EP4384679A1 - Schnell einsetzbares modulares schutzraumsystem - Google Patents

Schnell einsetzbares modulares schutzraumsystem

Info

Publication number
EP4384679A1
EP4384679A1 EP22854816.0A EP22854816A EP4384679A1 EP 4384679 A1 EP4384679 A1 EP 4384679A1 EP 22854816 A EP22854816 A EP 22854816A EP 4384679 A1 EP4384679 A1 EP 4384679A1
Authority
EP
European Patent Office
Prior art keywords
button
purlin
frame segment
frame
protrusion
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP22854816.0A
Other languages
English (en)
French (fr)
Inventor
Brian D. Johnson
Ryan Douglas SAVENKOFF
Matt Christensen
Jean-Marc Bennett
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Weatherhaven Global Resources Ltd
Original Assignee
Weatherhaven Global Resources Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US17/397,900 external-priority patent/US11746555B2/en
Application filed by Weatherhaven Global Resources Ltd filed Critical Weatherhaven Global Resources Ltd
Publication of EP4384679A1 publication Critical patent/EP4384679A1/de
Pending legal-status Critical Current

Links

Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H15/00Tents or canopies, in general
    • E04H15/32Parts, components, construction details, accessories, interior equipment, specially adapted for tents, e.g. guy-line equipment, skirts, thresholds
    • E04H15/34Supporting means, e.g. frames
    • E04H15/44Supporting means, e.g. frames collapsible, e.g. breakdown type
    • E04H15/48Supporting means, e.g. frames collapsible, e.g. breakdown type foldable, i.e. having pivoted or hinged means

