CN216583899U - High-rise outer wall is applied paint construction with paint high-efficient energy-saving hoisting transportation device - Google Patents

Abstract

The utility model relates to a high-rise outer wall is applied paint construction with high-efficient energy-saving and is lifted by crane the conveyer with a brush, especially relates to the field of lifting by crane the conveyer, and it includes the mounting bracket that two intervals set up, still including setting up two transport mechanism between the mounting bracket, setting are in one be used for providing the actuating mechanism of power and being located the year material mechanism of transport mechanism below on the mounting bracket. The hoisting and transporting device has high transporting efficiency.

Description

High-rise outer wall is applied paint construction with high-efficient energy-saving lifting transport device

Technical Field

The application relates to the field of hoisting and transporting devices, in particular to an efficient and energy-saving hoisting and transporting device for high-rise outer wall painting construction.

Background

When carrying out the applying paint of high-rise outer wall, constructor can stand the operation in the hanging flower basket, in order to guarantee the safety of construction, all can be equipped with the balancing weight on every hanging flower basket, the balancing weight generally leaves in the apotheca in, need transport required position with the balancing weight through the constructor, but the efficiency of artifical transportation is lower, consequently can erect lifting transport device between material loading point and unloading point usually, shifts the balancing weight through lifting transport device.

Chinese utility model patent document with publication number CN213834287U discloses a high-end equipment is made with heavy transportation equipment, including crossbeam and steel cable, the vertical steel cable that is equipped with in crossbeam bottom, steel cable one end fixedly connected with bearing platform, bearing platform side circumference array has clamping device, clamping device includes the bearing joint, contact joint and middle joint, bearing joint one end and bearing platform fixed connection, the other end and middle joint swing joint, the middle joint is kept away from the one end of bearing joint and contact joint one end swing joint, the middle joint is equipped with two sections, the bearing joint surface is equipped with the freely movable joint, the freely movable joint is kept away from the one end of bearing joint and the port swing joint of middle joint.

When needs transported the material, adjust the junction of freely movable joint, when the one end that keeps away from the bearing joint of freely movable joint was connected with contact joint one end, middle joint kept vertical this moment, and contact joint and heavy object contact mention the heavy object, and the slip table passes through the pulley and slides in the inside slide rail of crossbeam, makes the heavy object remove to accomplish the transportation of heavy object.

For the related art, when materials are conveyed, one constructor loads the materials at a material loading point, the other constructor waits for unloading at a material unloading point, and when the constructor loads or unloads the materials, the other constructor is in a waiting state.

SUMMERY OF THE UTILITY MODEL

In order to improve the transport efficiency of transportation equipment, the application provides a high-rise outer wall is applied paint construction with high-efficient energy-saving hoisting transportation device with a brush.

The application provides a high-rise outer wall is applied paint construction with high-efficient energy-saving hoisting transportation device adopts following technical scheme:

the high-efficiency energy-saving hoisting and transporting device for the high-rise outer wall painting construction comprises two mounting frames which are arranged at intervals, a transporting mechanism arranged between the two mounting frames, a driving mechanism arranged on one mounting frame and used for providing power for the transporting mechanism, and a material loading mechanism positioned below the transporting mechanism;

the conveying mechanism comprises a first driving roller, a first traction rope, a second traction rope and a second driving roller, wherein the first driving roller and the second driving roller are respectively installed on corresponding installation frames, one ends of the first traction rope and the second traction rope are wound on the periphery of the first driving roller, the other ends of the first traction rope and the second traction rope are wound on the periphery of the second driving roller, the winding directions of the first traction rope and the second traction rope on the first driving roller are opposite, the winding directions of the first traction rope and the second traction rope on the second driving roller are opposite, the winding directions of the first traction rope on the first driving roller and the second driving roller are the same, and the winding directions of the second traction rope on the first driving roller and the second driving roller are the same;

the material loading mechanisms are arranged in two groups, the two groups of material loading mechanisms are correspondingly arranged on the first traction rope and the second traction rope, the two material loading mechanisms are located between the two mounting frames, one material loading mechanism is close to the first transmission roller, and the other material loading mechanism is close to the second transmission roller.

