CN217480936U - Movable folding hangar - Google Patents

Abstract

The utility model discloses a portable folding hangar, include the portable side wall that sets up relatively on at least two sides and install the folding roof at the top of portable side wall, folding roof with portable side wall is articulated, just many vertical lift electric putter (4) of vertical installation on the portable side wall, each vertical lift electric putter's telescopic link top and the one end fixed connection who suspends cable (5) in midair, suspend the other end of cable in midair with folding roof connects. The utility model discloses it is fast to establish, and can wholly walk to remove, can restore fast after destroying.

Description

Movable folding hangar

Technical Field

The utility model relates to an aircraft hangar, especially a portable folding hangar.

Background

At present, the airplane hangar is generally fixed, and is mostly of a steel-concrete or metal structure. The fixed hangar is firm and durable, but has a long construction period, high construction cost, incapability of flexibly arranging, low site utilization efficiency and long repair time once being damaged.

At present, the inflatable hangar is adopted to meet the requirement of temporary parking of the small airplane. The common inflatable hangar is fixed by inflating a hangar skin and installing counter weights at two sides of the hangar. However, the inflatable hangar has smaller size, cannot meet the parking requirement of large airplanes, cannot realize the function of quick unfolding and quick folding, and has poor structural stability, poor wind resistance and high maintenance cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that, to current fixed hangar construction cycle length, construction cost is high, unable flexible deployment, place utilization efficiency is low, in case destroy unable short time and repair, inflatable hangar can not satisfy large aircraft parking needs, can not realize expandeing fast, quick folding, and structural stability is poor, can not wholly walk to remove etc. not enough, provide one kind can expand fast, quick folding, not only can wholly walk to remove, moreover can flexible deployment, the portable folding hangar that place utilization efficiency is high.

In order to solve the technical problem, the utility model provides a portable folding hangar, include the portable side wall that at least two sides set up relatively and install the folding roof at the top of portable side wall, its structural feature lies in:

the folding roof comprises a plurality of groups of transverse connecting rods arranged along the transverse direction of the hangar and a plurality of groups of longitudinal connecting rods arranged along the longitudinal direction of the hangar, each group of transverse connecting rods is formed by sequentially hinging at least two sections of rigid rod pieces, and two ends of each transverse connecting rod are respectively hinged with one movable side wall;

the upper part of the movable side wall is vertically provided with a plurality of vertical lifting electric push rods, each vertical lifting electric push rod is respectively arranged corresponding to a group of transverse connecting rods, the top end of a telescopic rod of each vertical lifting electric push rod extends out of the folding roof, one end of a suspension cable is fixedly connected with the top end of each vertical lifting electric push rod, and the other end of the suspension cable is fixedly connected with the side wall near the movable transverse connecting rods.