Definitions

  • the invention relates to the field of collapsible structures, in particular fabric- covered structures such as tents and collapsible frames for supporting same.
  • the present invention therefore provides a leg element for use in a folding tent frame system, the folding tent frame system having a roof frame comprising arch brackets configured to receive a plurality of the leg elements, each leg element comprising: a) a first inner leg element comprising a base and a rigid vertical element mounted on the base, the rigid vertical element having a plurality of vertically spaced latch-receiving slots; and b) a second outer sliding leg element slideably movable vertically on the first inner leg element, the second outer sliding leg element comprising a horizontally extending lifting bar secured thereto and a spring-biased latch element for securing the outer sliding leg element at selected vertical locations on the inner leg element.
  • a folding tent frame comprising a folding roof frame, and a plurality of leg elements engageable with the folding roof frame
  • the folding roof frame comprises a plurality of arch brackets located on the periphery thereof for releasably receiving and securing the plurality of leg elements
  • each arch bracket comprises a vertical passage open on the outer side thereof for receiving one of the outer sliding leg elements and opposed tapered interior surfaces for bearing against an outer surface of the outer sliding leg elements.
  • the outer sliding leg elements may comprise tapered outer surfaces configured to engage the tapered interior surfaces of the plurality of arch brackets.
  • a shelter system comprising the folding tent frame described above, and a flexible tent body removably suspended from the folding tent frame when the folding tent frame is in an unfolded and locked configuration.
  • a method of deploying a shelter wherein the shelter comprises a folding tent frame as described above and a flexible tent body, the method comprising the steps of: a) unfolding the roof frame, reversibly locking the roof frame in an unfolded configuration and placing the unfolded roof frame on a generally horizontal surface such as the ground; b) removably securing the flexible tent body to the unfolded roof frame at a plurality of points; c) securing the plurality of leg elements to the arch brackets of the unfolded roof frame wherein the leg elements are in a first lowered configuration to thereby raise one or both sides of the unfolded roof frame above the generally horizontal surface; d) raising the roof frame further above the generally horizontal surface by sliding each outer sliding leg elements of the plurality of leg elements vertically on each first inner leg element to thereby secure each leg element in a further extended configuration; e) repeating step d) until the unfolded roof frame has been raised to a selected extended height;
  • each base of the plurality of leg elements may be secured to the generally horizontal surface using stakes extending through the apertures into the generally horizontal surface.
  • the outer sliding leg elements may slid vertically on each first inner leg element by lifting the horizontally extending lifting bars.
  • FIG. 1 is a perspective view of the unfolded assembled frame for a one bay structure according to an embodiment of the invention.
  • FIG. 2 is a perspective view of the upper folding assembly for the frame in Fig. 1 , expanded with frame components unfolded.
  • Fig. 3 is a perspective view of the upper folding assembly for the frame as shown in Fig. 2, folded for packing.
  • Fig. 4 is a perspective view of the upper folding assembly for the frame as shown in Fig. 2, partially unfolded.
  • Fig. 5 is a perspective view of the upper folding assembly for the frame as shown in Fig. 2, further unfolded.
  • Fig. 6 is a perspective view of the upper folding assembly for the frame as shown in Fig. 2, further unfolded and standing upright.
  • Fig. 7 is a perspective view of the upper folding assembly for the frame as shown in Fig. 2, standing upright further unfolded.
  • Fig. 8 is a perspective view of the upper folding assembly for the frame as shown in Fig. 2, standing upright completely unfolded.
  • Fig. 9 is a perspective view of a Peak Bracket.
  • Fig. 10 is a perspective view of the Peak Bracket shown in Fig. 9 partially in cross-section, showing chord connections, peak hinge, and sliding lock mechanism with lockout feature.
  • Fig. 11 is a perspective view of a detail of the sliding lock mechanism with lockout feature.
  • Fig. 12 is a perspective view of the chord knee bracket.
  • Fig. 13 is a perspective view partially in cross-section of the chord knee bracket of Fig. 12 showing the sliding lock mechanism with lockout feature.
  • Fig. 14 is a perspective view of a purlin knee bracket.
  • Fig. 15 is a detail front perspective view partially in cross-section of the purlin knee Bracket of Fig. 14, with sliding lock mechanism but no lockout feature.
  • Fig. 16 is a detail rear perspective view of an eave bracket.
  • Fig. 17 is a detail perspective view partially in cross-section of the eave bracket of Fig. 16.
  • Fig. 18 is a detail front perspective view of the eave bracket of Fig. 16 with a leg inserted.
  • Fig. 19 is a detail front perspective view in partial cross-section of the eave bracket of Fig. 18 with leg inserted, shown resting in place on the upper leg bosses.
  • Fig. 20A is a detail front perspective view of a leg assembly.
  • Fig. 20B is a detail front perspective view of a top portion of the leg assembly of Fig. 20A showing pinned bosses and a close haul wire hook for cover connection.
  • Fig. 21 A is a detail front view of a leg knee joint.
  • Fig. 21 B is a detail front view of the leg knee joint of Fig. 21 A partially in cross-section showing a locking slider.
  • Fig. 22 and 23 are perspective detail views of a quick release foot assembly.
  • Fig. 24 is a perspective view of the midspan chord.
  • Fig. 25 is a detail perspective view of the midspan chord knee joint.
  • Fig. 26 is a detail perspective view partially in cross-section showing the midspan chord knee joint with lock slider.
  • Fig. 27 is a perspective view of the midspan chord partially folded.
