CN117623130B

CN117623130B - Alarm device for construction hanging basket

Info

Publication number: CN117623130B
Application number: CN202410099056.0A
Authority: CN
Inventors: 张志斌; 李永琰; 张振翔; 黄书舟; 邱雨虹; 肖若愚; 吴科; 刘锴; 李威
Original assignee: China Construction Fifth Engineering Bureau Co Ltd
Current assignee: China Construction Fifth Engineering Bureau Co Ltd
Priority date: 2024-01-24
Filing date: 2024-01-24
Publication date: 2024-04-09
Anticipated expiration: 2044-01-24
Also published as: CN117623130A

Abstract

The invention belongs to the technical field of overweight early warning, and particularly discloses alarm equipment for a building hanging basket, which comprises a driving cylinder, an alarm frame, a main roller, a wire gathering and cutting mechanism and an overweight early warning type display mechanism, wherein the alarm frame is symmetrically arranged on two sides of the driving cylinder, a plurality of groups of main rollers penetrate through the inner wall of the driving cylinder, the main roller is rotationally arranged on the inner wall of the driving cylinder, the wire gathering and cutting mechanism is arranged on two sides of the alarm frame, and the overweight early warning type display mechanism is arranged on one side, far away from the main roller, of the alarm frame. The invention provides an alarm device for a building hanging basket, which has a pre-overload function and can display the state change condition of a steel wire rope in real time when the steel wire rope is used.

Description

Alarm device for construction hanging basket

Technical Field

The invention belongs to the technical field of overweight early warning, and particularly relates to alarm equipment for a building hanging basket.

Background

When the steel wire rope is used on the hanging basket, the operation is usually carried out on the high altitude, so that the use state of the steel wire rope needs to be monitored in real time, the use safety of the steel wire rope is guaranteed, the existing steel wire rope does not have the pre-overload function when in use, if the goods carried on the hanging basket are overloaded, the steel wire rope of the lifting device is easy to break, and accordingly the personnel of the workers are threatened.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the scheme provides the warning equipment for the building hanging basket, which has the function of pre-overload and can display the state change condition of the steel wire rope in real time when the steel wire rope is used.

The technical scheme adopted by the scheme is as follows: the utility model provides an alarm device for building hanging flower basket, including actuating cylinder, alarm frame, main roller, survey and cut line gathering mechanism and overweight early warning type and show attitude mechanism, the alarm frame symmetry is located the actuating cylinder both sides, multiunit main roller runs through and locates the actuating cylinder inner wall, and the actuating cylinder inner wall is located in the main roller rotation, survey and cut the line gathering mechanism and locate the alarm frame both sides, overweight early warning type shows attitude mechanism and locates the alarm frame and keep away from one side of main roller, survey and cut the line gathering mechanism and include actuating mechanism and cross-section mechanism, actuating mechanism locates inside the main roller, cross-section mechanism locates the alarm frame lateral wall, overweight early warning type shows attitude mechanism and includes direct mechanism, multispan mechanism and wire mechanism, direct mechanism locates the alarm frame both sides, multispan mechanism locates on the alarm frame, wire mechanism locates the one end that direct mechanism kept away from the alarm frame.

As a further preferable scheme, the driving mechanism comprises a driving motor, a driving shaft and a rotating plate, wherein the driving motor is arranged on the inner wall of one end of the main roller, the driving shaft is arranged between the power end of the driving motor and the inner wall of the main roller, the driving shaft is rotationally arranged on the inner wall of one end, far away from the driving motor, of the main roller, and the rotating plate is arranged between the main roller and the driving shaft; the section mechanism comprises a section frame, guide shafts, guide frames, surface measuring sleeves and a cross section ranging sensor, wherein the section frame is symmetrically arranged on one side wall of the warning frame, which is close to the main roller, the guide shafts are arranged on one end of the section frame, which is far away from the warning frame, the guide shafts are oppositely arranged, the guide frames are arranged between the guide shafts, the surface measuring sleeves penetrate through the side wall of the section frame, the surface measuring sleeves penetrate through the upper wall and the bottom wall of the surface measuring sleeves, and the test ends of the cross section ranging sensor are oppositely arranged.