The movable side wall is of a lattice structure, members of the lattice structure are made of fiber reinforced materials or section steel materials, rod pieces of the lattice structure are L-shaped sections, a plurality of traveling pulleys are arranged at the bottom of the side wall, and the traveling pulleys are universal wheels; the lower part of the side wall is provided with a triangular walking support structure, four groups of the triangular walking support structure are symmetrically arranged at the bottom of the upright post, the bottom of the far end of the triangular walking support structure is provided with a walking pulley, and the walking pulley is a universal wheel; the roof is a folding roof which consists of a plurality of groups of transverse connecting rods and a plurality of groups of longitudinal connecting rods; each group of transverse connecting rods consists of a plurality of sections of rigid rod pieces which are connected by limiting hinges; the back positions of the limiting hinges are respectively provided with a limiting device, the limiting devices are made of channel steel bars with corresponding angles, one ends of the channel steel bars with corresponding angles are connected with the end parts of the transverse connecting rods in an adhering or riveting mode, and the other ends of the channel steel bars with corresponding angles are free surfaces; the head end and the tail end of the transverse connecting rod are respectively hinged with the movable side wall, a groove steel bar with a corresponding angle is arranged at the back of the hinge, one end of the groove steel bar with the corresponding angle is fixedly bonded at the end part of the transverse connecting rod, and the other end of the groove steel bar with the corresponding angle is a free surface; the longitudinal connecting rod is vertically arranged above the transverse connecting rod, and the longitudinal connecting rod and the transverse connecting rod are connected by adopting a special joint, bonding or clamping groove; the transverse connecting rod is made of a fiber reinforced composite material or an aluminum alloy material, and the longitudinal connecting rod is made of a fiber reinforced composite material; the folding roof is hinged with the side wall, a plurality of vertical lifting electric push rods are vertically arranged on the side wall, the vertical electric push rods and the transverse connecting rods are arranged in pairs, the top end of a telescopic rod of each vertical lifting electric push rod is fixedly connected with one end of a suspension cable, the other end of the suspension cable is fixedly connected with the side wall section adjacent to the transverse connecting rod of the folding roof, and the suspension cable is a Dinima rope made of high-strength high-modulus polyethylene fibers; the stable inhaul cable system is arranged on the inner side of the folding roof corresponding to each group of transverse connecting rods, each group of stable inhaul cable system consists of a fixed rod, four fixed pulleys, two manual winches and an inhaul cable, the stable inhaul cable is a Dinima rope made of high-strength high-modulus polyethylene fibers, penetrates through the fixed pulleys connected with the transverse connecting rods, and passes through the fixed pulleys fixed on the side walls to reach the manual winches at the bottoms of the side walls; the roof of the folding roof is a flexible skin which has the functions of light weight, high strength, water resistance, flame retardance and static resistance, and the flexible skin and the longitudinal connecting rod are connected in a seamless mode through buckles or nylon thread gluing; the movable side wall is driven by a plurality of balance driving vehicles arranged on the outer side of the side wall of the folding roof in a traction manner, and the tail parts of the balance driving vehicles are fixedly connected with the side wall; the balance driving vehicle is connected with the top of the movable side wall by a balance inhaul cable and is tensioned and fixed; after the mobile folding hangar is unfolded to be in place, the stable inhaul cable is tightened by the manual winch and locks the manual winch, the bottom of the side wall is locked by the ground lock, and the balance inhaul cable is a Dinima rope made of high-strength high-modulus polyethylene fibers.

The utility model discloses a set up portable side wall and folding roof, set up vertical lift electric putter on the portable side wall, vertical lift electric putter's top is connected with folding roof through suspending in midair the cable, folding roof is connected into can folding whole through special connected mode by multiunit transverse connecting rod and vertical connecting rod, transverse connecting rod's head and the tail both ends respectively with control two side wall tops and pass through special hinged joint, and then the walking through removing portable side wall, and electric putter's top pushes away, just can realize the horizontal quick expansion of hangar, it is folding fast, the flexible deployment requirement of adaptation. And simultaneously, the utility model discloses transversely expand quick folding portable folding hangar fast can a plurality of hangars integration arrange, arbitrary quantity combination, and the place utilization efficiency is high, and the structure size is big, and structural stability is good, can satisfy large aircraft parking needs, can restore fast, arrange fast after destroying.

Preferably, the folding roof comprises a plurality of groups of transverse connecting rods, a plurality of groups of longitudinal connecting rods and a flexible skin, each group of transverse connecting rods and the plurality of groups of longitudinal connecting rods which are vertically arranged are connected in a criss-cross mode to form a roof framework, and the flexible skin is covered on the roof framework.

Preferably, the vertical lifting electric push rod and the transverse connecting rod are arranged correspondingly, the top end of the electric push rod is fixedly connected with a suspension inhaul cable, and the other end of the suspension inhaul cable is connected with the middle section of the rigid rod piece of the transverse connecting rod, which is close to the movable side wall.

Preferably, a plurality of groups of stable cable systems are installed below the roof framework, each stable cable system is respectively arranged along one transverse connecting rod, each stable cable system comprises a fixed rod connected with the middle part of the roof framework, a plurality of fixed pulleys installed on the movable side wall and the transverse connecting rod, two manual winches installed on the movable side walls on two sides and a stable cable installed on the manual winches, one end of the stable cable is wound on one manual winch, the middle part of the stable cable penetrates through each fixed pulley, and the other end of the stable cable is wound on the other manual winch.

Preferably, the transverse connecting rod is made of fiber reinforced composite materials or aluminum alloy materials, the longitudinal connecting rod is made of fiber reinforced composite materials, the composite material reinforcement is fibers, the fibers are glass fibers or basalt fibers, the composite material matrix is high molecular polymers (resin), the cross sections of composite material rod pieces adopted by the transverse connecting rod and the longitudinal connecting rod are in a box shape, a round shape or a U shape, and pultrusion or compression molding is adopted.