  • Fig. 28 is a perspective view of the midspan chord fully folded.
  • Fig. 29 is a perspective view of a telescoping wind kit post.
  • Fig. 30 is a detail perspective view of the wind kit post connection.
  • Fig. 31 is an isolated detail perspective view of the connecting bracket of the wind kit post.
  • Fig. 32 is an isolated detail perspective view of the connecting fastener on the chord for the wind kit post.
  • Fig. 33 is a detail perspective view of the wind kit foot.
  • Fig. 34 is a perspective view of the unfolded assembled frame for a two bay structure according to an embodiment of the invention.
  • Fig. 35 is a perspective view of the unfolded assembled frame for a four bay structure according to an embodiment of the invention.
  • Fig. 37 is a detail perspective view of one endwall for the cover shown in Fig. 36.
  • Fig. 38 is a detail perspective view of the barrel section for the cover shown in Fig. 36.
  • Fig. 39 is a detail perspective view of the second endwall for the cover shown in Fig. 36.
  • Fig. 40 is a detail perspective view of the exterior of a soft door assembly for the cover shown in Fig. 36.
  • Fig. 41 is detail perspective view of the interior of the soft door assembly for the cover shown in Fig. 36.
  • Fig. 42 is a perspective view of a completed cover for a two bay structure.
  • Fig. 43 is a perspective view of a completed cover for a four bay structure.
  • Fig. 44 is a perspective view of a removable insulation package for a single bay structure.
  • Fig. 45 is a perspective view of the endwall for the removable insulation package shown in Fig. 44, both endwalls being the same.
  • Fig. 46 is a perspective view of the barrel for the removable insulation package shown in Fig. 44.
  • Fig. 47 is a perspective view of the removable insulation package for a two bay structure.
  • Fig. 48 is a perspective view of the removable insulation package for a four bay structure.
  • Fig. 49 is a perspective view of a solar shade for use with the shelter shown in Fig. 36.
  • Fig. 50 is a perspective view of a winter fly for use with the shelter shown in Fig. 36.
  • Fig. 51 is a perspective view of a further embodiment of a tent-based shelter system designed for rapid erection and mobility to perform under adverse environmental conditions.
  • Fig. 52 is a perspective view of a 2-module frame used in the tent-based shelter system as shown in Fig. 51 .
  • Fig. 53 is a perspective view of the tent body for the 2-module frame used in the tent-based shelter system as shown in Fig. 51 with sections separated.
  • Fig. 54 is a perspective view of the assembled tent body for the 2-module frame used in the tent-based shelter system as shown in Fig. 51.
  • Fig. 56 is a detail perspective view of the peak bracket.
  • Fig. 57 is a perspective view of the leg element 350 in lowered position.
  • Fig. 58 is a perspective view of the leg element 350 in semi-raised position.
  • Fig. 59 is a perspective view of the leg element 350 in fully-raised position.
  • Fig. 60 is a detail perspective view of a frame leg socket at the end of an arch.
  • Fig. 61 is a detail perspective view of the frame leg socket shown in Fig. 60 with a leg element in place.
  • Fig. 62A-F is a series of schematic drawings illustrating the initial steps in the assembly process for the 2-module shelter.
  • Fig. 63A-G is a series of schematic drawings illustrating the steps in raising of the tent frame for the 2-module shelter.
  • Fig. 64 is a partial view of a purlin connection assembly according to an embodiment of the invention, before insertion of a purlin into a frame segment.
  • Fig. 65A is a partial view of the purlin of the purlin connection assembly of Fig. 64.
  • Fig. 65B is a partial view of the frame segment of the purlin connection assembly of Fig. 64.
  • Fig. 66A is a view of a spring of the purlin connection assembly of Fig. 64, wherein the spring is in its un-tensioned state.
  • Fig. 66B is a view of the spring of Fig. 66A, wherein the spring is in its tensioned state.
  • Fig. 67 is a partial view of the purlin connection assembly of Fig. 64 in an initially engaged position.
  • Fig. 68A-C is a partial side view, partial top view, and partial cross sectional top view, respectively, of the purlin connection assembly of Fig. 64 in a locked position.
  • FIG. 1 an unfolded frame assembly 10 for a one bay structure according to an embodiment of the invention is shown.
  • Unfolded frame assemblies 100 and 200 for two and four bay structures according to an embodiment of the invention are shown in Fig. 34 and 35.
  • Each frame assembly 10 comprises an upper section assembly 12 (Fig. 2) which includes fully attached folding purlins 14.
  • Frame assembly 10 also comprises peak brackets 16, eave brackets 17, chords 18, legs 20, wind kit posts 22, midspan chords 24, chord knee joints 26, purlin knee joints 28, and leg knee joints 30.
  • Such joints contain self-resetting lock mechanisms as described below. During set up they lock the joints into place without needing to be touched. Once unlocked they reset to automatically lock the joints into place on the next setup.
  • Peak bracket and chord joint locks contain a secondary feature which allows joints to be set into an unlocked position until the joint is bent, at which time the lock resets, ready to lock the joint into position on the next setup. This facilitates the pack up procedure, as multiple joint locks need not be manually held unlocked at the same time.
  • FIG. 3 shows the upper folding assembly 12 for the frame as shown in Fig. 1 and 2, folded for packing.
  • Fig. 4 one set of two folded chords 18 and one folded purlin 14 are rotated about the hinged peak bracket 16 to separate from the set of two folded chords 18 and two folded purlin 14.
  • Fig. 5 the chords 18 are unfolded by rotating at chord knee joints 26.
  • Fig. 6 the partially unfolded upper frame assembly is placed in an upright position and as shown in Fig. 7 purlins 14 are unfolded about hinged purlin knee joints 28, to reach the unfolded configuration shown in Fig. 8.
  • Peak brackets 16 are hingedly connected to chord 18 about axis 30.
