CN211689965U - Bridge hanging basket - Google Patents

Abstract

The utility model relates to a construction operation appurtenance field specifically provides a bridge hanging flower basket, the bridge includes the first roof beam body of prefabricated and the second roof beam body, the first lateral part of the first roof beam body with form the construction region between the second lateral part of the second roof beam body, first lateral part has and is located the first reinforcing bar of construction region stretches out the end, the second lateral part has and is located the second reinforcing bar of construction region stretches out the end, first reinforcing bar stretch out the end with the second reinforcing bar stretches out and can pass through welded mode rigid coupling between the end, and this bridge hanging flower basket includes: a basket body formed with a working space capable of freely accommodating an operator and having a support structure allowing the operator to be continuously present in the working space; and a docking structure provided to the basket body and capable of being respectively fitted with the first beam and the second beam in a state where welding construction is performed so as to locate at least a portion of the basket body at the construction area. The utility model discloses a bridge hanging flower basket has improved the security of construction operation.

Description

Bridge hanging basket

Technical Field

The utility model relates to a construction operation appurtenance, concretely relates to bridge hanging flower basket.

Background

Because the bridge usually has the characteristics of large span, the bridge generally adopts the construction mode that the block prefabrication of the beam body and the on-site splicing are combined at present. Specifically, a plurality of small-scale sub-beams are prefabricated according to analysis and calculation, and then the plurality of sub-beams are spliced into a whole in a wet joint construction mode. The construction mode of the wet joint is as follows: when the single sub-beams are prefabricated, the wet joint parts with the outwards extending reinforcing steel bars are reserved on the sides of the single sub-beams corresponding to the wet joints, after the plurality of sub-beams are erected in place according to the preset directions, the reinforcing steel bars of the wet joint parts on the adjacent sub-beams needing to form the wet joints are welded, and then the welded reinforcing steel bars are cast in situ on the basis, so that the plurality of sub-beams form a whole in a local area according to the requirement.

Under the condition that the sub-beams needing wet joints are in a suspended state, the welding operation can be guaranteed only by enabling an operator to be suspended at a certain height continuously and stably. In the current highway bridge construction operation, workers in site construction usually use steel bars or profile steels to temporarily and automatically process and complete corresponding suspended auxiliary structures, and the suspended auxiliary structures generally have the problems of simple structures and rough processes and have considerable potential safety hazards.

Accordingly, there is a need in the art for a new solution to the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem that there is the potential safety hazard in unsettled auxiliary structure among the prior art, the utility model provides a bridge hanging flower basket, the bridge includes prefabricated first roof beam body and the second roof beam body, the first lateral part of first roof beam body with form the construction region between the second lateral part of the second roof beam body, first lateral part has and is located the first reinforcing bar of construction region stretches out the end, the second lateral part has and is located the second reinforcing bar of construction region stretches out the end, first reinforcing bar stretch out the end with the second reinforcing bar stretches out and can pass through welded mode rigid coupling between the end, and this bridge hanging flower basket includes: a basket body formed with a working space capable of freely accommodating an operator and having a support structure allowing the operator to be continuously present in the working space; and a docking structure provided to the basket body and capable of being respectively engaged with the first beam and the second beam in a state where welding construction work is performed, so as to locate at least a portion of the basket body at the construction area.

Through the arrangement, under the condition of needing welding operation, the reliable installation of the bridge hanging basket can be completed only by respectively matching the butt joint structure with the adjacent beam bodies. On the basis, the operator can stand in the working space to safely perform the operation on the construction area.

It can be understood that the docking structure and the (first, second) beam body may be in various docking manners, such as the docking structure may be directly in butt joint with the side portion of the beam body in a matching manner, or may be in butt joint with the side portion of the beam body and the protruding end of the reinforcing steel bar in a matching manner, the docking manner may be a detachable docking manner that can be directly completed through a matching design of the structure, or a docking manner that can be completed only by means of a fastener, and the docking manner may be an overlapping, a clamping, an engagement, a screwing manner, and the like, and those skilled in the art may flexibly select the docking manner according to actual situations.

In a preferred embodiment of the above-mentioned bridge basket, the basket body includes a lateral portion, and the support structure is a support platform located at the bottom of the lateral portion.