Preferably, the joints of the transverse connecting rods and the longitudinal connecting rods are connected in a bonding or special clamping groove mode, so that the folding roof can be quickly installed and repaired after being damaged.

Preferably, each section of rigid rod piece of the transverse connecting rod is connected through a limiting hinge, and the limiting hinge is connected with the transverse connecting rod in an adhesion or sleeve mode.

Preferably, the back of the limit hinge is provided with a limit device, the limit device is made of a channel steel bar corresponding to the unfolding angle of the limit hinge, and the lower surface of the limit device is connected with the transverse connecting rod in a bonding or welding manner.

Preferably, the movable side wall is a lattice structure composed of upright columns and pull rods for connecting the upright columns, and the bottom of the upright columns of the movable side wall is provided with traveling wheels with locking structures. The traveling wheels are preferably universal wheels, and the universal wheels are locked after the movable side wall travels in place.

Preferably, a plurality of triangular walking bearing structures are installed on the lower portion of the upright post of the movable side wall to increase the stability of the side wall, the walking bearing structures are symmetrically arranged on the lower portion of the upright post, and walking wheels are arranged at the bottom of the far wall end of each walking bearing structure. The traveling wheels are preferably universal wheels, and the universal wheels are locked after the movable side walls travel in place.

Preferably, the movable side wall is driven by a plurality of tractors arranged on the outer side of the side wall of the folding roof in a traction manner, the tail parts of the tractors are fixedly connected with the movable side wall, the movable side wall is driven to move forwards and backwards transversely by the traction of the tractors, horizontal tension force is applied to the folding roof by the front and back movement of the movable side wall, and the folding roof is driven to be unfolded and folded.

Preferably, the vertical lifting electric push rod is vertically and fixedly connected to the side wall corresponding to the position of the transverse connecting rod, the vertical lifting electric push rod is started to enable the telescopic rod of the vertical lifting electric push rod to correspondingly move upwards and downwards along with the expansion and folding of the movable side wall, the transverse connecting rod is pulled up through the suspension inhaul cable when the telescopic rod of the vertical lifting electric push rod moves upwards, the foldable roof is completely expanded, the suspension inhaul cable is gradually loosened when the telescopic rod of the vertical lifting electric push rod moves downwards, and the transverse connecting rod is folded when the movable side wall moves backwards, so that the foldable roof is folded.

Preferably, the balance driving vehicle is connected with the top of the movable side wall by a balance cable and is tensioned and fixed. After portable folding hangar expandes to take one's place, the side wall bottom is locked by the ground lock, or places concrete gravity piece along both sides corner interval, set up the anchor ring on the concrete gravity piece, anchor ring and side wall fixed connection to the comprehensive action through stabilizing cable system and stop device prescribes a limit to the deformation and the displacement on roof, so that the utility model discloses the structure of hangar is more stable, can adapt to adverse circumstances such as open-air strong wind, torrential rain.

Compared with the prior art, the beneficial effects of the utility model are that:

1. light-weighted, the modularization of structure, the assembly construction is simple quick: the hangar is mainly composed of components, novel materials such as fiber reinforced composite materials are used, the hangar is formed by a specific process, the hangar is light in weight and high in strength, standardization and modularization are easy to realize, the hangar is simple and quick to assemble and construct, and quick deployment and repeated use can be realized.

2. The construction cost is low, the construction speed is fast: the movable folding hangar adopts a lightweight structure, saves materials, has excellent performance, low construction cost and high construction speed.

3. The working system is simple and efficient, all parts are stressed clearly, and the whole body is coordinated and linked, so that the functions of whole movement and quick unfolding and folding are realized.

4. The system has high structural stability, and the side wall and the roof of the folding hangar are kept in a high-stability state in the unfolding and moving states through the comprehensive action of the limiting device, the stable cable system and the balanced cable.

5. The size is customized, and the adaptability is strong: the movable folding hangars in various models and specifications can be customized according to the sizes of various airplanes, so that the requirements of various airplane parking are met;

6. the whole replacement and repair are rapid: once the damage occurs, a local repair or integral replacement mode can be adopted to realize quick repair and quick recovery;

7. flexible, a storehouse is multi-purpose, and the place utilization efficiency is high: the garage can park a plurality of large airplanes side by side after being unfolded, provides indoor environment for the inspection, maintenance and the like of the airplanes, can vacate a field for other use after being folded, and realizes flexible and efficient use of the field;

8. the hangar can be used singly, and can also realize the integrated arrangement of a plurality of hangars in a mode of sharing side walls by adjacent hangars according to the number of parked airplanes, so that the hangars are used jointly, the combination form is flexible, the site adaptability is good, and the site is parked by full utilization.