  • the chord 18 When in the unfolded position shown in Fig. 9 and 10, the chord 18 is locked in place by pins 32 which are mounted on interior sliding locking frame 34 and extend through slots 36 in the sides of chords 18, and into slots 38. Pins 32 are biased by spring 40 into the locked position shown in Fig. 9. Pulling on cable 42 slides sub-frame 34 away from the peak bracket 16, releasing pin 32 from slot 38 and allowing chord 18 to rotate.
  • peak bracket joints, chord knee joints, purlin knee joints, and leg knee joints all contain self-resetting lock mechanisms. During set up they lock the joints into place without needing to be touched. Once unlocked they reset to automatically lock the joints into place on the next setup.
  • Peak brackets 16 and chord knee joints 26 contain a secondary lockout feature which allows joints to be set into an unlocked position until the joint is bent, at which time the lock resets, ready to lock the joint into position on the next setup. This assists the pack up procedure, as multiple joint locks didn't need to be manually held unlocked at the same time.
  • Lockout bars 44 permit the chords 18 to be kept in an extended unfolded position without locking. With reference to Fig. 11 , lockout bar 44 is hingedly mounted on pin 32 on sliding locking frame 34. It is biased to an upward position by spring 48. Head 46 is sized to move upwardly into slot 50 of chord knee joint 26 or slot 52 of peak bracket 16.
  • the operator can unlock the joint by allowing head 46 to extend into slot 50/52 to prevent the joint from re-locking while keeping the joint unfolded. Once the joint is bent, head 46 comes out of slot 50/52 at which time the lock resets, ready to lock the joint into position on the next setup.
  • Chord knee bracket shown in Fig. 12 and 13 operates in the same way as the peak bracket 16 using sliding locking frame 34.
  • Purlin knee joints 28, and leg knee joints 30 operate in the same manner as the chord knee bracket 26 and the peak bracket 16 without the secondary lockout feature.
  • Purlin knee bracket 28 is shown in Fig. 14.
  • Purlin sections 60, 62 are hingedly connected about axis 64. When in the unfolded position shown in Fig. 14 and 15, the purlin sections 60, 62 are locked in place by pins 66 which are mounted on interior sliding locking frame 68 and extend through slots 70 in the sides of the purlins, and into slots 72. Pins 66 are biased by spring 67 into the locked position shown in Fig. 14. Pulling on cable 69 slides locking frame 68, releasing pins 66 from slot 72 and allowing purlin sections 60, 62 to rotate.
  • Eave brackets 17 receive the upper end 21 of legs 20 through apertures 23.
  • the lower surface 25 of bracket 17 rests on upper leg bosses 27 when the legs are in place.
  • leg 20 may be provided with close haul wire j- hook 29 for cover connection.
  • leg knee joints 30 operate in the same manner as the chord knee bracket 26 and the peak bracket 16 without the secondary lockout feature.
  • Leg knee joint 30 is shown in Fig. 21 A and 21 B.
  • Leg sections 31 , 33 are hingedly connected about axis 35.
  • leg sections 31 , 33 are locked in place by pins 37 which are mounted on interior sliding locking frame 39 and extend through slots 41 in the sides of the legs 20, and into slots 43. Pins 37 are biased by spring 45 into the locked position shown in Fig. 21A. Pulling on boss 47 slides locking frame 39, releasing pins 37 from slot 43 and allowing leg sections 31 , 33 to rotate. This lock mechanism allows for a two-handed grip when lowering the shelter.
  • Fig. 22 and 23 show a quick release foot assembly 80 for attachment to legs 20.
  • Such quick release feet allow a high wind set up and tear down procedure, where the feet 80 are removed from the legs 20 before setup, attached to the shelter’s floor and securely anchored to the ground through apertures 84.
  • horizontal cylindrical extensions (not shown) on the legs 20 snap into slots 86 in the pre-anchored feet 80 to be held in place by spring-biased hinged arms 83, greatly reducing the risk of injury to personnel or damage to equipment.
  • High wind take down is the opposite of set up, where the shelter feet can be released from the leg assembly by using a foot to force open arms 83, which allows a steady two-handed grasp on the leg at all times.
  • Foot pads 80 are also sized to allow a low enough ground pressure, even with a snow loaded shelter, such that any ground capable of supporting a walking individual, or a vehicle driving on normal tires, is sufficient to support the shelter.
  • Midspan chords 24 are shown in Fig. 24 through 28.
  • Each chord 24 comprises a single folding element which, when unfolded as shown in Fig. 24, rests on upper frame assembly 12, with its central hinge 25 on peak purlin bracket 28 and its ends on lower purlin brackets 28.
  • the midspan chord knee joints 27 fold and lock/unlock the chord sections 91 , 93, 95, 97 in the same manner as the purlin knee joints 28, using cable 129 to unlock the joint.
  • a telescoping wind kit post 110 is illustrated in Fig. 29 through 33. Such posts can be attached to chords 18 at either end of the frame 10, in order to assist in securing the cover to the structure, as follows.
  • Each post 110 has a telescoping vertical post 112, the interior telescopic section being secured at its lower end to wind kit post foot 116.
  • the post 112 is provided with a bracket 113 having a keyhole slot 118 which engages a bolt 120 on chord 18.
  • the size of the modular structure can be increased by increasing the number of chords 18, purlins 14 and peak brackets 16 in the upper frame assembly 12, with proportionate increase in the number of legs 20 and midspan chords 24.
  • the resulting structure may thereby accommodate a two or four bays for equipment storage.
  • Fig. 36 illustrates a completed fabric cover 220 for the one bay structure whose frame 10 is shown in Fig. 1. It includes an endwall 222 shown in Fig. 37, a barrel section 224 shown in Fig. 38, and a second endwall 226 shown in Fig. 39.
  • a soft door assembly 227 may be used for doors 228, whose exterior is shown in Fig. 40 and interior in Fig. 41.
  • two barrel sections 224 are used and four are used for the four bay structure shown in Fig. 43.