When the wire rope winding device is used, the wire rope to be used is wound on the outer side of the main roller respectively, the driving motor drives the driving shaft to rotate through the power end, the driving shaft drives the main roller to rotate through the rotating plate to wind the wire rope, the wire rope is enabled to be orderly wound on the outer side of the main roller, when the wire rope is used, the end part of the wire rope penetrates through the inside of the surface measuring sleeve, the cross section distance measuring sensor calculates the diameter of the wire rope, in an initial state, the cross section distance measuring sensor is respectively fixed on the upper wall and the bottom wall of the surface measuring sleeve, the cross section distance measuring sensor detects the distance from the body to the inner wall of the surface measuring sleeve through the testing end, the total length of the inner wall of the surface measuring sleeve can be obtained, then, after the wire rope enters the inside of the surface measuring sleeve, the distance detected by the testing end of the cross section distance measuring sensor is the distance between the body of the cross section distance measuring sensor and the side wall of the wire rope, the distance between the body of the cross section distance measuring sensor and the side wall of the wire rope is subtracted, and the obtained is the diameter length of the wire rope, and the corresponding tensile force value can be found according to the diameter specification of the wire rope.

Preferably, the direct guiding mechanism comprises a load spring, a buffer plate, a positioning sleeve, a positioning plate and a positioning shaft, wherein the load spring is symmetrically arranged on the side wall of one end of the alarm frame, which is far away from the main roller, the buffer plate is arranged on one side of the load spring, which is far away from the alarm frame, the positioning sleeve is arranged on one side of the alarm frame, which is far away from the main roller, the positioning plate is arranged on one side of the buffer plate, which is far away from the load spring, the positioning shaft is arranged on one side of the positioning plate, which is close to the positioning sleeve, and one end of the positioning shaft, which is far away from the positioning plate, is slidably arranged inside the positioning sleeve; the multi-distance mechanism comprises a distance measuring seat, multi-point display state distance measuring sensors, a receiving frame, receiving plates and three-color lamps, wherein the distance measuring seat is symmetrically arranged on the upper wall and the bottom wall of a positioning sleeve from top to bottom, the multi-point display state distance measuring sensors are symmetrically arranged on two sides of the distance measuring seat, the receiving frame is arranged at one end, close to the positioning plate, of a positioning shaft, the receiving plates are symmetrically arranged on the side walls at two ends of the receiving frame, the receiving plates are oppositely arranged with the multi-point display state distance measuring sensors, and a plurality of groups of three-color lamps are arranged on the upper wall of a buffer plate; the wire guide mechanism comprises a buffer shaft, buffer wheels, bearing seats, bearing shafts and bearing wheels, wherein the buffer shafts are arranged between the buffer plates, multiple groups of the buffer wheels are rotationally arranged on the outer sides of the buffer shafts, the bearing seats are vertically symmetrically arranged on the upper wall and the bottom wall of the alarm frame, which are close to one end of the main roller, the bearing shafts are arranged between the bearing seats, and multiple groups of the bearing wheels are rotationally arranged on the outer sides of the bearing shafts.

When in use, after the end part of the steel wire rope passes through the surface measuring sleeve, the steel wire rope winds from the bottom wall of the buffer wheel to the upper wall of the buffer wheel and then winds to the upper wall of the bearing wheel above the main roller, the steel wire rope passes through the surface measuring sleeve at the other side of the main roller and then winds to the bottom wall of the buffer shaft, the steel wire rope finally passes through the upper wall of the bearing wheel below the main roller, when in an initial state, the steel wire rope passing through the bearing wheel has no load gravity, the multi-point state ranging sensor is fixed on the side wall of the ranging seat to test the distance between the bearing plate, the color of the three-color lamp is green, after the rope passing through the bearing wheel is loaded, the load spring is compressed to generate elastic deformation, the positioning shaft slides into the positioning sleeve, the positioning shaft drives the positioning plate to move relatively, the distance between the multi-point display ranging sensor and the receiving plate is shortened, a compression force value born by the deformation of the load spring is obtained according to a compression force calculation formula of the spring, the compression force value born by the load spring is multiplied by the shortened distance between the multi-point display ranging sensor and the receiving plate, the compression force value born by the load spring is obtained, the tension born by the steel wire rope can be judged, when the tension born by the steel wire rope exceeds a safety value, the color of the three-color lamp is blue, along with the continuous weighting of the load of the steel wire rope, the deformation degree of the load spring is increased, when the tension born by the steel wire rope is close to a zero limit value, the color of the three-color lamp is red, and an operator is reminded that the tension of the steel wire rope is about to approach a limit, and the display of the bearing state of the steel wire rope is completed.