In a preferred embodiment of the above bridge hanging basket, the abutting structure includes a first abutting structure and a second abutting structure extending outwards from the top of the lateral portion at positions corresponding to the first side and the second side, respectively, wherein the first abutting structure is overlapped to the top of the first side of the first beam, and the second abutting structure is overlapped to the top of the second side of the second beam.

Through the arrangement, in the welding construction operation process, an operator can operate in a mode of standing on the supporting platform, so that the operation stability is ensured. And the safety of operators during construction operation is ensured due to the surrounding protection of the lateral parts. Besides the lap joint, the method can be supplemented with other methods to ensure the reliability of the butt joint, such as adding one or more matched pairs of vertical constraint elements such as concave and convex parts on a group of lap joint surfaces which face each other, so as to further ensure the stability of the lap joint state.

It will be appreciated that the shape, number, etc. of the abutment structures which can be made to overlap, and the particular form of the overlapping surfaces of the abutment structures, etc. can be flexibly selected by those skilled in the art. Such as: the butt joint structure can be an integral structure or a plurality of monomer combinations distributed at intervals, the butt joint structures can be the same or different, the butt joint structure can be a plate-shaped structure, a block-shaped structure or any other reasonable structure, the lapping surface can be a plane, a step surface, a corrugated surface and the like, and anti-skid textures or anti-skid coatings and the like can be attached to the lapping surface.

Under this prerequisite, in order to further guarantee the reliable cooperation of bridge hanging flower basket and (first, second) roof beam body, can be aided with other connected modes etc. on the lapped basis. For example, a limit structure for limiting the axial movement of the butt joint structure along the construction area is configured for the butt joint structure in the well-overlapped state, or the well-overlapped state is limited to be in interference fit, and the like.

In a preferred technical solution of the above-mentioned bridge hanging basket, the lateral portion includes a rigid support and a flexible member, and the support platform is located at the bottom of the rigid support, wherein the flexible member is disposed on at least a portion of the rigid support.

The rigid support guarantees the strength of the bridge hanging basket, the safety of the hanging basket is guaranteed, the flexible component enables the operation space where an operator is located to be adjustable within a certain range, if the operation space can be properly enlarged or the direction of the operation space is changed, and the like, the operability of construction operation is optimized.

In a preferred technical solution of the above-mentioned bridge hanging basket, the rigid support includes a first support and a second support that are oppositely disposed, and the flexible member is disposed at least between the first support and the second support.

Through the arrangement, on one hand, the integrity of the working space is basically ensured through the arrangement of the (first and second) brackets, and the operator can be safely restrained in the working space through the arrangement of the flexible member, so that the safety of the working space is improved. In addition, the rigid-flexible combination reduces the dead weight of the bridge hanging basket, and facilitates transportation, field installation and the like of the bridge hanging basket.

In a preferred embodiment of the above-mentioned bridge hanging basket, the flexible member is detachably disposed between the first bracket and the second bracket.

Through the arrangement of the flexible members, the interference of the bridge hanging basket on the working personnel during the construction operation is less, the interference of the bridge hanging basket on the construction operation is reduced, the construction quality is ensured, and the construction efficiency is improved.

It will be appreciated that the particular form of the flexible member and its manner of attachment to the (first, second) bracket may be flexibly selected by the skilled person depending on the actual situation. Such as a flexible member that may be, but is not limited to, a rope structure, a mesh structure, and the like. For example, a plurality of flexible ropes are transversely arranged between the (first and second) brackets, and net structures are respectively paved on partial areas of the first bracket and the second bracket. In order to ensure safety, a plurality of flexible ropes arranged transversely can be improved into a plurality of flexible ropes staggered transversely and vertically, or a net structure is additionally arranged in a local area between the (first and second) brackets at the same time, and the like. In addition, the flexible rope can be a structure with both ends detachable (such as a hook and the like), or can be a structure with only one end detachable, and the net-shaped structure can be a structure with multiple sides detachable or with some sides detachable (such as a through hole, a binding belt and the like).

