CN218562984U - Reverse-pulling wall-riding type hanging basket protection system - Google Patents

Abstract

A reverse-pulling wall-riding type hanging basket protection system comprises upright posts, lower beams, upper beams, mounting frames, suspension frames, main stress steel wire ropes and auxiliary stress steel wire ropes; the upper layer beam is connected between the tops of the upright posts; the lower layer beam is connected between the upper parts of the upright posts; the mounting frame is arranged on the upper-layer beam and comprises a vertical support, a positioning plate, a lower split bolt and an upper split bolt; the suspension brackets are arranged in a group and are arranged at the top of the mounting bracket at intervals along the longitudinal direction; each suspension bracket is arranged on the mounting bracket along the transverse direction; the suspension bracket comprises a suspension beam, a vertical rod and a fixed steel wire rope; the main stressed steel wire rope is connected between the inner end of the suspension beam and the lower-layer beam; the hoop beam steel wire rope is arranged on the lower layer beam at the position corresponding to the main stress steel wire rope; the auxiliary force steel wire rope is connected between the suspension beam and the lower layer beam; the hanging basket is hung below the outer end of the hanging beam through a sling; the utility model provides a during traditional aerial work, the hanging flower basket risk of falling is higher, the dangerous great technical problem of constructor.

Description

Reverse-pulling wall-riding type hanging basket protection system

Technical Field

The utility model belongs to the technical field of the building engineering construction, in particular to reverse draw and ride wall formula hanging flower basket protection system.

Background

New attitude's large-scale comprehensive building regards as inspiration source spring with "ding", explains the ding intention with ding seat, ancient cooking vessel body, ancient cooking vessel ear, and topology is born mutually, among the standing garden, and green energy-conservation and pursuit visual effect are fully considered in the design of roof ancient cooking vessel ear, and the design is introduced the double-deck pergola roof beam and is realized "fill" form molding, and the slope through the double-deck pergola roof beam of roof and certain angle of member is arranged and is combined together with the building roofing sunshade, creates "ding" formula tower sign fifth facade.

A tripod-type tower landmark vertical four-vertical-face peripheral decorative structure in a city is mainly made of metal materials, stone materials and energy-saving glass, a complex glass curtain wall system, a modeling metal plate curtain wall system and a dry hanging stone curtain wall system are formed, rhythm combination presents a modern curtain wall system, vertical high-rise curtain wall construction depends on various high-altitude manned working machines, and a hanging basket is a common building tool for high-altitude operation of building engineering and is used for curtain wall installation and outer wall cleaning. The suspension mechanism is erected on a building or a structure, the suspension platform is driven by the lifting mechanism, and the construction facility which runs up and down along the vertical surface of the building or the structure through the steel wire rope is also an operation platform for operators. The hanging basket is a novel high-altitude operation device which can replace a traditional scaffold, reduce labor intensity, improve working efficiency and be repeatedly used. The use of the construction hanging basket has gradually become a trend, and the construction hanging basket is widely accepted in high-altitude operations such as outer wall construction, curtain wall installation, heat preservation construction, maintenance and outer wall cleaning of high-rise and multi-storey buildings, and can be used for the operation of large-scale tank bodies, bridges, dams and other projects.

The percentage of the total number of safety accidents of high-altitude operation equipment is increased continuously according to safety statistical data, the indexes of all components of the working hanging basket are regulated by the existing national standard, but in practical application, the conditions of installation methods, fixing schemes, load sizes, environmental disturbance and the like are different, and the calculation and analysis need to be carried out by combining specific environmental conditions to ensure the safety.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a reverse draw and ride wall formula hanging flower basket protection system, when solving traditional aerial work, the hanging flower basket risk of falling is higher, the dangerous great technical problem of constructor.

In order to achieve the above purpose, the utility model adopts the following technical scheme.