Through adopting above-mentioned technical scheme, when needs carry out the material and carry, load the material of material loading point through carrying material mechanism, control actuating mechanism work, make actuating mechanism drive first driving roller forward and rotate, first driving roller carries out the rolling to the second haulage rope, make second driving roller forward rotate, thereby drive the second driving roller and carry out the rolling to first haulage rope, the unloading point is carried by the material loading point to first material loading mechanism this moment, the material loading point is carried by the unloading point to the second by the material loading mechanism of material loading point, the constructor of unloading point carries the material loading mechanism material to the second on the second haulage rope, the constructor of unloading point unloads to first material loading mechanism on the first haulage rope.

When the loading and unloading are completed, the driving mechanism is controlled to rotate reversely, the first loading mechanism is conveyed to the loading point through the unloading point, the second loading mechanism is conveyed to the unloading point through the loading point, the first loading mechanism on the first haulage rope is loaded by a constructor of the loading point at the moment, and the second loading mechanism on the second haulage rope is unloaded by a constructor of the unloading point. In the process, the constructor of the unloading point can also carry out loading when the constructor of the unloading point carries out unloading, so that the efficiency of material transportation is improved.

Optionally, the driving mechanism includes a driving motor and a driving controller, the driving motor is installed on the installation frame where the first driving roller is located, an output shaft of the driving motor is fixedly connected with an axis of the first driving roller, and the driving controller is electrically connected with the driving motor.

Through adopting above-mentioned technical scheme, driving motor can drive first drive roll and rotate to drive first haulage rope and the transmission of second haulage rope, realize that first year material mechanism and second carry material mechanism and carry out material transmission between material loading point and unloading point, drive controller can control opening of driving motor simultaneously and stop and turn to, make first year material mechanism and second carry material mechanism can carry out reciprocal transport to the material.

Optionally, the material loading mechanism comprises a sling and a material loading frame connected with the sling, the sling is correspondingly installed on the first traction rope and the second traction rope, the material loading frame is correspondingly arranged at one end, far away from the first traction rope and the second traction rope, of the sling, and the top of the material loading frame is open.

Through adopting above-mentioned technical scheme, when the material loading, in putting into the material loading frame with the material, then the messenger belt drives and carries the material frame and remove on first haulage rope, second haulage rope to accomplish the transportation of material.

Optionally, the material loading frame is detachably arranged on the sling.

Through adopting above-mentioned technical scheme, when carrying out material transmission, can take off from the hoist cable with carrying the material frame for the material loading is lighter with unloading.

Optionally, a plurality of material carrying ropes are fixed to the top of the material carrying frame, one ends, far away from the material carrying frame, of the material carrying ropes are fixed to each other, a hanging ring is fixed to one end, far away from one end corresponding to the first traction rope and the second traction rope, of the sling, and a hook is arranged on the hanging ring in a hanging mode.

Through adopting above-mentioned technical scheme, when the material transported material loading point or unloading point, need will carry the material frame to take off from the hoist cable, this moment directly with the couple take out from rings can for it is more convenient to material loading and unload.

Optionally, a winding mechanism for controlling winding of the slings to adjust lifting of the material carrying frame is arranged between the first traction rope and the corresponding slings.

Through adopting above-mentioned technical scheme, when material loading and unloading are accomplished, drive winding mechanism makes winding mechanism carry out the rolling to the hoist cable, makes to carry the material frame and rises to the height that is close to the steel cable to reduce the degree of rocking of carrying the material frame in the transportation, reduced because of carrying the possibility that the material frame rocks and takes place the accident, when carrying the material frame and reacing material loading point or unloading point, make actuating mechanism unreel the hoist cable, thereby carry out material loading or unload to carrying the material frame.

It is optional, winding mechanism includes mounting box, line roller, rolling motor and rolling controller, two winding mechanism's mounting box corresponds to be fixed on first haulage rope and second haulage rope, mounting box bottom opening sets up, the line roller rotates to be installed in the mounting box, rolling motor installs on the mounting box lateral wall, rolling motor's output shaft pass the mounting box lateral wall with the axle center fixed connection of line roller, the one end that the carrier frame was kept away from to the hoist cable passes the opening duplex winding of mounting box bottom and establishes in the week side of line roller, just the hoist cable in the line roller rolls up when rotating on the line roller, rolling controller with the rolling motor electricity is connected.