In addition, in order to further ensure the safety of the construction operation, the bridge nacelle is additionally provided with an auxiliary flexible member (such as a flexible rope, etc.) which is functionally different from the auxiliary flexible member (such as a flexible rope, etc.) associated with the operation space and can be the same as or similar to the flexible member, taking the auxiliary flexible member as the flexible rope, for example, one end of the flexible rope is fixed on the (first and second) bracket, the other end of the flexible rope is fixed to the flexible rope itself after being wound on the body of the operator, or a ring-shaped structure is fixed on the body of the operator, and the other end of the flexible rope is fixed at a corresponding position of the ring-shaped structure. Taking the flexible member and the auxiliary flexible member as an example, the flexible rope disposed between the (first and second) brackets and the flexible rope additionally configured for the operator may have the same or different structures, specifications, materials, fixing manners, and the like, in consideration of the realizability and the difference of the connection objects.

In a preferred technical solution of the above-mentioned bridge hanging basket, the hanging basket body is a storable structure, wherein the working space is formed in the hanging basket body in a non-storage state.

In the preferable technical scheme of the bridge hanging basket, the supporting platform is pivotally connected with the first support and the second support respectively, the supporting platform comprises two foldable parts, and the bridge hanging basket is folded to be stored.

In the preferable technical scheme of above-mentioned bridge hanging flower basket, be provided with linking bridge between the top of first support and the top of second support, linking bridge with the top of first support with the top of second support is pivot connection respectively and includes folding two parts, the bridge hanging flower basket passes through supporting platform with linking bridge's synchronous folding realization is accomodate.

It will be appreciated that the simultaneous folding described above needs to include two factors, on the one hand, the folding positions between the two parts of the support platform and the connecting bracket, respectively, should be correspondingly set; on the other hand, the pivotal connection of the respective two parts of the support platform and the connecting bracket to the (first, second) bracket may ensure that the pivoting movement is effected without interference during the folding process. Through the setting mode that can accomodate, the bridge hanging flower basket of being convenient for accomodates, transports under unoperated state. Along with such advantage, also be convenient for the utility model discloses a bridge hanging flower basket is in the further popularization of engineering.

It can be understood that, the above-mentioned folding and storage is only a preferred embodiment by folding the two parts of the supporting platform and the connecting bracket upwards once along the middle part to both sides, and those skilled in the art can flexibly select other folding modes, such as transverse folding, etc., according to the actual situation. In addition, collapsible be the preferred embodiment that can accomodate only, the technical staff in the art can select other reasonable realization storage modes as according to actual conditions the utility model discloses a hanging flower basket main part concrete form, if flexible or flexible and folding combine together etc..

In a preferred technical solution of the bridge hanging basket, the working space includes a first portion, a second portion and a third portion from top to bottom, a radial dimension of the second portion is larger than a radial dimension of the first portion and the third portion, and at least a part of the second portion is aligned with a working position of a construction area.

The utility model discloses an in the bridge hanging flower basket, the first portion mainly sets up butt joint structure, and the third part mainly used sets up supporting platform, consequently, even under the situation that operating personnel's length is in these two parts, the horizontal range that corresponds is less, mainly shows for slow rotation and little moving as the active form of operating personnel in the third part. The second part is different from the first part, and the arm movement of an operator in the welding construction operation process is basically completed in the second part, so that the radial size of the second part is properly increased, the operation space can be effectively increased, the interference of the structure of the bridge hanging basket on the welding construction operation is avoided, the smoothness of the construction operation is ensured, and the construction efficiency is improved.

Drawings

The bridge hanging basket of the present invention is described below with reference to the accompanying drawings. In the drawings:

fig. 1 shows a schematic structural diagram of a bridge hanging basket according to an embodiment of the present invention;

fig. 2 shows a schematic structural diagram of a first support in a bridge hanging basket according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of detail A of FIG. 1;

fig. 4 shows a first schematic diagram (working state) of a bridge hanging basket according to an embodiment of the present invention;

fig. 5 shows a schematic diagram of a state of a bridge hanging basket according to an embodiment of the present invention (non-operating state); and

fig. 6 is an enlarged schematic view of a portion B in fig. 5.

List of reference numerals:

11. a lateral portion; 111. a first bracket; 1111. erecting a beam; 1112. a cross beam; 1113. a mounting structure; 112. a second bracket; 113. a flexible cord; 12. a working space; 121. a first portion; 122. a second portion; 123. a third portion; 13. a support platform; 131. a first support portion; 132. a second support portion; 1331. a first rotating shaft; 1332. a second rotating shaft; 1333. a third rotating shaft; 1334. a pivot mounting structure; 1335. a stopper; 14. connecting a bracket; 21. a first docking structure; 22. a second docking structure.