A reverse-pull wall-riding type hanging basket protection system spans above a wall body to be constructed and is used for hanging a hanging basket on the outer side of the wall body to be constructed; the device comprises upright posts, a lower layer beam, an upper layer beam, a mounting rack, a suspension rack, a main stress steel wire rope and an auxiliary stress steel wire rope; the upright columns are arranged in a group and are arranged at intervals along the longitudinal direction; the upper-layer beam is longitudinally connected between the tops of the group of upright posts; the lower-layer beam is longitudinally connected between the upper parts of the group of upright posts; the mounting frame is arranged on the upper-layer beam and comprises a vertical support, a positioning plate, a lower split bolt and an upper split bolt; two groups of vertical supports are arranged and respectively and correspondingly arranged on two sides of the upper-layer beam; the lower split bolts are correspondingly connected between the bottoms of the vertical supports on the two sides; the two positioning plates are respectively connected to the inner sides of the vertical supports on the two sides; the upper split bolts are connected between the upper parts of the vertical supports at two sides at intervals along the longitudinal direction, and the upper split bolts are positioned above the upper-layer beam; the suspension brackets are arranged in a group and are arranged at the top of the mounting bracket at intervals along the longitudinal direction; each suspension bracket is arranged along the transverse direction; the suspension bracket comprises a suspension beam, a vertical rod and a fixed steel wire rope; the suspension beam is transversely arranged at the top of the mounting frame, and the outer end of the suspension beam exceeds the outer side surface of the wall body to be constructed; the length of the suspension beam is adjustable, and a first connecting assembly is arranged at the bottom of the outer end of the suspension beam; the upright rods are connected to the tops of the suspension beams and are positioned between the vertical supports on the two sides; the top of the upright rod is provided with a connecting seat; the fixed steel wire rope is wound on the connecting seat, and two ends of the fixed steel wire rope are respectively connected with two ends of the suspension beam; a first dynamometer is arranged between the fixed steel wire rope and the inner end of the suspension beam; the main stressed steel wire rope is connected between the inner end of the suspension beam and the lower-layer beam; a second dynamometer is connected between the upper end of the main stress steel wire rope and the inner end of the suspension beam; the auxiliary force steel wire rope is connected between the suspension beam and the lower layer beam, and the upper end of the auxiliary force steel wire rope is connected to the suspension beam and is close to the inner end; a third dynamometer is connected between the auxiliary force steel wire rope and the suspension beam; the hanging basket is hung below the outer end of the hanging beam through a sling; the lower end of the sling is connected with the hanging basket, and the upper end of the sling bypasses the first connecting assembly and is connected with the upper part of the mounting frame.

Preferably, the positioning plate comprises a vertical plate section and a horizontal plate section; the vertical plate section is strip-shaped and is arranged on the inner side of the vertical support along the longitudinal direction; the horizontal plate section is strip-shaped and is longitudinally connected to the inner side of the vertical plate section, and the horizontal plate section is pressed on the top of the upper beam; two ends of the upper split bolt respectively penetrate through the vertical plate sections on two sides.

Preferably, an anchor ear beam steel wire rope is arranged on the lower-layer beam at a position corresponding to the main stress steel wire rope, and the lower end of the main stress steel wire rope is connected with the anchor ear beam steel wire rope; the lower end of the auxiliary force steel wire rope is connected with the hoop beam steel wire rope; a first leather sleeve is sleeved on the hoop beam steel wire rope; the hoop beam steel wire rope is provided with a heart ring for connecting the main stress steel wire rope and the auxiliary stress steel wire rope.

Preferably, two groups of the lower split bolts are arranged, and the two groups of the lower split bolts are vertically and correspondingly arranged below the upper-layer beam at intervals; each group of the lower split bolts is longitudinally arranged between the vertical supports at two sides at intervals; the lower split bolts of the upper layer are positioned at the bottom of the upper layer beam.

Preferably, the top of the vertical support is provided with a supporting plate; the suspension beams are arranged above the vertical supports corresponding to the transverse direction, and the suspension beams are supported at the tops of the supporting and connecting plates.

Preferably, the connecting seat comprises a supporting plate and a connecting shaft; the two support plates are arranged at intervals along the longitudinal direction; the connecting shaft is longitudinally connected between the two supporting plates; the fixed steel wire rope is wound on the connecting shaft.

Preferably, the first connecting component comprises a first vertical lug plate and a first longitudinal rod; two first vertical lug plates are longitudinally connected to the bottom of the outer end of the suspension beam at intervals; the first longitudinal rod is longitudinally connected between the two first vertical lug plates; the sling is wound on the first longitudinal rod.