Through adopting above-mentioned technical scheme, when carrying the material frame when needs transport, open the rolling controller, make the output shaft of rolling controller control rolling motor rotatory to drive the line roller and rotate, make the hoist cable roll to the line roller on, realize the rolling of hoist cable, thereby drive and carry the material frame and rise, when needs material loading or unloading, make the turning of rolling motor's output shaft change through the rolling controller, thereby unreel the hoist cable from the line roller, thereby drive and carry the material frame and descend. When carrying the material frame and transporting, winding mechanism can carry out the rolling to the hoist cable, makes the hoist cable length between carrying the material frame and the mounting box reduce to reduced the degree of rocking of carrying the material frame in the transportation, the probability that makes the emergence accident when transporting the material reduces.

Optionally, quick-release mechanisms for realizing quick release of the mounting boxes are arranged between the first traction rope and the corresponding mounting boxes and between the second traction rope and the corresponding mounting boxes.

Through adopting above-mentioned technical scheme, when the material transportation was accomplished, can take off from the steel cable through quick detach mechanism with carrying material frame and hoist cable, deposit and preserve carrying material frame and hoist cable, reduced the oxidation that carries material frame and hoist cable and rusted, improved the life who carries material frame and hoist cable.

Optionally, the quick release mechanism comprises an upper snap ring, a lower snap ring, a rotating shaft, a screw and a nut, the upper snap ring and the lower snap ring are arranged oppositely, and a bayonet for clamping the first traction rope and the second traction rope is formed between the upper snap ring and the lower snap ring;

go up snap ring and snap ring one end articulated each other down, go up the snap ring and seted up the joint groove with the tip symmetry of the lower snap ring other end, the pivot is rotated and is set up on the joint inslot wall that is located snap ring down, the screw rod is fixed to be set up global of pivot is last, the screw rod can wind the pivot is rotated go up the joint inslot of snap ring, the nut with the specification adaptation of screw rod, just nut threaded connection is in on the screw rod, nut cooperation screw rod will first haulage rope, second haulage rope press from both sides to be fixed and correspond in the bayonet.

Through adopting above-mentioned technical scheme, when accomplishing material transfer, unscrew the nut, roll out the screw rod from the joint inslot of snap ring down, rotate snap ring down, make down the snap ring around rotating with last snap ring articulated position, snap ring from last snap ring separation will descend, snap ring and lower snap ring take off from the steel cable this moment, thereby take off hoist cable and year material frame, then deposit indoor with hoist cable and year material frame, thereby reduced the influence of external environment such as sunshine and rainfall to hoist cable and year material frame, the life of hoist cable and year material frame has been improved.

In summary, the present application includes at least one of the following beneficial technical effects:

the hoisting and transporting device realizes that a constructor at a discharging point can also carry out loading while the constructor at a loading point carries out discharging, reduces the waiting time of the constructor during material transportation, and improves the efficiency of material transportation;

when the material carrying frame needs to be conveyed, the winding controller is opened, the winding controller controls the output shaft of the winding motor to rotate, the wire roller is driven to rotate, the sling is wound on the wire roller, the sling is wound, the material carrying frame is driven to ascend, when the material is required to be loaded or unloaded, the direction of the output shaft of the winding motor is changed through the winding controller, the sling is unreeled from the wire roller, and the material carrying frame is driven to descend. When the material carrying frame is transported, the winding mechanism can wind the sling, so that the shaking degree of the material carrying frame in the transportation process is reduced, and the probability of accidents in the material transportation process is reduced;

when the material transportation was accomplished, can take off from the steel cable through quick detach mechanism with carrying material frame and hoist cable, deposit and preserve carrying material frame and hoist cable, reduced the oxidation that carries material frame and hoist cable and rusted, improved the life who carries material frame and hoist cable.

Drawings

FIG. 1 is a schematic view of the overall structure of an efficient and energy-saving hoisting and transporting device for high-rise exterior wall painting construction in example 1.