Specifically, the side wall of the alarm frame is provided with a controller.

The controller is respectively and electrically connected with the driving motor, the cross section ranging sensor, the multi-point display state ranging sensor and the tri-color lamp.

Preferably, the controller is of the type SYC89C52RC-401.

Further, the model of the cross section ranging sensor and the multipoint display ranging sensor is C1-JCS1501.

Still further, the model of the tri-color lamp is LTST-G163BEGW-RR1.

The beneficial effect that this scheme of adoption above-mentioned structure obtained is as follows:

compared with the prior art, this scheme adopts the mode of range finding, combines the use of formula, can calculate the compressive force of load spring elastic deformation, can obtain the pulling force size that wire rope received, can show the state of wire rope when the load through the trichromatic lamp that sets up, simultaneously, can cushion the loading pulling force that wire rope born suddenly through the effect of deformation through the load spring that sets up, great improvement wire rope's safe availability factor to can present wire rope's real-time load state through the form of chromatic light, thereby improved building alarm structure's to a certain extent availability factor.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present solution;

FIG. 2 is a bottom perspective view of the present solution;

FIG. 3 is a front view of the present solution;

FIG. 4 is a side view of the present solution;

FIG. 5 is a top view of the present solution;

FIG. 6 is a partial cross-sectional view of portion A-A of FIG. 5;

FIG. 7 is an enlarged view of the portion I of FIG. 1;

fig. 8 is an enlarged structural view of the portion II of fig. 2.

The device comprises a driving cylinder 1, a driving frame 2, an alarm frame 3, a main roller 4, a section measuring type line gathering mechanism 5, a driving mechanism 6, a driving motor 7, a driving shaft 8, a rotating plate 9, a section mechanism 10, a section frame 11, a guiding shaft 12, a guiding frame 13, a surface measuring sleeve 14, a section measuring sensor 15, an overweight early warning type state displaying mechanism 16, a direct guiding mechanism 17, a load spring 18, a buffer plate 19, a positioning sleeve 20, a positioning plate 21, a positioning shaft 22, a multi-distance mechanism 23, a distance measuring seat 24, a multi-point state displaying distance measuring sensor 25, a receiving frame 26, a receiving plate 27, a wire guiding mechanism 28, a buffer shaft 29, a buffer wheel 30, a bearing seat 31, a bearing shaft 32, a bearing wheel 33, a controller 34 and a three-color lamp.

The accompanying drawings are included to provide a further understanding of the present disclosure and are incorporated in and constitute a part of this disclosure, illustrate and do not limit the disclosure.

Detailed Description

The technical solutions in the embodiments of the present solution will be clearly and completely described below with reference to the drawings in the embodiments of the present solution, and it is apparent that the described embodiments are only some embodiments of the present solution, but not all embodiments; all other embodiments, based on the embodiments in this solution, which a person of ordinary skill in the art would obtain without inventive faculty, are within the scope of protection of this solution.

In the description of the present embodiment, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the present embodiment and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and thus should not be construed as limiting the present embodiment.

As shown in fig. 1-8, the warning device for a building hanging basket provided by the scheme comprises a driving barrel 1, a warning frame 2, a main roller barrel 3, an interception type line gathering mechanism 4 and an overweight warning type display mechanism 15, wherein the warning frame 2 is symmetrically arranged on two sides of the driving barrel 1, a plurality of groups of the main roller barrels 3 penetrate through the inner wall of the driving barrel 1, the main roller barrel 3 is rotationally arranged on the inner wall of the driving barrel 1, the interception type line gathering mechanism 4 is arranged on two sides of the warning frame 2, the overweight warning type display mechanism 15 is arranged on one side, far away from the main roller barrel 3, of the warning frame 2, the interception type line gathering mechanism 4 comprises a driving mechanism 5 and a section mechanism 9, the driving mechanism 5 is arranged inside the main roller barrel 3, the section mechanism 9 is arranged on the side wall of the warning frame 2, the overweight warning type display mechanism 15 comprises a direct guide mechanism 16, a multi-distance mechanism 22 and a wire mechanism 27, the direct guide mechanism 16 is arranged on two sides of the warning frame 2, the wire mechanism 27 is arranged on one end, far away from the warning frame 2, of the direct guide mechanism 16.