In conclusion, the utility model has the advantages of low construction cost, fast construction speed, fast deployment and repeated use; a plurality of hangars can be integrally arranged, can be combined in any number, and are flexible to arrange and good in site adaptability; the movable trolley can integrally travel and move, is integrally replaced, can be quickly repaired after being damaged, and is quickly put into use; the structure has large size and high stability, and can meet the parking requirement of large airplanes; the airplane parking garage is flexible and multipurpose, can greatly improve the use efficiency of the field, and meets the requirement of airplane parking at ordinary times to the greatest extent.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic cross-sectional view of the single-link folding hangar with fully-expanded cross-section.

Fig. 2 is a schematic view of the expanded cross section of the single-link folding hangar part of the utility model.

Fig. 3 is a schematic view of a fully folded cross section of the single-link folding hangar of the present invention.

Fig. 4 is the schematic view of the connection structure of the folding roof and the movable side wall of the single-link folding hangar of the utility model.

Fig. 5 is a schematic view of the top view structure of the folding roof of the single-link folding hangar of the present invention.

Fig. 6 is a schematic cross-sectional view of a fully unfolded four-link folder.

Fig. 7 is a schematic partial cross-sectional view of the folding roof of the present invention.

Fig. 8 is a schematic cross-sectional structure diagram of the transverse connecting rod and the longitudinal connecting rod, wherein a is a hollow round rod, b is a groove-shaped rod, and c is a hollow square rod.

Fig. 9 is a schematic view of a connection structure of a transverse link and a longitudinal link, in which a is an adhesive manner and b is a card slot manner.

Fig. 10 is a schematic view of a connection structure of the check hinge, the check device and the transverse link (bonding method).

FIG. 11 is a schematic view of the transverse link connected to the movable side wall via a stop hinge.

Fig. 12 is a schematic view of a snap-fit structure of the flexible skin and the longitudinal link, in which a is the snap-fit structure of the groove-shaped longitudinal link and b is the snap-fit structure of the hollow round rod.

Fig. 13 is a schematic cross-sectional structure of a drain tank.

Fig. 14 is a schematic structural view of a drainage riser, wherein a is a front view and b is a side view.

Fig. 15 is a schematic structural view of the movable side wall, in which a is a front view and b is a top view.

Fig. 16 is a schematic view showing a connection structure of a suspension cable and a vertically movable electric push rod.

Fig. 17 is a schematic view of the connection structure of the movable side wall and the vertical lifting electric push rod.

Fig. 18 is a schematic structural view of a walking support structure of a movable side wall, wherein a is a top view and b is a front view.

Fig. 19 is a schematic structural view of a stabilizing cable system.

In the figure: (1) folding roof, (2) movable side wall, (3) walking wheel, (4) vertical lifting electric push rod, (5) suspension cable, (6) stable cable system, (7) balance cable, (8) tractor, (9) adhesive layer, (10) counterweight, (1-1) transverse connecting rod, (1-2) limit hinge, (1-3) flexible skin, (1-4) longitudinal connecting rod, (1-5) drainage groove, (1-6) drainage vertical pipe, (1-7) pipe hoop, (1-8) fixed buckle, (1-9) limit device, (2-1) walking support structure, (2-2) upright column, (2-3) pull rod, (4-1) mounting hole, (6-1) fixed rod, (6-2) fixed pulley, (6-3) manual winch, And (6-4) stabilizing the inhaul cable.

Detailed Description

The following description of the present invention is further described with reference to specific preferred embodiments, but the scope of the present invention is not limited thereto.

For convenience of description, the relative positional relationship of the components, such as: the descriptions of the upper, lower, left, right, etc. are described with reference to the layout directions of the drawings in the specification, and do not limit the structure of the present patent.

As shown in fig. 1-3, the first embodiment of the mobile folding hangar of the present invention comprises a folding roof 1, a mobile side wall 2, a walking wheel 3, a vertical lifting electric push rod 4, a suspension cable 5, a stable cable system 6, a balance cable 7 and a tractor 8.