FIG. 2 is a schematic view of the overall structure of the high-efficiency energy-saving hoisting and transporting device for the high-rise exterior wall painting construction in embodiment 2.

Fig. 3 is a schematic view of the internal structure of the mounting box of fig. 2.

FIG. 4 is a schematic view of the overall structure of the high-efficiency energy-saving hoisting and transporting device for the high-rise exterior wall painting construction in embodiment 3.

Fig. 5 is a schematic view of the quick release mechanism shown in fig. 4 from a first perspective.

Fig. 6 is a structural schematic diagram of the quick release mechanism in fig. 4 from a second perspective.

Reference numerals: 1. a mounting frame; 11. a drive motor; 12. inserting holes; 2. a transport mechanism; 21. a first drive roller; 22. a first pull cord; 23. a second pull cord; 24. a second driving roller; 25. rotating the rod; 3. a material loading mechanism; 31. a sling; 311. hooking; 32. a material loading frame; 321. a material carrying rope; 322. a hoisting ring; 4. a winding mechanism; 41. mounting a box; 411. mounting a plate; 42. a wire roller; 43. a winding motor; 5. a fixed block; 6. a quick release mechanism; 61. a snap ring is arranged; 62. a lower snap ring; 63. a rotating shaft; 64. a bayonet; 65. a clamping groove; 66. a screw; 67. and a nut.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a high-rise outer wall brushing construction is with energy-efficient type hoisting transportation device.

Example 1

Referring to fig. 1, high-rise outer wall is applied paint construction with high-efficient energy-saving lifting transport device, including mounting bracket 1, transport mechanism 2, actuating mechanism and year material mechanism 3, mounting bracket 1 interval is provided with two, places material loading point and unloading point at the material transportation respectively, and transport mechanism 2 is used for driving the material and transports the unloading point from the material loading point, and actuating mechanism is used for providing power for transport mechanism 2, and year material mechanism 3 is provided with two sets ofly, and two sets of year material mechanism 3 all are used for loading the material.

Referring to fig. 1, transport mechanism 2 includes first driving roller 21, first haulage rope 22, second haulage rope 23 and second driving roller 24, and equal coaxial welding has dwang 25 on the axle center at first driving roller 21, second driving roller 24 both ends, corresponds dwang 25 on two mounting brackets 1 and has seted up spliced eye 12, and dwang 25 corresponds to rotate and pegs graft in spliced eye 12, and first driving roller 21 and second driving roller 24 can rotate along with dwang 25 on mounting bracket 1.

Referring to fig. 1, the first pulling rope 22 and the second pulling rope 23 are steel cables, one end of the first pulling rope 22 and one end of the second pulling rope 23 are fixed and wound around the first driving roller 21, the other end of the first pulling rope 22 and the other end of the second pulling rope 23 are fixed and wound around the second driving roller 24, the winding directions of the first pulling rope 22 and the second pulling rope 23 on the first driving roller 21 are opposite, the winding directions of the first pulling rope 22 and the second pulling rope 23 on the second driving roller 24 are opposite, the winding directions of the first pulling rope 22 on the first driving roller 21 and the second driving roller 24 are the same, the winding directions of the second pulling rope 23 on the first driving roller 21 and the second driving roller 24 are the same, when the first driving roller 21 rotates, the second driving roller 24 can also rotate together, and at this time, the driving directions of the first pulling rope 22 and the second pulling rope 23 are opposite.

Referring to fig. 1, it is provided with two sets ofly to carry material mechanism 3, two sets ofly carry material mechanism 3 and correspond the setting at first haulage rope 22, on the second haulage rope 23, and two sets ofly carry material mechanism 3 all to be located between two mounting brackets 1 at the in-process of material transportation, every group carries material mechanism 3 to include hoist cable 31 and carry material frame 32, two hoist cable 31 one end welds respectively at the first haulage rope 22 that corresponds, on the straightway of second haulage rope 23, all weld on two hoist cable 31 other ends and have couple 311, carry four year material ropes 321 of material frame 32 top fixedly connected with, it is together fixed through rings 322 to carry the one end that material rope 321 kept away from year material frame 32, it establishes on couple 311 to carry material frame 32 to pass through rings 322. When one material loading mechanism 3 is transported to the first driving roller 21, the other material loading mechanism 3 is transported to the second driving roller 24, and the conveying directions of the two groups of material loading mechanisms 3 are opposite.