  • Insulation 240 can be added to the structure as shown in Fig. 44 for a single bay structure. It comprises two insulation endwalls 242 for the removable insulation package shown in Fig. 45, both endwalls being the same.
  • the barrel 244 for the removable insulation package is shown in Fig. 46. Again for the two bay structure as shown in Fig. 47, two barrel sections 244 are used and four are used for the four bay structure shown in Fig. 48.
  • Fig. 49 illustrates a solar shade 250 for use with the one bay shelter shown in Fig. 36
  • Fig. 50 illustrates a winter fly 252 for use with the one-bay shelter.
  • Both assemblies are tensioned just at the gable ends with a parabolically curved wire rope which is anchored to the feet on the corner legs. This wire rope acts similarly to the main support cable in a tension bridge, only inverted. This makes fitment and proper tensioning simpler.
  • the fabric cover 220 can be attached after the frame has been erected.
  • Fabric cover 220 may be suspended from the frame elements using fasteners such as hooks or hook and loop fasteners 221 and in particular close haul j-hooks 29 at the eaves as previously noted above. Fabric dry bag style port closures are preferred. PALS (Pouch Attachment Ladder System)/ Modular Lightweight Loadcarrying Equipment i.e. PALS/MOLLE webbing attachment patches as universal hardware mounts may be incorporated. Universal webbing strip/patches may be sewn into the ceiling for attaching accessories such as air distribution ducts, lights, room dividers, etc. Glow in the dark, reversible, fabric exit signs may be used. Double layered windows allow visibility without losing insulating air gap between cover and insulation layer.
  • fasteners such as hooks or hook and loop fasteners 221 and in particular close haul j-hooks 29 at the eaves as previously noted above. Fabric dry bag style port closures are preferred. PALS (Pouch Attachment Ladder System)/ Modular Lightweight Loadcarry
  • Fig. 51 through 63 illustrate a further variation of a tent-based shelter system using rapidly deployable frame elements.
  • the leg elements are modified to facilitate set-up of the shelter particularly in high winds.
  • the leg elements comprise sliding rather than folding elements.
  • the main body of the leg is always the full length and the portion of the leg to which the roof frame attaches to is able to slide up and down the main leg body.
  • the roof section and attached tent fabric can be assembled at the ground level and attached to the slidable leg section in lowered position with the main leg sections secured to the ground at their base.
  • the roof and tent assembly can then be raised by sliding the slidable leg section up the main leg section. This facilitates assembling the tent, particularly in high winds.
  • midspan chords are replaced in the roof frame by removable purlins which run in the opposite direction to the midspan chords previously disclosed.
  • a tent-based shelter system designed for rapid erection and mobility to perform under adverse environmental conditions.
  • the system can be configured for example as a deployable command post, accommodation, medical facility or as operations and command centres for disaster relief, for example.
  • the shelter system breaks down into various packed bags that are small and light enough for users to carry and pack.
  • the different shelter modules provided in the system, using common components, are shown in Fig. 51 in a standard configuration, however the particular arrangement may be changed to suit the particular requirements of the deployment.
  • the system includes the following shelter modules: 4- module shelter 300; 2- module shelter 302; 1- module shelter 304; 4-Door Hub 306 for shelter interconnection; Vehicle Interface shelter 308; and entrance Vestibule 310.
  • the shelter system is a self-standing, external-frame all-weather tent system.
  • the tent frame is the structural component of the shelter and is external to the tent, with the tent body suspended under the frame. This external frame design provides significant advantage for deployment and tear-down timing.
  • the frame for the various modules is designed with a minimum number of unique parts.
  • the 2- module frame 301 is shown in Fig.
  • the illustrated 2- module shelter frame 301 shows the three-arch folding frame 301 supported on six telescoping legs 350 and four end stanchions 326.
  • the folding frame includes the arches 316, ridge beams 312, and eave beams 314. Each arch and beam section is hinged to allow folding for stowage.
  • the frame 301 is preferably constructed of powder coated aluminum for reduced weight and corrosion protection.
  • the basic frame assembly 301 in this embodiment consists of folding beams (horizontal elements that form the ridge beam 312 and eave beams 314), and folding arches 316 (sloping beams that join the ridge and eave beams 312, 314).
  • Each beam and arch has a latched hinge 318, 320 at its mid-point allowing the entire assembly to fold to minimize its size for transportation and storage as shown in Frig. 62A.
  • Arches 316 are hingedly connected to ridge beam 312 at peak brackets 328. Once the main frame is unfolded during deployment, separate removable purlins 322 are secured between the arches 316 to provide additional rigidity to the frame and support points for the roof fabric.
  • the beam and arch latched hinges 318, 320 comprise automatic spring-loaded latches which automatically lock into place during erection. These are constructed as disclosed in the previous embodiment.
  • the arch latches have a 'free' position during teardown, which resets itself into a primed position for subsequent deployment when the frame is fully collapsed. See Fig. 9-13.
  • the beam latches must be held open while they are initially folded. See Fig. 25, 26. [0101]
  • the frame 310 is supported on legs 350 that attach by inserting them into brackets 368 (Fig. 60) at the junction of each arch and eave beam 316, 314.
  • Separate endwall stanchions 326 attach to each end of the shelter to provide additional support for the end walls.
  • the modular purlins 322 are beam elements installed between the arches 316, parallel with the eave and ridge beams 312, 314.
  • the purlins 322 provide frame rigidity and support for the tent fabric.