Preferably, the top of the outer end of the suspension beam is provided with a second vertical lug plate, and the inner end of the suspension beam is provided with a second inclined lug plate; the outer end of the fixed steel wire rope penetrates through the second vertical lug plate and is fixed through a second steel wire buckle; the second inclined lug plate is obliquely connected to the inner end of the suspension beam; the first dynamometer is connected to the upper end part of the second inclined ear plate; the inner end of the fixed steel wire rope is connected to the first dynamometer and fixed through the second stainless steel locker.

Preferably, the suspension beam comprises a suspension beam section; the suspension beam sections are in one group, and adjacent suspension beam sections are in adjustable connection through a connecting sleeve; the bottom of the upright rod is provided with a connecting sleeve; the connecting sleeve is sleeved on the suspension beam and is in adjustable connection with the suspension beam.

Preferably, the bottom of the hanging basket is provided with a roller; a safety rope is also arranged on the hanging basket; the inner end of the safety rope is connected with the main body structure.

Compared with the prior art, the utility model has the following characteristics and beneficial effect.

1. The utility model discloses an adjustable stress back draws and rides redundant protection system of wall formula hanging flower basket mounting bracket in adopts long angle L70 + 90 + 8mm and steel sheet (100 + 70 + 8mm) welding to form, and the mounting bracket is connected with the upper beam, forms the main atress structure and the anti-overturning device of hanging flower basket suspended beam, and the vertical support of mounting bracket sets up the both sides at the upper beam respectively to vertical support forms the staple bolt with lower tie bolt, upper tie bolt jointly, hoops and establishes on the upper beam, has increased the stability of mounting bracket; the installation frame not only prevents the hanging basket from dropping and overturning, but also increases the contact area with the upper beam and prevents the beam from being damaged.

2. The two reverse-pull steel wire ropes (the main stressed steel wire rope and the auxiliary stressed steel wire rope) form double protection, the two reverse-pull steel wire ropes are adopted to reversely pull the hoop for the lower layer beam, the main stressed steel wire rope is the main rope and is the main stress, the auxiliary stressed steel wire rope is the auxiliary rope, and the auxiliary rope is not stressed in a normal state; when the main stressed steel wire rope is stressed too much and is likely to be damaged, the stress state of the auxiliary rope can be adjusted by adjusting the length of the auxiliary stressed steel wire rope, so that the tensile stress borne by the main stressed steel wire rope is reduced, and the safety factor is greatly increased. Meanwhile, in the utility model, the main stressed steel wire rope and the auxiliary stressed steel wire rope are both controlled by the M12 stainless steel locking device to control the load, the main stressed steel wire rope and the auxiliary stressed steel wire rope are connected with the tail end pulling point of the suspension beam and are pulled by the first inclined lug plate, the stress condition of the steel wire rope is monitored by the dynamometer, the heart rings are arranged at the pulling positions of the main stressed steel wire rope, the auxiliary stressed steel wire rope and the steel wire rope, the stress area of the steel wire rope is increased, the steel wire rope of the anchor ear beam is prevented from generating plastic deformation due to point stress to reduce the self strength, the use safety factor is increased, and the service life of the steel wire rope is prolonged; in addition, the locker is connected with the steel wire rope, so that the operation and installation are convenient, and the stress condition of the steel wire rope is easy to control; so as to be convenient for the reaction of the stress conditions of the main stress steel wire rope and the auxiliary stress steel wire rope.

3. The utility model is characterized in that the mounting frame is fixed on the upper beam to support the suspension frame, which provides a stable connection foundation for the suspension beam; meanwhile, the utility model extends the inner end of the sling to the rear mounting rack, winds the sling on the vertical support and adopts a fourth stainless steel locker to fix the sling; the utility model has the advantages that the rope buckle position of the sling is positioned between the two vertical supports, so that the vertical support at the rear side is stressed, the safety of the stressed position is improved, the construction is convenient, and the self safety of installation and construction personnel is guaranteed; in addition, the utility model discloses the people is sheathe leather sheath in hoist cable upper portion and is protected, has avoided the hoist cable direct and vertical support to take place to rub and cause the damage.