Referring to fig. 1, the driving mechanism includes a driving motor 11 and a driving controller, the driving motor 11 is fixedly mounted on the mounting frame 1 where the first driving roller 21 is located through a bolt, an output shaft of the driving motor 11 is coaxially welded to the rotating rod 25, and the driving controller is electrically connected to the driving motor 11 and is not shown in the figure.

The implementation principle of the embodiment 1 is as follows: when the material transportation needs to be carried out, load the material in carrying the material frame 32, carry the material frame 32 and carry to couple 311, open drive controller, make actuating mechanism drive first driving roller 21 forward rotation, first driving roller 21 carries out the rolling to second haulage rope 23, make second driving roller 24 forward rotation, thereby drive second driving roller 24 and carry out the rolling to first haulage rope 22, carry material mechanism 3 on the first haulage rope 22 this moment and carry the unloading point by the material loading point, carry material mechanism 3 on the second haulage rope 23 and carry the material loading point by the unloading point, the constructor of material loading point carries material mechanism 3 material loading on the second haulage rope 23, the constructor of unloading point unloads material mechanism 3 on the first haulage rope 22.

When the loading and unloading are completed, the driving controller controls the driving motor 11 to rotate reversely, so that the loading mechanism 3 on the first hauling rope 22 is conveyed to a loading point from a unloading point, the loading mechanism 3 on the second hauling rope 23 is conveyed to the unloading point from the loading point, at the moment, a constructor at the loading point loads the loading mechanism 3 on the first hauling rope 22, and the constructor at the unloading point unloads the loading mechanism 3 on the second hauling rope 23. In the process, the simultaneous unloading and loading of the constructors at the unloading point and the loading point are realized, and the material transportation efficiency is improved.

Example 2

The present embodiment is different from embodiment 1 in that: referring to fig. 2 and 3, a winding mechanism 4 is further provided between the first and second hauling ropes 22 and 23 and the corresponding slings 31.

Referring to fig. 2 and 3, the winding mechanism 4 includes a mounting box 41, a wire roller 42, a winding motor 43 and a winding controller, fixed blocks 5 are welded on the first traction rope 22 and the second traction rope 23, the two mounting boxes 41 are correspondingly welded on the fixed blocks 5, and openings are formed in the bottoms of the two mounting boxes 41. Two mounting plates 411 are welded on the inner wall of the mounting box 41 at intervals, the two mounting plates 411 are arranged in parallel, and two ends of the wire roller 42 penetrate through the corresponding mounting plates 411 and are rotatably mounted between the two mounting plates 411; the winding motor 43 is fixed on the side wall of the mounting box 41 through a bolt, and an output shaft of the winding motor 43 penetrates through the side wall of the mounting box 41 and is welded on a shaft center at one end of the wire roller 42; one end of the sling 31 far away from the material loading frame 32 penetrates through the bottom opening of the mounting box 41 and is wound on the peripheral wall of the wire roller 42, the wire roller 42 can drive the sling 31 to be wound and unwound when rotating, and the winding controller is electrically connected with the winding motor 43 and is not shown in the figure.

The implementation principle of the embodiment 2 is as follows: when the material carrying frame 32 needs to be conveyed, the winding controller is opened, the winding controller controls the output shaft of the winding motor 43 to rotate, so that the wire roller 42 is driven to rotate, the sling 31 is wound on the wire roller 42, and the material carrying frame 32 is lifted; when loading or unloading is needed, the rotation direction of the output shaft of the winding motor 43 is changed through the winding controller, so that the sling 31 is unreeled from the line roller 42, the descending of the loading frame 32 is realized, and the loading and unloading are carried out. The shaking degree of the material loading frame 32 in the transportation process can be reduced through the rolling mechanism 4, so that the probability of accidents during material transportation is reduced.