  • Endwall stanchions 326 at the end walls provide additional support for the tent fabric and hard door if installed.
  • the tent body 330 as shown for the 2-module shelter in Fig. 53 is preferably made of military-grade fabric and integrates wall and roof sections.
  • the 1 -module, 2- module, and 4-module shelters use multi-part fabric bodies as shown in Fig. 53.
  • the multi-part bodies are composed of endwall sections 332 and barrel sections 334 where required to add length.
  • the 1- module shelter uses two endwall sections 332 directly joined together.
  • the 2- module shelter uses one barrel section 334 between the endwall sections 332 to provide the required length (as illustrated) and the 4- module shelter uses three barrel sections 334.
  • the endwall and barrel sections are joined using heavy-duty zippers 336 which start at the roof peak 338.
  • section roof panel edges are diagonal in order to facilitate a modular design with identical endwall and barrel sections 332, 334.
  • the connecting edges of each endwall and barrel are identical so that they may be joined in any sequence - there is no front or back orientation. This design simplifies deployment compared to other systems that have directional connections and must be oriented in a specific way in order to assemble.
  • Fig. 54 illustrates the assembled 2- module shelter 330 using one barrel section 334 between the endwall sections 332.
  • the endwall sections 332 preferably have two soft doors 331 , one on the end face and one on the sidewall section, each with a window panel and a window opening on each side of the door.
  • the soft doors may be replaced with hard doors if required.
  • the endwall sections 332 may incorporate two large sleeves 333 to accommodate external heating or air conditioning ducts. Two small sleeves 335 may also be incorporated to pass power and communication cables in and out of the shelter.
  • Each barrel section 334 preferably also has two soft doors 331 which can remain sealed, used as windows, or as connections to other modules in the complex.
  • An example of a shelter fly for the 2- module shelter is shown as 340 in Fig. 55.
  • FIG. 56 A detail perspective view of the peak bracket 328 is shown in Fig. 56. It receives the ends of ridge beams 312, of the 2- module shelter frame as shown or potentially of the extension frame for a 4- module shelter frame, and is provided with apertures 342 to accept ridge beams 312 and secure them by a hitch pin 344.
  • Fig. 57, 58 and 59 are perspective views of the leg element 350 in lowered, semi-raised and fully-raised positions respectively.
  • Leg element 350 consists of outer sliding leg element 352 with lifting handle 354 and spring-loaded lift handle latch 356, inner leg element 358 having latch slots 360 mounted on base 362 having base apertures 364.
  • Upper supporting horizontal leg latch bar 351 forms the upper end of a T- shaped spring loaded lever 355 which rotates about axis 353 to facilitate removal of the legs 350 from frame leg socket 368.
  • lift handle latch 356 slides out of the prior latch slot 360 and is then biased into the next higher latch slot 360 where it secures the leg element 352 until it is again moved upwardly.
  • Figure 60 is a detail perspective view of the frame leg socket 368 on arch 316. It has open front face 370 to receive the leg 350, so that bar latch 351 engages socket latch flanges 372 as shown in Fig. 61 .
  • sliding leg element 352 engages the tapered inner surface 374 of frame leg socket 368 so that arch bracket 368 and attached frame 310 is firmly supported on the sliding leg element 352.
  • FIG. 61 the sliding leg element 352 has been slid upwardly to the fully raised position on inner leg element 358.
  • An eye bolt 366 can be bolted to the upper edge of inner leg element 358 with an attached ratchet strap 367 to secure the frame corners to a stake.
  • the assembly process for the 2- module shelter.
  • the assembly process is essentially the same for all of the shelters, the difference being that the Vestibule, 4-Door Hub, and Vehicle Interface shelter use specific one-piece covers, and the 1 -module, 2-module, and 4-module shelters use two endwall sections 332 and 0, 1 or 2 barrel sections 334.
  • the shelter fabric sections are laid out on the ground in their intended locations and joined by aligning the zipper starting points in the middle at the roof peak, and closing the zippers a short distance.
  • the folded roof frame (Fig. 62A) is then deployed before proceeding with joining the remainder of the fabric.
  • the frame is unfolded on the ground adjacent to one end of the laid-out shelter fabric to allow it to be expanded out over the fabric (Fig.
  • each purlin may have a T-shaped head to slide into securement slots in the sides of arches 316.
  • the roof fabric is then further secured to the frame arches 316 and purlins 322, and fly 340 is centered over the frame 301.
  • the raising of the frame 301 is illustrated in Fig. 63A-G.
  • the frame with attached fabric is positioned on the ground as shown in Fig. 63A.
  • the first side of the frame is lifted and the collapsed legs 350 inserted into the frame arch brackets 368 (Fig. 63B) so that upper latch 351 is positioned in socket latch flanges 372.
  • the second side of the frame is lifted and the collapsed legs 350 similarly inserted into the frame arch brackets 368 on the second side of the frame (Fig. 63C).
  • the frame 301 is now supported off the ground with the shelter fabric suspended below as shown in Fig. 63D.
  • the bases 362 of the legs 350 can be secured to the ground at each stage of the setup as required using takes through apertures 364 of each base.
  • the handles 354 on the legs 350 the frame is lifted further, ensuring the latches 356 fully engage the leg tube slots 360 (Fig. 63E).
  • the shelter may be raised incrementally, one side at a time, or fully, both sides at once, depending on the number of personnel available to lift, to the position shown in Fig. 63F and G.
  • Fig. 64 to Fig. 68 illustrate a purlin connection assembly 400 according to an embodiment of the invention.
  • Purlin connection assembly 400 permits easy, rapid and secure locking attachment and detachment between a purlin and a frame segment.