4. The utility model discloses adjustable stress is turned over to draw and is ridden redundant protection system of wall formula hanging flower basket is applicable to and is turned over to draw and ride wall formula hanging flower basket, is particularly useful for the installation on the double-deck flower frame roof beam of roof and turns over to draw and ride wall formula hanging flower basket, utilizes different thin portion protection mechanisms, establishes safe redundant defence line, forms multiple life protection safety coefficient, realizes "safe redundant" and is unnecessary.

5. The utility model aims at the weak link of the conventional reverse-pull wall-riding hanging basket, directionally studies the redundancy protection system of the roof high-altitude operation reverse-pull wall-riding hanging basket according to the redundancy safety degree management principle, establishes a safety redundancy defense line, controls accident potential and realizes safe production; not only ensures the safety of just enough, but also ensures enough safety.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 is a schematic structural view of the reverse-pull wall-riding basket protection system of the present invention stretching over a wall to be constructed.

Fig. 2 is a schematic view of the connection structure between the middle mounting frame and the suspension frame of the present invention.

Fig. 3 is a schematic structural view of the middle positioning plate of the present invention.

Fig. 4 is a schematic structural view of the suspension beam of the present invention.

Fig. 5 is a schematic structural diagram of the middle connection seat of the present invention.

FIG. 6 is the schematic view of the connection structure of the steel wire rope of the middle anchor ear beam, the main stress steel wire rope and the auxiliary stress steel wire rope

Reference numerals: 1-to-be-constructed wall, 2-hanging basket, 3-upright post, 4-lower beam, 5-upper beam, 6-mounting rack, 6.1-vertical support, 6.2-positioning plate, 6.2.1-vertical plate segment, 6.2.2-horizontal plate segment, 6.3-lower split bolt, 6.4-upper split bolt, 6.5-support plate, 7-suspension bracket, 7.1-suspension beam, 7.1.1-suspension beam segment, 7.1.2-connecting sleeve, 7.2-upright post, 7.3-fixed steel wire rope, 7.4-second vertical lug plate, 7.5-second inclined lug plate, 7.6-second stainless steel locker, 7.7-second steel wire buckle, 7.8-connecting sleeve 8-main stressed steel wire rope, 9-auxiliary stressed steel wire rope, 10-first connecting component, 10.1-first vertical lug plate, 10.1-first longitudinal rod, 11-connecting seat, 11.1-supporting plate, 11.2-connecting shaft, 12-first dynamometer, 13-second dynamometer, 14-third dynamometer, 15-anchor ear beam steel wire rope, 16-sling, 17-safety rope, 18-first leather sheath, 19-heart ring, 20-limiting plate, 21-roller, 22-first stainless steel locker, 23-third stainless steel locker, 24-first oblique lug plate and 25-fourth stainless steel locker.

