06)
우선권정보
SE-0701079 (2007-05-03)
국제출원번호
PCT/IB2008/001073
(2008-04-30)
§371/§102 date
20091030
(20091030)
국제공개번호
WO2008/135832
(2008-11-13)
발명자
/ 주소
Klersy, Hans-Berth
출원인 / 주소
Klersy, Hans-Berth
대리인 / 주소
Nixon & Vanderhye PC
인용정보
피인용 횟수 :
1인용 특허 :
24
초록▼
The present invention encompasses a method, on a building site, of forming a stable and, in terms of weight, heavy modular unit under the utilization of prefabricated, in terms of weight considerably lighter, modular unit (12) transported to the building site, where said heavy modular unit (12a) can
The present invention encompasses a method, on a building site, of forming a stable and, in terms of weight, heavy modular unit under the utilization of prefabricated, in terms of weight considerably lighter, modular unit (12) transported to the building site, where said heavy modular unit (12a) can be adapted to serve as a complete modular-built cellar unit. Said modular unit displays a base slab (14) and double-walled wall sections (10, 11) anchored to the base slab. Inner and outer wall portions (10, 11) are mutually coordinated and secured to one another via supports (18) oriented within a free space formed and structured between the wall portions. The free space is completely filled with a concrete mass, which is caused to cure or set, in order in such instance to form the in terms of weight heavy modular unit. The present invention also discloses a heavy modular unit thus produced.
대표청구항▼
1. A method of forming, at a building site, a stable and, in terms of weight, heavy modular unit that can be adapted to serve as a complete modular-built cellar unit, the method comprising the steps of: transporting to the building site a prefabricated and, in terms of weight, considerably lighter c
1. A method of forming, at a building site, a stable and, in terms of weight, heavy modular unit that can be adapted to serve as a complete modular-built cellar unit, the method comprising the steps of: transporting to the building site a prefabricated and, in terms of weight, considerably lighter complete modular unit previously formed at a production site different from the building site, said lighter modular unit including: a base slab having length and width dimensions corresponding to those of a cellar,a plurality of double-walled wall sections formed from flexurally rigid cement fiber panels and anchored to the base slab, the plurality of double-walled wall sections including a number of inner wall portions facing in towards the modular unit and a number of outer wall portions facing from the modular unit, said inner and outer wall portions being mutually coordinated,a plurality of supports securing said inner and outer wall portions together, the plurality of supports being located within a free space formed between the inner and outer wall portions, and dimensionally defined by said inner and outer wall portions secured to one another via said supports, andone or more modular unit-allocated interior design details mounted within the double-walled wall sections,at the building site, filling the free space with a concrete mass which is caused to cure or set to form, in terms of weight, in combination with the lighter modular unit., the heavy modular unit,the inner wall portions having such dimensions and mechanical strength-related properties that these inner wall portions, in combination with only said supports, support selected ones of the modular unit-allocated interior design details, which are fixed to selected wall sections of the inner wall portions, and form a first form side of said free space that is able to withstand the pressure forces occurring upon concrete pouring into said free space, andsaid outer wall portions having such dimensions and mechanical strength-related properties that these outer wall portions, in combination with only said supports, form a second opposing form side of said free space that is able to withstand the pressure forces occurring upon concrete pouring into said free space. 2. The method as claimed in claim 1, wherein said free space is used for requisite conduit or channel laying for electric lines, for water supply, and/or for air ventilation. 3. The method as claimed in claim 1, wherein requisite conduit or channel laying is mounted in and secured against suitable supports, before the inner wall portion is secured to said support. 4. The method as claimed in claim 1, wherein for said concrete mass, use is made of a fiber reinforced concrete mass, in the form of a self-compacting structure. 5. The method as claimed in claim 4, wherein for said concrete mass, use is made of a fiber reinforced concrete mass without vibration. 6. The method as claimed in claim 1, wherein said supports are formed as vertical beams, such as “H” or “I” beams, and with recesses within the webs of the beams, to thereby create a continuous concrete structure through said recesses when the free space is filled with a concrete mass. 7. A heavy modular unit adapted to serve as a complete modular-built cellar unit at a building site, said heavy modular unit comprising: a prefabricated and, in terms of weight, considerably lighter complete modular unit previously formed at a production site different from the building site, said lighter modular unit including: a base slab having length and width dimensions corresponding to those of a cellar,a plurality of double-walled wall sections formed from flexurally rigid cement fiber panels and anchored to the base slab, the plurality of double-walled wall sections including a number of inner wall portions facing in towards the modular unit and a number of outer wall portions facing from the modular unit, said inner and outer wall portions being mutually coordinated,a plurality of supports securing said inner and outer wall portions together, the plurality of supports oriented within a free space formed between the inner and outer wall portions, and dimensionally defined by said inner and outer wall portions secured to one another via said supports, andone or more modular unit-allocated interior design details mounted within the double-walled wall sections,a concrete mass, which fills the free space at the building site, and which is cured or set to form, in terms of weight, in combination with the lighter modular unit, the heavy modular unit,the inner wall portions having such dimensions and mechanical strength-related properties that these inner wall portions, in combination with only said supports, support selected ones of the modular unit-allocated interior decoration details, which are fixed to selected wall sections allocated to the inner wall portions, and form a first form side of said free space that is able to withstand the pressure forces occurring upon concrete pouring into said free space, andsaid outer wall portions having such dimensions and mechanical strength-related properties that these outer wall portions, in combination with only said supports form a second opposing form side of said free space that is able to withstand the pressure forces occurring upon concrete pouring into said free space, such that the free space is filled with the concrete mass. 8. The heavy modular unit as claimed in claim 7, wherein located within said free space is requisite conduit or channel laying for electrical lines, for water supply, and/or for air ventilation. 9. The heavy modular unit as claimed in claim 7, wherein the requisite conduit or channel laying is mounted in and secured to suitable supports before the inner wall portion is secured to said support. 10. The heavy modular unit as claimed in claim 7, wherein said concrete mass has the structure of a fiber-reinforced concrete mass, in the form of a self-compacting structure. 11. The heavy modular unit as claimed in claim 10, wherein said concrete mass has the structure of a fiber-reinforced concrete mass without vibration. 12. The heavy modular unit as claimed in claim 7, wherein said supports are formed as vertical beams, such as “H” or “I”beams and with recesses within the webs of the beams, in order thereby to create a continuous concrete structure through said recesses.
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이 특허에 인용된 특허 (24)
Melnick David W. (3405 Alcott St. Denver CO 80211-3341) Barnet Robert T. (809 E. Ridgecrest Rd. Fort Collins CO 80524), Block forms for receiving concrete.
Budge,Paul W., Structural thermal framing and panel system for assembling finished or unfinished walls with multiple panel combinations for poured and nonpoured wall.
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