The driving mechanism 5 comprises a driving motor 6, a driving shaft 7 and a rotating plate 8, the driving motor 6 is arranged on the inner wall of one end of the main roller 3, the driving shaft 7 is arranged between the power end of the driving motor 6 and the inner wall of the main roller 3, the driving shaft 7 is rotatably arranged on the inner wall of one end of the main roller 3 far away from the driving motor 6, and the rotating plate 8 is arranged between the main roller 3 and the driving shaft 7; the section mechanism 9 comprises a section frame 10, guide shafts 11, guide frames 12, a surface measuring sleeve 13 and a cross section ranging sensor 14, wherein the section frame 10 is symmetrically arranged on one side wall of the alarm frame 2, which is close to the main roller 3, the guide shafts 11 are arranged on one end of the section frame 10, which is far away from the alarm frame 2, the guide shafts 11 are oppositely arranged, the guide frames 12 are arranged between the guide shafts 11, a plurality of groups of the surface measuring sleeve 13 are penetrated on the side wall of the section frame 10, the surface measuring sleeve 13 is penetrated, the cross section ranging sensor 14 is penetrated on the upper wall and the bottom wall of the surface measuring sleeve 13, and the test ends of the cross section ranging sensor 14 are oppositely arranged.

The guide mechanism 16 comprises a load spring 17, a buffer plate 18, a positioning sleeve 19, a positioning plate 20 and a positioning shaft 21, wherein the load spring 17 is symmetrically arranged on the side wall of one end, far away from the main roller 3, of the alarm frame 2, the buffer plate 18 is arranged on one side, far away from the alarm frame 2, of the load spring 17, the positioning sleeve 19 is arranged on one side, far away from the main roller 3, of the alarm frame 2, the positioning plate 20 is arranged on one side, far away from the load spring 17, of the buffer plate 18, the positioning shaft 21 is arranged on one side, close to the positioning sleeve 19, of the positioning plate 20, and one end, far away from the positioning shaft 21, of the positioning plate 20 is slidably arranged inside the positioning sleeve 19; the multi-distance mechanism 22 comprises a distance measuring seat 23, a multi-point display state distance measuring sensor 24, a receiving frame 25, a receiving plate 26 and three-color lamps 34, wherein the distance measuring seat 23 is vertically symmetrically arranged on the upper wall and the bottom wall of the positioning sleeve 19, the multi-point display state distance measuring sensor 24 is symmetrically arranged on two sides of the distance measuring seat 23, the receiving frame 25 is arranged at one end, close to the positioning plate 20, of the positioning shaft 21, the receiving plate 26 is symmetrically arranged on two side walls of the receiving frame 25, the receiving plate 26 and the multi-point display state distance measuring sensor 24 are oppositely arranged, and a plurality of groups of three-color lamps 34 are arranged on the upper wall of the buffer plate 18; the wire guide mechanism 27 comprises a buffer shaft 28, buffer wheels 29, a bearing seat 30, a bearing shaft 31 and a bearing wheel 32, wherein the buffer shaft 28 is arranged between the buffer plates 18, a plurality of groups of buffer wheels 29 are rotatably arranged on the outer side of the buffer shaft 28, the bearing seat 30 is vertically symmetrically arranged on the upper wall and the bottom wall of one end, close to the main roller 3, of the alarm frame 2, the bearing shaft 31 is arranged between the bearing seats 30, and a plurality of groups of bearing wheels 32 are rotatably arranged on the outer side of the bearing shaft 31.

The side wall of the alarm frame 2 is provided with a controller 33.

The controller 33 is electrically connected to the driving motor 6, the cross section ranging sensor 14, the multi-point display ranging sensor 24 and the tri-color lamp 34, respectively.

The controller 33 is of the type SYC89C52RC-401.

The cross-sectional ranging sensor 14 and the multi-point display ranging sensor 24 are model C1-JCS1501.

The tri-color lamp 34 is of the type LTST-G163BEGW-RR1.