Detailed Description

As shown in fig. 1-6, the reverse pulling wall-riding type hanging basket protection system spans over the wall body 1 to be constructed, and is used for hanging the hanging basket 2 on the outer side of the wall body 1 to be constructed; the device comprises a vertical column 3, a lower-layer beam 4, an upper-layer beam 5, a mounting frame 6, a suspension bracket 7, a main stress steel wire rope 8 and an auxiliary stress steel wire rope 9; the upright posts 3 are arranged in a group and are arranged at intervals along the longitudinal direction; the upper layer beam 5 is longitudinally connected between the tops of the group of upright posts 3; the lower layer beam 4 is longitudinally connected between the upper parts of the group of upright posts 3; the mounting frame 6 is mounted on the upper-layer beam 5 and comprises a vertical support 6.1, a positioning plate 6.2, a lower split bolt 6.3 and an upper split bolt 6.4; two groups of vertical supports 6.1 are arranged on two sides of the upper-layer beam 5 respectively; the lower split bolts 6.3 are correspondingly connected between the bottoms of the vertical supports 6.1 at the two sides; two positioning plates 6.2 are respectively connected to the inner sides of the vertical supports 6.1 at the two sides; the upper split bolts 6.4 are arranged in groups and are longitudinally connected between the upper parts of the vertical supports 6.1 at two sides at intervals, and the group of upper split bolts 6.4 are positioned above the upper-layer beam 5; the suspension brackets 7 are arranged in a group and are arranged at the top of the mounting bracket 6 at intervals along the longitudinal direction; each suspension bracket 7 is arranged along the transverse direction; the suspension bracket 7 comprises a suspension beam 7.1, a vertical rod 7.2 and a fixed steel wire rope 7.3; the suspension beam 7.1 is transversely arranged at the top of the mounting frame 6, and the outer end of the suspension beam 7.1 exceeds the outer side surface of the wall body 1 to be constructed; the length of the suspension beam 7.1 is adjustable, and a first connecting assembly 10 is arranged at the bottom of the outer end of the suspension beam 7.1; the upright rods 7.2 are connected to the tops of the suspension beams 7.1 and are positioned between the vertical supports on the two sides; the top of the upright rod 7.2 is provided with a connecting seat 11; the fixed steel wire rope 7.3 is wound on the connecting seat 11, and two ends of the fixed steel wire rope 7.3 are respectively connected with two ends of the suspension beam 7.1; a first dynamometer 12 is arranged between the fixed steel wire rope 7.3 and the inner end of the suspension beam 7.1; the main stressed steel wire rope 8 is connected between the inner end of the suspension beam 7.1 and the lower-layer beam 4; a second dynamometer 13 is connected between the upper end of the main stress steel wire rope 8 and the inner end of the suspension beam 7.1; the auxiliary stress steel wire rope 9 is connected between the suspension beam 7.1 and the lower-layer beam 4, and the upper end of the auxiliary stress steel wire rope 9 is connected to the position, close to the inner end, on the suspension beam 7.1; a third dynamometer 14 is connected between the auxiliary stress steel wire rope 9 and the suspension beam 7.1; the hanging basket 2 is hung below the outer end of the hanging beam 7.1 through a sling 16; the lower end of the sling 16 is connected with the hanging basket 2, and the upper end of the sling 16 bypasses the first connecting component 10 and is connected with the upper part of the mounting rack 6.

In this embodiment, a leather sheath is sleeved on the upper part of the sling 16.

In this embodiment, the anchor ear beam steel wire rope 15 is provided at a position corresponding to the main stressed steel wire rope 8 on the lower beam 4, the lower end of the main stressed steel wire rope 8 is connected with the anchor ear beam steel wire rope 15, and the lower end of the auxiliary stressed steel wire rope 9 is connected with the anchor ear beam steel wire rope 15.

In this embodiment, the positioning plate 6.2 includes a vertical plate section 6.2.1 and a horizontal plate section 6.2.2; the vertical plate sections 6.2.1 are strip-shaped and are arranged on the inner sides of the vertical supports 6.1 along the longitudinal direction; the horizontal plate section 6.2.2 is strip-shaped and is longitudinally connected to the inner side of the vertical plate section 6.2.1, and the horizontal plate section 6.2.2 is pressed on the top of the upper-layer beam 5; two ends of the upper split bolt 6.4 respectively penetrate through the vertical plate sections 6.2.1 on two sides correspondingly.

In this embodiment, the anchor ear beam steel wire rope 15 is sleeved with the first leather sheath 18 to prevent the anchor ear beam steel wire rope 15 from being worn; a chicken heart ring 19 for connecting the main stress steel wire rope 8 and the auxiliary stress steel wire rope 9 is arranged on the anchor ear beam steel wire rope 15; the lower ends of the main stressed steel wire rope 8 and the auxiliary stressed steel wire rope 9 are respectively wound on the heart ring 19, the lower end of the main stressed steel wire rope 8 is fixed through a first stainless steel locker 22, and the lower end of the auxiliary stressed steel wire rope 9 is fixed through a third stainless steel locker 23.

In the embodiment, two groups of the lower split bolts 6.3 are arranged, and the two groups of the lower split bolts 6.3 are vertically and correspondingly arranged below the upper-layer beam 5 at intervals; each group of lower split bolts 6.3 is longitudinally arranged between the vertical supports 6.1 at two sides at intervals; the lower split bolts 6.3 of the upper layer are positioned at the bottom of the upper layer beam 5.