As shown in fig. 4-7, the folding roof 1 is composed of transverse connecting rods 1-1 made of light high-strength materials, limiting hinges 1-2, flexible skins 1-3, longitudinal connecting rods 1-4, drainage channels 1-5 and drainage vertical pipes 1-6. The transverse connecting rods 1-1 are provided with a plurality of groups, and the transverse connecting rods 1-1 of each group are arranged in parallel along the transverse direction of the hangar. In this embodiment, each group of transverse connecting rods 1-1 is formed by connecting four sections of rigid rods through a limit hinge 1-2 in sequence, obviously, the utility model discloses each group of transverse connecting rods 1-1 is not limited to being formed by connecting four sections of rigid rods end to end, and the quantity of rigid rods is two at least, and the specific quantity is decided according to the required hangar width and the length of rigid rods. The longitudinal connecting rods 1-4 are also provided with a plurality of groups, and each group of longitudinal connecting rods 1-4 is vertically arranged relative to the transverse connecting rods 1-1. The transverse connecting rods 1-1 and the longitudinal connecting rods 1-4 are connected in a criss-cross mode to form a roof framework, and flexible skins 1-3 cover the upper surface of the roof framework.

As shown in fig. 9 to 11, the transverse connecting rod 1-1 is preferably made of a fiber reinforced composite material or an aluminum alloy or magnesium alloy material and is formed by a die pressing or pultrusion process.

The limiting hinge 1-2 is arranged below the transverse connecting rod 1-1 and is connected with the transverse connecting rod 1-1 or the longitudinal connecting rod in a bonding or sleeve mode. And the limiting device 1-9 is arranged on the flexible skin 1-3 corresponding to the limiting hinge 1-2, and a hinged shaft of the limiting hinge 1-2 is connected with the limiting device 1-9 into a whole. The limiting devices 1-9 are made of hard materials, such as channel steel materials.

The flexible covering 1-3 is made of multifunctional flexible tarpaulin and is fixedly connected with the longitudinal connecting rod 1-4 buckles or nylon thread gluing.

As shown in fig. 12, the longitudinal links 1-4 are formed by molding or pultrusion of fiber reinforced composite, and the longitudinal links 1-4 and the transverse links 1-1 are connected at the joints by dedicated joints, adhesives or slots.

As shown in fig. 13 and 14, the rear part of the folding roof 1 is provided with drainage channels 1-5 along the transverse link 1-1 to collect rainwater on the roof. The lowest point of the drainage channel 1-5 is connected with a vertical drainage pipe 1-6 vertically arranged at the two ends of the movable side wall 2, so that the rainwater collected by the drainage channel 1-5 can be drained to a rainwater system in a site through the vertical drainage pipe 1-6. The transverse links 1-1 and the longitudinal links 1-4 preferably take the form shown in fig. 8 in cross section. The drainage grooves 1-5 and the drainage vertical pipes 1-6 are made of PE materials, the drainage grooves 1-5 are bonded on the outer sides of the transverse connecting rods 1-1 at the front end and the rear end of the folding roof 1, and the drainage vertical pipes 1-6 are fixed on the outer sides of the upright columns at the two ends of the movable side wall 2 through pipe hoops.

As shown in fig. 15, the movable side wall 2 has at least two sides, and each movable side wall 2 is of a lattice structure, and the lattice structure is composed of columns and tie rods connecting the columns. The upright posts and the pull rods of the lattice structure are both made of fiber reinforced composite materials or section steel materials and are formed through die pressing or pultrusion processes. The two-sided movable side walls 2 are arranged in parallel relatively, and the folding roof 1 is arranged at the top of the two-sided movable side walls 2, so that a parking bin is formed in a space surrounded by the two-sided movable side walls 2 and the folding roof 1. The bottom of the movable side wall 2 is provided with a walking wheel 3, and the walking wheel 3 preferably adopts a universal wheel with a locking structure. After the movable side wall 2 walks in place, the walking wheels 3 are locked, the bottom of the movable side wall 2 is fixed by a ground lock, or concrete gravity blocks are arranged on two sides of the movable side wall 2 at intervals, anchor rings are arranged on the concrete gravity blocks, and the anchor rings are fixedly connected with the movable side wall 2.