Example 3

The present embodiment is different from embodiment 2 in that: referring to fig. 4, 5 and 6, a quick release mechanism 6 is further provided between the first pulling rope 22 and the second pulling rope 23 and the corresponding mounting box 41.

Referring to fig. 4, 5 and 6, each set of quick release mechanisms 6 includes an upper snap ring 61, a lower snap ring 62, a rotating shaft 63, a screw 66 and a nut 67, the upper snap ring 61 and the lower snap ring 62 are disposed opposite to each other, and a bayonet 64 for clamping the first traction rope 22 and the second traction rope 23 is formed between the upper snap ring 61 and the lower snap ring 62.

Go up snap ring 61 and snap ring 62 one end hinge joint down, go up the tip symmetry of snap ring 61 and the lower snap ring 62 other end and seted up joint groove 65, pivot 63 rotates and sets up under on snap ring 62's joint groove 65 lateral wall, the welding of screw rod 66 one end is on the perisporium of pivot 63, nut 67 and screw rod 66's specification adaptation, and nut 67 threaded connection is on the screw rod 66 other end. The screw 66 can rotate around the rotating shaft 63 to the clamping groove 65 of the upper clamping ring 61, and the nut 67 is screwed, so that the nut 67 clamps the upper clamping ring 61 and the lower clamping ring 62 mutually, and the quick release mechanism 6, the winding mechanism 4 and the material carrying mechanism 3 are fixedly mounted on the first traction rope 22 and the second traction rope 23.

The implementation principle of the embodiment 3 is as follows: when the materials are not needed to be conveyed, the nut 67 is unscrewed, the screw 66 is rotated out from the clamping groove 65 of the upper clamping ring 61, the upper clamping ring 61 is rotated around the part hinged with the upper clamping ring 61, at the moment, one end of the upper clamping ring 61 is separated from one end of the lower clamping ring 62, the quick-release mechanism 6, the winding mechanism 4 and the material carrying mechanism 3 are taken down from the first traction rope 22 and the second traction rope 23, and then the material carrying mechanism 3 is stored indoors, so that the influence of external environments such as sunshine and rainfall on the material carrying mechanism 3 is reduced, and the service lives of the sling 31 and the material carrying frame 32 are prolonged.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. High-rise outer wall is applied paint construction with high-efficient energy-saving hoisting transportation device, including mounting bracket (1) that two intervals set up, its characterized in that: the device is characterized by also comprising a conveying mechanism (2) arranged between the two mounting frames (1), a driving mechanism arranged on one mounting frame (1) and used for providing power for the conveying mechanism (2), and a loading mechanism (3) positioned below the conveying mechanism (2);

the transportation mechanism (2) comprises a first driving roller (21), a first traction rope (22), a second traction rope (23) and a second driving roller (24), wherein the first driving roller (21) and the second driving roller (24) are respectively installed on corresponding installation frames (1), one end of the first traction rope (22) and one end of the second traction rope (23) are wound on the peripheral side of the first driving roller (21), the other end of the first traction rope (22) and the other end of the second traction rope (23) are wound on the peripheral side of the second driving roller (24), the winding directions of the first traction rope (22) and the second traction rope (23) on the first driving roller (21) are opposite, the winding directions of the first traction rope (22) and the second traction rope (23) on the second driving roller (24) are opposite, and the winding directions of the first traction rope (22) on the first driving roller (21) and the second driving roller (24) are the same, the winding directions of the second traction ropes (23) on the first driving roller (21) and the second driving roller (24) are the same;

the material loading mechanism (3) is provided with two sets, the two sets of material loading mechanisms (3) are correspondingly arranged on the first traction rope (22) and the second traction rope (23), the two material loading mechanisms (3) are arranged between the two mounting frames (1), one is when the material loading mechanism (3) is close to the first transmission roller (21), the other material loading mechanism (3) is close to the second transmission roller (24).

2. The high-rise exterior wall painting construction high-efficiency energy-saving hoisting and transporting device according to claim 1, characterized in that: the driving mechanism comprises a driving motor (11) and a driving controller, the driving motor (11) is installed on the installation frame (1) where the first driving roller (21) is located, the output shaft of the driving motor (11) is fixedly connected with the shaft center of the first driving roller (21), and the driving controller is electrically connected with the driving motor (11).