In this embodiment, the top of the vertical support 6.1 is provided with a support plate 6.5; the suspension beams 7.1 are arranged above the corresponding vertical supports 6.1 in the transverse direction, and the suspension beams 7.1 are supported at the tops of the supporting and connecting plates 6.5.

In this embodiment, the connecting seat 11 includes a supporting plate 11.1 and a connecting shaft 11.2; two support plates 11.1 are arranged at intervals along the longitudinal direction; the connecting shaft 11.2 is longitudinally connected between the two supporting plates 11.1; the fixed steel wire rope 7.3 is wound on the connecting shaft 11.2.

In this embodiment, the first connecting assembly 10 includes a first vertical lug plate 10.1 and a first vertical rod 10.2; two first vertical lug plates 10.1 are arranged and are connected to the bottom of the outer end of the suspension beam 7.1 at intervals along the longitudinal direction; the first longitudinal rod 10.2 is longitudinally connected between the two first vertical lug plates 10.1; the sling 16 is wound around the first longitudinal bar 10.2.

In this embodiment, the top of the outer end of the suspension beam 7.1 is provided with a second vertical lug plate 7.4, and the inner end of the suspension beam 7.1 is provided with a second inclined lug plate 7.5; the outer end of the fixed steel wire rope 7.3 penetrates through the second vertical ear plate 7.4 and is fixed through a second steel wire buckle 7.7; the second inclined lug plate 7.5 is obliquely connected to the inner end of the suspension beam 7.1; the first dynamometer 12 is connected to the upper end of the second inclined ear plate 7.5; the inner end of the fixed wire rope 7.3 is connected to the first dynamometer 12 and is fixed by the second stainless steel locker 7.6.

In this embodiment, the suspension beam 7.1 includes a suspension beam segment 7.1.1; the suspension beam sections 7.1.1 are provided with one group, and the adjacent suspension beam sections 7.1.1 are adjustably connected through a connecting sleeve 7.1.2; the bottom of the upright rod 7.2 is provided with a connecting sleeve 7.8; the connecting sleeve 7.8 is sleeved on the suspension beam 7.1 and is in adjustable connection with the suspension beam 7.1.

In this embodiment, the bottom of the basket 2 is provided with a roller 21; a safety rope 17 is also arranged on the hanging basket 2; the inner end of the safety line 17 is connected to the main structure.

In this embodiment, the lower part of the inner end of the suspension beam 7.1 is provided with first oblique ear plates 24 at intervals along the transverse direction; the second dynamometer 13 and the third dynamometer 14 are respectively connected with the first inclined ear plate 24; the upper ends of the main stress steel wire rope 8 and the auxiliary stress steel wire rope 9 are respectively connected with a second dynamometer 13 and a third dynamometer 14.

In this embodiment, the upper end of the sling 16 is wound around the upper part of the vertical support 6.1 of the mounting frame 6 and secured by a fourth stainless steel lock 25.

In this embodiment, at least two slings 16 are provided, the slings 16 are symmetrically distributed on the hanging basket 2 to stably connect the hanging basket 2, and a limiting plate 20 is sleeved on at least two slings 16; the slings 16 pass through the retainer plates 20 and a set of slings 16 are secured by the retainer plates 20.

In this embodiment, a clamping member is disposed on the position of the limiting plate 20 corresponding to the position where the sling 16 passes through, and the clamping member detachably connects the sling 16 and the limiting plate 20.

In this embodiment, the mounting frame 6 is formed by welding long angle steel L70 × 90 × 8mm and a steel plate (100 × 70 × 8 mm), and the mounting frame 6 is connected with the upper beam 5 to form a main stress structure and an anti-overturning device of the hanging basket suspension beam 7.1.