As shown in fig. 16 and 17, the vertical lifting electric push rod 4 is a special large-stroke electric push rod, and the vertical lifting electric push rod 4 is vertically arranged on the movable side wall 2 and is paired with the transverse connecting rod 1-1 of the folding roof 1. The suspension inhaul cable 5 is composed of a Dyneema rope made of high-strength high-modulus polyethylene fibers, one end of a rope body is connected and fixed in a mounting hole 4-1 in the top end of a telescopic rod of the vertical lifting electric push rod 4, and the other end of the rope body is connected with the middle part of a rigid rod piece of the transverse connecting rod 1-1 which is close to the movable side wall 2. When the hangar is opened, the telescopic rod of the vertical lifting electric push rod 4 moves upwards, and the folding roof 1 is pulled through the suspension inhaul cable 5 until the folding roof 1 is opened in place. When the hangar is folded, the telescopic rod of the vertical lifting electric push rod 5 moves downwards, the folding roof 1 gradually contracts, and then the movable side wall 2 moves inwards, so that the rapid transverse folding of the hangar can be realized.

As shown in fig. 18, the feet of the movable side wall 2 are provided with triangular walking support structures 2-1, and the walking support structures 2-1 are fixedly connected with the movable side wall 2 to increase the stability of the movable side wall 2 during walking and moving. And the lower part of the far wall end of the walking support structure 2-1 is provided with a walking wheel, and the walking wheel preferably adopts a universal wheel with a locking structure.

As shown in fig. 19, a plurality of groups of stabilizing cable systems 6 are installed under the folding roof 1. Each group of the stable inhaul cable systems 6 consists of a fixed rod 6-1, four fixed pulleys 6-2, two manual winches 6-3 and a stable inhaul cable 6-4. The stabilizing inhaul cable system 6 is arranged corresponding to the transverse connecting rod 1-1, the fixing rod 6-1 is fixedly arranged on the transverse connecting rod or the longitudinal connecting rod in the middle of the folding roof 1, the two fixed pulleys 6-2 are symmetrically arranged at two positions of the same group of transverse connecting rods 1-1 relative to the fixing rod 6-1, the two fixed pulleys 6-2 are respectively arranged on the movable side wall 2 corresponding to the transverse connecting rod 1-1, the middle part of the stabilizing inhaul cable 6-4 bypasses the four fixed pulleys 6-2 and the positioning ring at the bottom of the fixing rod 6-1, and two ends of the stabilizing inhaul cable 6-4 are respectively wound on a winding drum of a manual winch 6-3 arranged at the foot part of the movable side wall 2 after bypassing the fixed pulleys 6-2 fixed on the movable side wall 2.

As shown in fig. 1-3, tractors 8 are respectively disposed on the outer sides of the two movable side walls 2, and balance cables 7 are respectively connected between the two movable side walls 2 and the tractors 8. Specifically, one end of the balance cable 7 is fixedly connected with the top end of the movable side wall 2, and the other end of the balance cable is fixedly connected with a manual winch on a tractor 8 on the ground of the parking bin. The balance cable 7 is preferably a denim rope made of high-strength high-modulus polyethylene fiber.

The tractor 8 is a special motor vehicle or a modified truck, the body of the tractor is perpendicular to the movable side wall 2, the head of the tractor faces outwards, and the tail of the tractor is fixedly connected with the outer side of the movable side wall 2.

The utility model discloses transversely expand fast folding portable folding hangar use time fast, through the drawing of tractor 8, drive portable side wall 2 walking, and then by the expansion or folding of portable side wall 2 drive folding roof 1, realize that the whole quick expansion of hangar or folding.

When the hangar is opened, the tractor 8 advances to drive the movable side wall 2 to walk outwards to a proper position, the walking wheels 3 on the bottom of the movable side wall 2 are locked, and the top of the movable side wall 2 is tightened and locked through the balance inhaul cable 7; then, because the folding roof 1 is unfolded basically in place at the moment, the vertical lifting electric push rod 4 is started to move the telescopic rod upwards, and then the suspension cable 5 moves upwards and drives the transverse connecting rod 1-1 connected with the suspension cable to move upwards, so that the folding roof 1 is completely unfolded in place; and finally, tightening and locking the stable cable 6-4 through the manual winch 6-3, and completing the opening of the hangar. When the hangar is folded, firstly, the telescopic rod of the vertical lifting electric push rod 5 goes down to loosen the suspension cable 5, then the tractor 8 goes back to drive the two movable side walls 2 to move oppositely to realize quick transverse folding of the folding roof 1, after the folding roof 1 is folded in place, the walking wheels 3 at the bottoms of the movable side walls 2 are locked, and the balance cable 7 and the stable cables 6-4 are loosened to finish the folding of the hangar.