Detailed Description

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention. Although the present embodiment is described by taking the support with the butt joint structure of the bridge hanging basket as a common lap joint as an example, the specific form of the butt joint structure can be flexibly adjusted, for example, the butt joint structure on one side includes a plurality of single bodies distributed at intervals, and the butt joint structure has a step structure capable of covering more areas at the butt joint portion with the corresponding beam body.

It should be noted that in the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate directions or positional relationships based on those shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example 1

Referring to fig. 1, fig. 1 shows the structural schematic diagram of a bridge hanging flower basket of an embodiment of the present invention, and fig. 2 shows the structural schematic diagram of a first support in the bridge hanging flower basket of an embodiment of the present invention. As shown in fig. 1 and 2 and according to the orientation in fig. 1, the bridge cradle mainly comprises a cradle body and a docking structure arranged on the top of the cradle body, the cradle body mainly comprises a lateral part 11 and a support platform 13 arranged on the bottom of the lateral part, wherein the lateral part 11 is circumferentially surrounded with a substantially ring-shaped working space 12 capable of freely accommodating working personnel, and the support platform 13 is mainly used for carrying the working personnel during welding construction work. The docking structure mainly includes a first docking structure 21 and a second docking structure 22 extending outward from the outer edges of the left and right sides of the top of the lateral portion 11. The construction site is provided with two beam bodies (not shown) on the left and right sides of the bridge hanging basket respectively, the opposite sides of the two beam bodies form a construction area, the two beam bodies are respectively provided with a reinforcing steel bar extending end positioned in the construction area, and the bridge hanging basket is positioned in the construction area. The (first, second) docking structures are respectively overlapped to the upper surfaces of the beam bodies of the corresponding sides, thereby stably mounting the bridge basket to the construction area. And then, the operators can perform welding construction operation on the steel bar extending ends of the two side beam bodies in the construction area in the bridge hanging basket.

With continued reference to fig. 1 and 2, the lateral portion 11 basically includes a rigid support including a first support 111 and a second support 112 disposed opposite each other and a flexible member including a plurality of flexible cords 113 having a certain rigidity disposed transversely between the first and second supports. The enclosed work space 12 comprises a first section 121, a second section 122 and a third section 123 from top to bottom, wherein during the welding construction work the hand and elbow movements of the operator are mainly concentrated on the position of the second section 122, i.e. a local area of the second section 122 (mainly the area above the middle) is in a position aligned with the working position of the construction area, and therefore the radial dimension of the second section is larger than the other sections in order to ensure the fluency of the welding construction work.

Still referring to fig. 1 and 2, the first bracket 111 includes vertical beams 1111 at two sides and a plurality of cross beams 1112 between the vertical beams 1111, and the cross beams 1112 and the vertical beams 1111 may be detachably connected by fasteners (such as bolts, etc.), and of course, they may also be directly fixed by welding, etc. The vertical beams 1111 of the first bracket 111 at the positions corresponding to the first portion and the third portion are substantially vertical beams, and the vertical beams 1111 of the first bracket 111 at the positions corresponding to the second portion are substantially horizontally bent beams recessed outward, as exemplified, substantially like bent beams composed of the upper bottom edge and the waists of both sides of an isosceles trapezoid. The corresponding positions of the first bracket and the second bracket are respectively provided with a mounting structure 1113 matched with the flexible rope 113, so that the two ends of the flexible rope 113 can be respectively and detachably fixed on the corresponding mounting structures 1113. As in this embodiment, the mounting structure 1113 is located near the cross-connecting position of the cross beam and the longitudinal beam, as an example, the mounting structure 1113 is located near the upper position of the cross-connecting position, the mounting structure is a triangular plate welded on the vertical beam, a mounting hole is provided at a position in the middle of the triangular plate, and the end of the flexible rope can penetrate through the mounting hole and then be fixed on the rigid support. The structure of the first bracket is substantially the same as that of the second bracket, and the description thereof is omitted.

In summary, in the preferred technical scheme of this embodiment, through the setting of butt joint structure, (first, second) support and supporting platform, guaranteed the construction safety during welding construction operation and had reliable operation space, improved the efficiency of construction. Through the setting of flexible rope, staff's security during welding construction operation has further been guaranteed.