In the embodiment, the inner end of the suspension beam 7.1 is connected with a main stressed steel wire rope 8 and an auxiliary stressed steel wire rope 9, so that the stressed position of the steel wire ropes is the stress of the rear supporting leg of the suspension beam 7.1; and the two reverse-pulling steel wire ropes form double protection; the hoop is reversely pulled on the lower-layer beam 4 by adopting a main stressed steel wire rope 8 and an auxiliary stressed steel wire rope 9, one is a main rope, the other is an auxiliary rope, the auxiliary stressed steel wire rope 9 is not stressed in a normal state, the main stressed steel wire rope 8 is damaged for controlling the phenomenon of force overload, the auxiliary stressed steel wire rope 9 is subjected to main stress, tension meters are respectively arranged at the upper ends of the main stressed steel wire rope 8 and the auxiliary stressed steel wire rope 9, and the stress condition of the steel wire ropes is monitored through the tension meters. The lower ends of the main stress steel wire rope 8 and the auxiliary stress steel wire rope 9 are provided with the heart rings 19, so that the stress area of the hoop beam steel wire rope 1 is increased, the hoop beam steel wire rope 15 is prevented from being plastically deformed due to point stress to reduce the self strength, the use safety factor is increased, and the service life of the steel wire rope is prolonged.

Claims (10)

1. The utility model provides a reverse draw and ride wall formula hanging flower basket protection system which characterized in that: the device comprises upright posts (3), a lower-layer beam (4), an upper-layer beam (5), a mounting frame (6), a suspension bracket (7), a main stress steel wire rope (8) and an auxiliary stress steel wire rope (9); the upright posts (3) are provided with a group and are arranged at intervals along the longitudinal direction; the upper-layer beam (5) is longitudinally connected between the tops of the group of upright posts (3); the lower layer beam (4) is longitudinally connected between the upper parts of the group of upright posts (3); the mounting rack (6) is mounted on the upper beam (5) and comprises a vertical support (6.1), a positioning plate (6.2), a lower split bolt (6.3) and an upper split bolt (6.4); two groups of vertical supports (6.1) are arranged and respectively and correspondingly arranged on two sides of the upper-layer beam (5); the lower split bolts (6.3) are correspondingly connected between the bottoms of the vertical supports (6.1) at the two sides; the two positioning plates (6.2) are respectively connected to the inner sides of the vertical supports (6.1) at the two sides; the upper split bolts (6.4) are arranged in a group and are longitudinally connected between the upper parts of the vertical supports (6.1) at two sides at intervals, and the group of upper split bolts (6.4) are positioned above the upper-layer beam (5); the suspension brackets (7) are arranged in a group and are arranged at the top of the mounting bracket (6) at intervals along the longitudinal direction; each suspension bracket (7) is arranged along the transverse direction; the suspension bracket (7) comprises a suspension beam (7.1), a vertical rod (7.2) and a fixed steel wire rope (7.3); the suspension beam (7.1) is transversely arranged at the top of the mounting frame (6), and the outer end of the suspension beam (7.1) exceeds the outer side surface of the wall body (1) to be constructed; the length of the suspension beam (7.1) is adjustable, and a first connecting assembly (10) is arranged at the bottom of the outer end of the suspension beam (7.1); the upright rods (7.2) are connected to the top of the suspension beam (7.1) and are positioned between the vertical supports on the two sides; a connecting seat (11) is arranged at the top of the upright rod (7.2); the fixed steel wire rope (7.3) is wound on the connecting seat (11), and two ends of the fixed steel wire rope (7.3) are respectively connected with two ends of the suspension beam (7.1); a first dynamometer (12) is arranged between the fixed steel wire rope (7.3) and the inner end of the suspension beam (7.1); the main stress steel wire rope (8) is connected between the inner end of the suspension beam (7.1) and the lower-layer beam (4); a second dynamometer (13) is connected between the upper end of the main stress steel wire rope (8) and the inner end of the suspension beam (7.1); the auxiliary force steel wire rope (9) is connected between the suspension beam (7.1) and the lower layer beam (4), and the upper end of the auxiliary force steel wire rope (9) is connected to the position, close to the inner end, on the suspension beam (7.1); a third dynamometer (14) is connected between the auxiliary force steel wire rope (9) and the suspension beam (7.1); the hanging basket (2) is hung below the outer end of the hanging beam (7.1) through a sling (16); the lower end of the sling (16) is connected with the hanging basket (2), and the upper end of the sling (16) bypasses the first connecting component (10) and is connected with the upper part of the mounting rack (6).