When the device is specifically used, in the first embodiment, the steel wire ropes to be used are respectively wound on the outer sides of the main rollers 3, the controller 33 controls the driving motor 6 to start, the driving motor 6 drives the driving shaft 7 to rotate through the power end, and the driving shaft 7 drives the main rollers 3 to rotate through the rotating plate 8 to perform winding operation on the steel wire ropes, so that the steel wire ropes are orderly wound on the outer sides of the main rollers 3;

when the hoisting application is carried out on the steel wire rope, the end part of the steel wire rope penetrates through the inside of the surface measuring sleeve 13 to be connected with the hanging basket, the steel wire rope is straightened under the action of gravity of the hanging basket, the steel wire rope is positioned at the central point of the surface measuring sleeve 13 in the straightened state, the cross section distance measuring sensor 14 is used for measuring the diameter of the steel wire rope, the cross section distance measuring sensor 14 is respectively fixed on the upper wall and the bottom wall of the surface measuring sleeve 13 in the initial state, the controller 33 controls the start of the cross section distance measuring sensor 14, the cross section distance measuring sensor 14 detects the distance between the body and the inner wall of the surface measuring sleeve 13 through the test end, the total length of the inner wall of the surface measuring sleeve 13 can be obtained, then, after the steel wire rope enters the inside of the surface measuring sleeve 13, the distance detected by the test end of the cross section distance measuring sensor 14 is the distance between the body and the side wall of the steel wire rope, the distance between the two end cross section distance measuring sensor 14 bodies and the side wall of the steel wire rope is subtracted by the total length of the diameter of the steel wire rope, and the corresponding tensile strength value can be found according to the diameter specification of the steel wire rope;

after the end part of the steel wire rope wound on the outer side of the main roller 3 passes through the surface measuring sleeve 13, the steel wire rope winds to the upper wall of the main roller 3 from the bottom wall of the buffer wheel 29, then winds to the upper wall of the bearing wheel 32 above the main roller 3, passes through the surface measuring sleeve 13 on the other side of the main roller 3, then winds to the bottom wall of the main roller through the upper wall of the buffer shaft 28, and finally passes through the upper wall of the bearing wheel 32 below the main roller 3;

in an initial state, when the steel wire rope penetrating through the bearing wheel 32 is free of load gravity, the controller 33 controls the multi-point state ranging sensor 24 to start, the multi-point state ranging sensor 24 is fixed on the side wall of the ranging seat 23 to test the distance between the multi-point state ranging sensor 24 and the receiving plate 26, at the moment, the color of the tri-color lamp 34 is green, after the rope penetrating through the bearing wheel 32 is loaded, the load spring 17 receives compression force to generate elastic deformation, the positioning shaft 21 slides into the positioning sleeve 19, the positioning shaft 21 drives the positioning plate 20 to relatively move, the distance between the multi-point state ranging sensor 24 and the receiving plate 26 is shortened, the compression force required by unit deformation of the load spring 17 is obtained according to a compression force calculation formula of the spring, the compression force value received by the load spring 17 is multiplied by the shortened distance between the multi-point state ranging sensor 24 and the receiving plate 26, the compression force value received by the load spring 17 is obtained, and then the tension value received by the load spring 17 can be judged, when the tension received by the steel wire rope exceeds a safety value, the color of the tri-color lamp 34 is changed to be blue, the color is controlled as the load value received by the load rope exceeds the safety value, the load value continuously changes, the color of the load of the steel wire rope is controlled to be close to the color of the load state, and the color of the load state is changed to the load state when the load state is close to the load state, and the load state of the load state is controlled to the load state is more than the red, and the load state is more than the load when the load state is close to the load; repeating the operation when the product is used next time.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present solution have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations may be made to these embodiments without departing from the principles and spirit of the solution, the scope of which is defined in the appended claims and their equivalents.

The present embodiment and the embodiments thereof have been described above with no limitation, and the embodiment shown in the drawings is merely one of the embodiments of the present embodiment, and the actual structure is not limited thereto. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the technical solution.