Example 2

Preferably, in addition to embodiment 1, the bridge gondola may be modified to a storage structure so that the gondola can be stored when the gondola is not in operation, and the storage here mainly reduces the floor space of the working space, and further, the size of the gondola body, the docking structure, and other components themselves may be adjusted. Through such improvement, under the prerequisite that guarantees that the bridge hanging flower basket has good performance when it is operating condition, be convenient for to accomodate the formula and deposit bridge hanging flower basket under the non-operating condition.

Referring to fig. 4 and 5, fig. 4 shows a first state diagram (working state) of a bridge hanging basket according to an embodiment of the present invention, and fig. 5 shows a second state diagram (non-working state) of a bridge hanging basket according to an embodiment of the present invention. In a possible embodiment, as shown in fig. 4 and 5, the basket body further comprises a connecting bracket 14 arranged between the top of the first bracket 111 and the top of the second bracket 112, the connecting bracket 14 above the lateral part comprises a left part and a right part which can be folded along the middle part in a vertical pivoting manner, the supporting platform 13 below the lateral part also comprises a left part and a right part which can be folded along the middle part in a vertical pivoting manner, and the folding and storage of the bridge basket can be realized by simultaneously pivoting the two parts of the supporting platform 13 and the connecting bracket 14 upwards along the middle part. As shown in fig. 4, the flexible member may further comprise a flexible string 113 longitudinally disposed between the top connecting bracket and the bottom supporting platform of the first/second bracket, for example, both ends of the flexible string 113 may be detachably fixed to the pivoting positions of the middle portions of the supporting platform 13 and the connecting bracket 14, respectively, so that the function of the flexible member is further optimized while ensuring the synchronous pivoting action of the supporting platform 13 and the connecting bracket 14.

Referring to fig. 6, fig. 6 is an enlarged schematic view of a portion B of fig. 5. As shown in fig. 6, for example, the supporting platform 13 includes two foldable parts, specifically, a first supporting part 131 and a second supporting part 132 at left and right sides, the first supporting part 131 and the second supporting part 132 are pivotally connected through a first rotating shaft 1331, the first supporting part 131 and the first bracket 111 are connected through a second rotating shaft 1332, and the second supporting part 132 and the second bracket 112 are connected through a third rotating shaft 1333. Illustratively, the first rotating shaft 1331 is a rotating shaft penetrating the first supporting portion 131 and the second supporting portion 132 along the folding position of the supporting platform 13, and the number of the second rotating shafts 1332 and the third rotating shafts 1333 is two. Specifically, the support platform 13 is provided with a pivot mounting structure 1334 capable of mounting the second rotating shaft 1332 and the third rotating shaft 1333 at a position close to the first bracket 111 and the second bracket 112 in a direction parallel to the folding position, respectively, so as to ensure that the second rotating shaft 1332 and the third rotating shaft 1333 are mounted in two numbers. The structure of the connecting bracket is substantially the same as that of the supporting platform, and the description is omitted here.

Referring to fig. 3, fig. 3 shows an enlarged schematic view of a portion a of fig. 1. As shown in fig. 3, following the example shown in fig. 6, in order to ensure that the first and second support portions of the support platform are unfolded to a coplanar horizontal state, no further pivoting of the first and second support portions occurs even if the operator stands on the support platform, and a limit is required between the first/second support portions and the respective first/second brackets. The limiting manner in this embodiment is as follows: disposed at the bottom of the first bracket is a cross beam 1112, and a left front side pivot mounting structure 1334 configured for connecting the first support portion 131 and a second rotating shaft 1332 of the first bracket is located at the front side of the cross beam 1112; a stopper 1335 extends upward from the left side of the first support portion; in a horizontal state where the first and second support portions are spread out to be coplanar, the rear side of the baffle plate abuts against the cross beam 1112. By this arrangement, further pivoting of the first support section and the second support section after deployment is effectively prevented. Obviously, this limit structure is only an exemplary description, and any reasonable structure that can guarantee the position stability between the first support part and the second support part in the state that the pivot is opened can be taken as the structure that limits the bridge hanging basket of the present invention.

The advantages of the bridge gondola in the case of a stowable structure are explained in connection with figures 4 and 5 below.