2. The counter-pull wall-riding basket protection system according to claim 1, wherein: the positioning plate (6.2) comprises a vertical plate section (6.2.1) and a horizontal plate section (6.2.2); the vertical plate section (6.2.1) is strip-shaped and is arranged on the inner side of the vertical support (6.1) along the longitudinal direction; the horizontal plate section (6.2.2) is strip-shaped and is longitudinally connected to the inner side of the vertical plate section (6.2.1), and the horizontal plate section (6.2.2) is pressed on the top of the upper beam (5); two ends of the upper split bolt (6.4) respectively correspondingly penetrate through the vertical plate sections (6.2.1) on two sides.

3. The counter-pull wall-riding basket protection system according to claim 1, wherein: an anchor ear beam steel wire rope (15) is arranged on the lower layer beam (4) at the position corresponding to the main stress steel wire rope (8), and the lower end of the main stress steel wire rope (8) is connected with the anchor ear beam steel wire rope (15); the lower end of the auxiliary force steel wire rope (9) is connected with an anchor ear beam steel wire rope (15);

a first leather sleeve (18) is sleeved on the hoop beam steel wire rope (15); a heart-shaped ring (19) used for connecting the main stress steel wire rope (8) and the auxiliary stress steel wire rope (9) is arranged on the hoop beam steel wire rope (15).

4. The counter-pull wall-riding basket protection system according to claim 1, wherein: two groups of lower split bolts (6.3) are arranged, and the two groups of lower split bolts (6.3) are vertically and correspondingly arranged below the upper-layer beam (5) at intervals; each group of lower split bolts (6.3) is longitudinally arranged between the vertical supports (6.1) at two sides at intervals; the lower split bolts (6.3) of the upper layer are positioned at the bottom of the upper layer beam (5).

5. The counter-pull wall-riding basket protection system according to claim 1, wherein: the top of the vertical support (6.1) is provided with a supporting plate (6.5); the suspension beams (7.1) are arranged above the vertical supports (6.1) which correspond to each other in the transverse direction, and the suspension beams (7.1) are supported at the tops of the supporting and connecting plates (6.5).

6. The counter-pull wall-riding basket protection system according to claim 1, wherein: the connecting seat (11) comprises a supporting plate (11.1) and a connecting shaft (11.2); the two support plates (11.1) are arranged at intervals along the longitudinal direction; the connecting shaft (11.2) is longitudinally connected between the two supporting plates (11.1); the fixed steel wire rope (7.3) is wound on the connecting shaft (11.2).

7. The counter-drawn riding basket protection system of claim 1, wherein: the first connecting component (10) comprises a first vertical lug plate (10.1) and a first longitudinal rod (10.2); two first vertical lug plates (10.1) are longitudinally connected to the bottom of the outer end of the suspension beam (7.1) at intervals; the first longitudinal rod (10.2) is longitudinally connected between the two first vertical lug plates (10.1); the sling (16) is wound around the first longitudinal bar (10.2).

8. The counter-drawn riding basket protection system of claim 1, wherein: a second vertical lug plate (7.4) is arranged at the top of the outer end of the suspension beam (7.1), and a second inclined lug plate (7.5) is arranged at the inner end of the suspension beam (7.1); the outer end of the fixed steel wire rope (7.3) penetrates through the second vertical lug plate (7.4) and is fixed through a second steel wire buckle (7.7); the second inclined lug plate (7.5) is obliquely connected to the inner end of the suspension beam (7.1); the first dynamometer (12) is connected to the upper end part of the second inclined ear plate (7.5); the inner end of the fixed steel wire rope (7.3) is connected to the first dynamometer (12) and is fixed through the second stainless steel locker (7.6).

9. The counter-drawn riding basket protection system of claim 1, wherein: the suspension beam (7.1) comprises a suspension beam section (7.1.1); the suspension beam sections (7.1.1) are arranged in one group, and the adjacent suspension beam sections (7.1.1) are in adjustable connection through connecting sleeves (7.1.2); the bottom of the upright rod (7.2) is provided with a connecting sleeve (7.8); the connecting sleeve (7.8) is sleeved on the suspension beam (7.1) and is in adjustable connection with the suspension beam (7.1).

10. The counter-drawn riding basket protection system of claim 1, wherein: the bottom of the hanging basket (2) is provided with a roller (21); a safety rope (17) is also arranged on the hanging basket (2); the inner end of the safety rope (17) is connected with the main structure.

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