  • a frame segment may be, or may be part of, a chord (e.g. chord 18), a midspan chord (e.g. midspan chord 24) or an arch (e.g. arch 316), as described herein.
  • a purlin may be a purlin section (3.g. purlin section 69, 62) as described herein.
  • Purlin connection assembly 400 includes a purlin 401 , frame segment 403 and a spring 410.
  • Purlin 401 is shown in the illustrated embodiment as attaching to a sidewall of frame segment 403. In other embodiments purlin 401 may attach to a bottom wall or top wall of frame segment 403.
  • Purlin 401 has an end face 415 with a protrusion 402 projecting therefrom.
  • protrusion 402 projects from an approximate middle of end face 415.
  • protrusion 402 may be higher or lower along the vertical extent of end face 415.
  • Protrusion 402 has a neck 417 connected to end face 415, and a flared head 419 at the other end.
  • flared head 419 and neck 417 of protrusion 402 may have a T-shaped cross-section.
  • Neck 417 has a height 418 and flared head 419 has a height 416 greater than height 418 of neck 417.
  • Length 430 of neck 417 is greater than the thickness of the wall of frame segment 403 to which purlin 401 attaches.
  • Purlin 401 has a width 427.
  • Protrusion 419 has a width 432. Width 432 of protrusion 419 may the same as or less than width 427 of purlin 401 in some embodiments.
  • Frame segment 403 has a laterally extending slot 404 for receiving purlin 401 .
  • Slot 404 includes a first end 405 and a second end 406.
  • First end 405 is larger than second end 406 and a taper section 428 may be disposed therebetween.
  • first end 405 has a height 423 that greater than a height 425 of second end 406. Height 423 of first end 405 is also greater than height 416 of flared had 419 of protrusion 402 so that protrusion 402 can be inserted through first end 405.
  • Second end 406 is greater than height 418 of neck 417 of protrusion 402 but less than height 418 of flared head 419 of protrusion 402 so that protrusion 402 can be locking ly engaged in second end 406 as explained in greater detail herein.
  • First end 405 has a width 422 at least as wide as width 432 of protrusion 419.
  • second end 406 has a width 424 at least as wide as width 432 of protrusion 419.
  • Slot 404 accordingly has a width 426 at least twice width 432 of protrusion 419.
  • Frame segment 403 also has button holes 407A and 407B.
  • Button hole 407A is located above first end 405. In other embodiments button hole 407A may be located below first end 405.
  • Button holes 407A and 407B are separated by a distance 421. Distance 421 is greater than width 427 of purlin 402.
  • Fig. 66A and 66B depict spring 410.
  • Spring 410 can be made of an elastic material such as sheet metal.
  • Spring 410 is installed in an interior 409 of frame segment 403.
  • spring 410 is shown in its uncompressed state.
  • Spring 410 has arms 413 with a first button 411 A and a second button 411 BA.
  • the illustrated embodiment shows spring 410 with a pair of buttons (411A and 411 B, and 412A and 412B) on each arm 413, however other embodiments may have buttons on only one arm of the spring.
  • the spring may be other than a V- shape so long as the spring buttons are outwardly biased, and a means is provided between the first button and the second button that allows depressing of the second button to cause the first button to simultaneously retracts inward.
  • the rigid connection between first button 411 A and second button 411 B results in the retraction of first button 411 A when second button 411 B is depressed.
  • Fig 66B depicts spring 410 in its compressed state.
  • Spring 410 is in its compressed state when installed in interior 409 of frame segment 403.
  • buttons 411 A and 411 B due to their outward bias project outwardly through respective button holes 407A and 407B of frame segment 403.
  • Fig. 64, 67 and 68 depict the connection and detachment process of purlin connection assembly 400.
  • purlin 401 is directed towards frame segment 403 in direction 429 such that protrusion 402 engages first end 405 of slot 404.
  • Spring 410 is pre-installed within frame segment 403 in its compressed state, with spring buttons 411 A and 411 B protruding from frame segment 403 through button holes 407A and 407B.
  • Fig. 67 depicts purlin 401 pressed against frame segment 403.
  • protrusion 402 extends through first end 405 of slot 404, allowing end face 415 of purlin 402 to depress second button 411A inwardly into frame segment 403, so that purlin 401 abuts against the wall of frame segment 403. Purlin 401 can then be slid in direction 408 to lock purlin 401 and frame segment 403 together.
  • Fig. 68A to 68C depict purlin 401 in a locked position.
  • end face 415 of purlin 401 no longer contacts first button 411 A, allowing first button 411 A to protrude again from frame segment 403 as shown in Fig. 68B and 68C.
  • the protrusion of first button 411 A after sliding purlin 401 in direction 408 prevents purlin 401 from moving back in a direction opposite to direction 408.
  • First button 411 A and second button 411 B thus flank purlin 401 , providing lateral locking of purlin 401 to frame segment 403.
  • Fig. 68C is a cross sectional view of purlin 401 and frame segment 403 in the locked position.
  • Fig. 68C depicts protrusion 402 locked within second end 406 of slot 404.
  • Flared head 419 of protrusion 402 secures purlin 401 in the direction perpendicular to frame segment 403, that is, purlin 401 cannot be pulled out of slot 404 while positioned at second end 406 because height 420 of flared head 419 is greater than height 425 of second end 406.
  • buttons 411 A and 411 B secure purlin 401 in the direction parallel to frame segment 403.
  • second button 411 B is depressed into frame segment 403. Depressing second button 411 B causes first button 411 A to retract into frame segment 403, as buttons 411A and 412A are rigidly connected by spring 410. As first button 411A retracts, purlin 401 can be slid into first end 405 of slot 404. Sliding purlin 401 into first end 405 of slot 404 allows protrusion 402 to be released from slot 404, since height 423 of first end 405 is greater than height 420 of flared head 419, allowing purlin 401 to be detached from frame segment 403.