With continued reference to fig. 4, in the working condition, the left and right parts of the support platform 13 and the connecting bracket 14 are synchronously pivoted downwards to a horizontally unfolded condition, at which time the bridge basket is spread out to form an effective working space, i.e. a working space capable of freely accommodating the working personnel. Meanwhile, a plurality of flexible ropes between the first support and the second support are also spread, at the moment, the butt joint structure above the butt joint structure is only required to be lapped on the beam body on the corresponding side, an operator is in the operation space and stands on the horizontally-unfolded supporting platform 13 at the bottom, and in addition, the additionally-configured flexible ropes (not shown) can be wound on the waist of the operator to start welding construction operation.

With continued reference to fig. 5, in the inoperative position, the left and right portions of the support platform 13 and the linking bracket 14 are pivoted upwardly in unison to a collapsed position in which the included angle is relatively small, e.g., the included angle between the left and right portions is no greater than 30 °. In this way, the bridge hanging basket close to the cuboid in the working state is stored into a thin block structure close to a plate shape, and the floor area of the bridge hanging basket is obviously reduced.

Meanwhile, the flexible ropes are freely stretched and can be detached relative to the (first and second) supports, so that the flexible ropes can be detached from the bridge hanging basket and then collected (if temporarily not used or not put into use), or not detached (if needing to be repeatedly used in a short period), for example, on the premise of not removing the connection relation between the flexible ropes and the (first and second) supports, rope-shaped parts of the flexible ropes can be simply collected and placed.

In conclusion, among the preferred technical scheme of this embodiment, through improving bridge hanging flower basket into folding structure, the bridge hanging flower basket of being convenient for is accomodate in batches and is concentrated the transportation during non-operation to improve the product property ability of bridge hanging flower basket, made the utility model discloses a bridge hanging flower basket has extensive popularization meaning in the process.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

Claims (10)

1. A bridge cradle, characterized in that the bridge comprises a first and a second prefabricated beam, a construction area being formed between a first side of the first beam and a second side of the second beam,

the first side part is provided with a first steel bar extending end positioned in the construction area, the second side part is provided with a second steel bar extending end positioned in the construction area, the first steel bar extending end and the second steel bar extending end can be fixedly connected in a welding mode,

this bridge hanging flower basket includes: a basket body which is formed with a working space capable of freely accommodating an operator and which is provided with a plurality of holes

The basket body has a support structure that allows the operator to remain in the working space; and

a docking structure provided to the basket body and having a first opening and a second opening

In a case where a welding construction work is performed, the docking structure may be respectively engaged with the first beam and the second beam so as to locate at least a portion of the basket body at the construction area.

2. The bridge cradle of claim 1, wherein the cradle body includes a lateral portion, the support structure being a support platform at the bottom of the lateral portion.

3. The bridge cradle of claim 2, wherein the docking structures comprise first and second docking structures extending outwardly from a top of the lateral portion at locations corresponding to the first and second sides, respectively,

wherein the first docking structure is docked to a top of a first side of the first beam and the second docking structure is docked to a top of a second side of the second beam.

4. A bridging gondola as claimed in claim 2 or 3, wherein the lateral section comprises a rigid support and a flexible member, the support platform being located at the bottom of the rigid support,

wherein the flexible member is disposed on at least a portion of the rigid support.

5. The bridge hanging basket according to claim 4, wherein the rigid support comprises first and second oppositely disposed supports, the flexible member being disposed at least between the first and second supports.

6. The bridge hanging basket according to claim 5, wherein the flexible member is removably disposed between the first and second brackets.

7. A bridging gondola as claimed in claim 5 or 6, wherein the gondola body is of a stowable construction,

wherein the basket body is formed with the working space in a non-storage state.

8. The bridge cradle of claim 7, wherein the support platform is pivotally connected to the first and second brackets, respectively, and the support platform comprises two sections that are foldable,

the bridge hanging basket is stored through folding of the supporting platform.

9. The bridge hanging basket according to claim 8, wherein a connecting bracket is arranged between the top of the first bracket and the top of the second bracket, the connecting bracket is pivotally connected with the top of the first bracket and the top of the second bracket respectively and comprises two foldable parts,

the bridge hanging basket is folded synchronously through the supporting platform and the connecting support to be stored.

10. The bridging gondola of claim 1, wherein the working space comprises from top to bottom a first section, a second section and a third section, the second section having a radial dimension greater than the radial dimensions of the first section and the third section,

wherein at least a portion of the second portion is aligned with a work location of a construction area.

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