3. The high-rise exterior wall painting construction high-efficiency energy-saving hoisting and transporting device according to claim 1, characterized in that: carry material mechanism (3) and include hoist cable (31) and carry material frame (32) of being connected with hoist cable (31), hoist cable (31) are corresponding to be installed on first haulage rope (22), second haulage rope (23), carry material frame (32) and correspond the setting and keep away from the one end of first haulage rope (22), second haulage rope (23) in hoist cable (31), just carry material frame (32) open-top.

4. The high-rise exterior wall painting construction high-efficiency energy-saving hoisting and transporting device according to claim 3, characterized in that: the material loading frame (32) is detachably arranged on the sling (31).

5. The high-rise exterior wall painting construction high-efficiency energy-saving hoisting and transporting device according to claim 4, characterized in that: the top of carrying material frame (32) is provided with a plurality of year material ropes (321), each carry material rope (321) and keep away from the one end reciprocal anchorage of carrying material frame (32), just carry material rope (321) reciprocal anchorage's one end and be fixed with rings (322), the hoist cable (31) is kept away from and is corresponded the one end of first haulage rope (22), second haulage rope (23) is provided with couple (311), couple (311) articulate on rings (322).

6. The high-rise exterior wall painting construction high-efficiency energy-saving hoisting and transporting device according to claim 3, characterized in that: and winding mechanisms (4) used for controlling the winding of the slings (31) to adjust the lifting of the loading frame (32) are arranged between the first traction rope (22), the second traction rope (23) and the corresponding slings (31).

7. The high-rise exterior wall painting construction high-efficiency energy-saving hoisting and transporting device according to claim 6, characterized in that: the winding mechanisms (4) comprise mounting boxes (41), wire rollers (42), winding motors (43) and winding controllers, the mounting boxes (41) of the two winding mechanisms (4) are correspondingly fixed on the first traction rope (22) and the second traction rope (23), the bottom of the mounting box (41) is provided with an opening, the wire roller (42) is rotatably mounted in the mounting box (41), the winding motor (43) is arranged on the side wall of the mounting box (41), an output shaft of the winding motor (43) penetrates through the side wall of the mounting box (41) to be fixedly connected with the axis of the wire roller (42), one end of the sling (31) far away from the material loading frame (32) passes through an opening at the bottom of the mounting box (41) and is wound on the peripheral side of the wire roller (42), and the suspension cable (31) is wound on the wire roller (42) when the wire roller (42) rotates, and the winding controller is electrically connected with the winding motor (43).

8. The high-rise exterior wall painting construction high-efficiency energy-saving hoisting and transporting device according to claim 7, characterized in that: quick-release mechanisms (6) for realizing quick release of the mounting boxes (41) are arranged between the first pulling rope (22), the second pulling rope (23) and the corresponding mounting boxes (41).

9. The high-rise exterior wall painting construction high-efficiency energy-saving hoisting and transporting device according to claim 8, characterized in that: the quick release mechanism (6) comprises an upper clamping ring (61), a lower clamping ring (62), a rotating shaft (63), a screw rod (66) and a nut (67), the upper clamping ring (61) and the lower clamping ring (62) are oppositely arranged, and a bayonet (64) for clamping the first traction rope (22) and the second traction rope (23) is formed between the upper clamping ring (61) and the lower clamping ring (62);

go up snap ring (61) and snap ring (62) one end articulated each other down, go up snap ring (61) and the tip symmetry of the snap ring (62) other end down and seted up joint groove (65), pivot (63) are rotated and are set up on being located the joint groove (65) inner wall of lower snap ring (62), screw rod (66) are fixed to be set up on the global of pivot (63), just screw rod (66) can wind pivot (63) are rotated go up in joint groove (65) of snap ring (61), nut (67) with the specification adaptation of screw rod (66), nut (67) threaded connection be in on screw rod (66), nut (67) cooperation screw rod (66) will first haulage rope (22), second haulage rope (23) are pressed from both sides tightly to be fixed and are corresponded in bayonet socket (64).

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