As shown in fig. 6, the second embodiment of the present invention is substantially the same as the first embodiment in terms of the structure, and the difference is that the mobile side wall 2 is shared by adjacent hangars, so that a plurality of folding hangars can be used in parallel.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can use the technical content disclosed above to make many possible variations and modifications to the technical solution of the present invention, or to modify the technical solution of the present invention into equivalent embodiments with equivalent variations, without departing from the scope of the present invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical matters of the present invention should fall within the protection scope of the technical matters of the present invention, all without departing from the contents of the technical matters of the present invention.

Claims (10)

1. A movable folding hangar comprises at least two movable side walls (2) which are arranged oppositely and a folding roof (1) which is arranged at the top of the movable side walls,

the folding roof comprises a plurality of groups of transverse connecting rods arranged along the transverse direction of the hangar and a plurality of groups of longitudinal connecting rods arranged along the longitudinal direction of the hangar, each group of transverse connecting rods is formed by sequentially hinging at least two sections of rigid rod pieces, and two ends of each transverse connecting rod are respectively hinged with one movable side wall;

a plurality of vertical lifting electric push rods (4) are vertically arranged at the upper part of the movable side wall, each vertical lifting electric push rod is correspondingly arranged with a group of transverse connecting rods, the top ends of telescopic rods of the vertical lifting electric push rods extend out of the folding roof, one end of a suspension cable (5) is fixedly connected with the top ends of the vertical lifting electric push rods, and the other end of the suspension cable is fixedly connected with the movable side wall near the transverse connecting rods.

2. The mobile folder garage of claim 1, wherein the folding roof includes a plurality of sets of the transverse links, a plurality of sets of the longitudinal links, and a flexible skin, each set of the transverse links criss-cross with each set of the longitudinal links to form a roof skeleton, the roof skeleton overlying the flexible skin.

3. The mobile folding hangar according to claim 2, characterized in that a plurality of groups of stabilizing cable systems (6) are arranged under the roof framework, each stabilizing cable system is respectively arranged along one transverse connecting rod, and each stabilizing cable system comprises a fixed rod (6-1) connected with the middle part of the roof framework, a plurality of fixed pulleys (6-2) arranged on the mobile side walls and the transverse connecting rods, two manual winches (6-3) arranged on the mobile side walls at two sides and a stabilizing cable (6-4) arranged on the manual winches, one end of the stabilizing cable is wound on one manual winch, the middle part of the stabilizing cable passes through each fixed pulley, and the other end of the stabilizing cable is wound on the other manual winch.

4. The mobile folder garage of claim 2, wherein the cross links and the vertical links are joined at their junctions by adhesive or snap-fit means.

5. The mobile folder according to claim 2, wherein the rigid rod members of the transverse link are connected by a limit hinge, and the limit hinge is connected with the transverse link by bonding or sleeving.

6. The mobile folding hangar as claimed in claim 5, wherein the folding roofs on the back of the limit hinges are respectively provided with limit devices, the limit devices are made of channel steel bars corresponding to the unfolding angles of the limit hinges, and the lower surfaces of the limit devices are connected with the transverse connecting rods in an adhesive manner.

7. The mobile folding hangar as claimed in claim 1, wherein the mobile side wall is a lattice structure composed of columns and pull rods for connecting the columns, and the foot ends of the mobile side wall are provided with road wheels with locking structures.

8. The mobile folding hangar as claimed in claim 7, wherein a plurality of triangular walking support structures are mounted on the lower portion of the mobile side wall, the walking support structures are symmetrically arranged at the bottom of the upright post, and walking wheels are arranged at the bottom of the far wall end of the walking support structures.

9. The mobile folding hangar as claimed in claim 1, wherein tractors are attached to the outside of the mobile side walls on either side of the folding roof.

10. The mobile folding hangar according to claim 9, characterized in that the top of the mobile side wall is connected with the adjacent tractor via a balancing cable (7) for fixing, after the mobile folding hangar is unfolded to place, the bottom of the mobile side wall is locked by a ground lock, or concrete gravity blocks are placed at both sides of the mobile side wall at intervals, and anchor rings are arranged on the concrete gravity blocks and fixedly connected with the mobile side wall.

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