Landscapes

  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Tents Or Canopies (AREA)
  • Joining Of Building Structures In Genera (AREA)
EP22854816.0A 2021-08-09 2022-07-13 Schnell einsetzbares modulares schutzraumsystem Pending EP4384679A1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US17/397,900 US11746555B2 (en) 2016-01-26 2021-08-09 Rapidly deployable modular shelter system
PCT/CA2022/051090 WO2023015373A1 (en) 2021-08-09 2022-07-13 Rapidly deployable modular shelter system

Publications (1)

Publication Number Publication Date
EP4384679A1 true EP4384679A1 (de) 2024-06-19

Family

ID=85199657

Family Applications (1)

Application Number Title Priority Date Filing Date
EP22854816.0A Pending EP4384679A1 (de) 2021-08-09 2022-07-13 Schnell einsetzbares modulares schutzraumsystem

Country Status (3)

Country Link
EP (1) EP4384679A1 (de)
CA (1) CA3228416A1 (de)
WO (1) WO2023015373A1 (de)

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB668936A (en) * 1949-02-23 1952-03-26 Henri Jacques Marc Lambert Improvements in or relating to releasable fastenings
US3055462A (en) * 1960-10-21 1962-09-25 Bathey Mfg Company Self-locking connection for structural members
US4528998A (en) * 1984-11-07 1985-07-16 Jung Corporation Button latch for telescoped tubes
US6241109B1 (en) * 1999-02-05 2001-06-05 Interlake Material Handling, Inc. Load lock for rack
US20080302747A1 (en) * 2007-06-08 2008-12-11 Nance David W Lock for shelving assembly
US8028846B2 (en) * 2008-09-05 2011-10-04 Target Brands, Inc. Flexible shelving system
CN103376847A (zh) * 2012-04-19 2013-10-30 鸿富锦精密工业(深圳)有限公司 固定装置组合

Also Published As

Publication number Publication date
CA3228416A1 (en) 2023-02-16
WO2023015373A1 (en) 2023-02-16

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