Claims

1. The utility model provides an alarm device for building hanging flower basket, includes actuating cylinder (1), alarm frame (2) and main roll section of thick bamboo (3), its characterized in that: the automatic alarm device is characterized by further comprising an alarm frame (2) symmetrically arranged at two sides of the driving cylinder (1) and a plurality of groups of alarm frame (2) penetrating through the inner wall of the driving cylinder (1), the driving cylinder (3) is rotationally arranged at the inner wall of the driving cylinder (1), the alarm frame (2) is arranged at two sides of the alarm frame (2) by the alarm frame (4), the overweight alarm frame (15) is arranged at one side of the alarm frame (2) far away from the driving cylinder (3), the alarm frame (4) comprises a driving mechanism (5) and a section mechanism (9), the driving mechanism (5) is arranged inside the driving cylinder (3), the section mechanism (9) is arranged at the side wall of the alarm frame (2), the overweight alarm frame (15) comprises a direct guide mechanism (16), a multi-distance mechanism (22) and a wire mechanism (27), the direct guide mechanism (16) is arranged at two sides of the alarm frame (2), and the multi-distance mechanism (22) is arranged at one end of the alarm frame (2) far away from the wire mechanism (27);

the section mechanism (9) comprises a section frame (10), a guide shaft (11), a guide frame (12), a surface measuring sleeve (13) and a section distance measuring sensor (14), wherein the section frame (10) is symmetrically arranged on the side wall of one end, close to the main roller (3), of the warning frame (2), the guide shaft (11) is arranged on one end, far away from the warning frame (2), of the section frame (10), and the guide shaft (11) is oppositely arranged;

the guide mechanism (16) comprises a load spring (17), a buffer plate (18), a positioning sleeve (19), a positioning plate (20) and a positioning shaft (21), wherein the load spring (17) is symmetrically arranged on the side wall of one end, far away from the main roller (3), of the warning frame (2), and the buffer plate (18) is arranged on one side, far away from the warning frame (2), of the load spring (17);

the multi-distance mechanism (22) comprises a distance measuring seat (23), a multi-point display state distance measuring sensor (24), a receiving frame (25), a receiving plate (26) and a tri-color lamp (34), wherein the distance measuring seat (23) is symmetrically arranged on the upper wall and the bottom wall of the positioning sleeve (19) up and down, and the multi-point display state distance measuring sensor (24) is symmetrically arranged on two sides of the distance measuring seat (23);

the wire guide mechanism (27) comprises a buffer shaft (28), buffer wheels (29), a bearing seat (30), a bearing shaft (31) and bearing wheels (32), wherein the buffer shaft (28) is arranged between the buffer plates (18), and a plurality of groups of buffer wheels (29) are rotatably arranged outside the buffer shaft (28).

2. An alert device for a construction basket according to claim 1, characterized in that: the driving mechanism (5) comprises a driving motor (6), a driving shaft (7) and a rotating plate (8), wherein the driving motor (6) is arranged on one end inner wall of the main roller (3), the driving shaft (7) is arranged between the power end of the driving motor (6) and the inner wall of the main roller (3), the driving shaft (7) is rotationally arranged on one end inner wall of the main roller (3) far away from the driving motor (6), and the rotating plate (8) is arranged between the main roller (3) and the driving shaft (7).

3. An alert device for a construction basket according to claim 2, characterized in that: the guide frame (12) is arranged between the guide shafts (11), a plurality of groups of surface measuring sleeves (13) are penetrated through the side walls of the section frame (10), the surface measuring sleeves (13) are penetrated, the cross section ranging sensors (14) are penetrated through the upper wall and the bottom wall of the surface measuring sleeves (13), and the testing ends of the cross section ranging sensors (14) are oppositely arranged.

4. A warning device for a construction basket according to claim 3, characterised in that: the positioning sleeve (19) is arranged on one side, far away from the main roller (3), of the warning frame (2), the positioning plate (20) is arranged on one side, far away from the load spring (17), of the buffer plate (18), the positioning shaft (21) is arranged on one side, close to the positioning sleeve (19), of the positioning plate (20), and one end, far away from the positioning plate (20), of the positioning shaft (21) is slidably arranged inside the positioning sleeve (19).

5. An alert device for a construction basket according to claim 4, characterized in that: the receiving frame (25) is arranged at one end of the positioning shaft (21) close to the positioning plate (20), the receiving plates (26) are symmetrically arranged on the side walls at two ends of the receiving frame (25), the receiving plates (26) are oppositely arranged with the multi-point display state ranging sensors (24), and a plurality of groups of tri-color lamps (34) are arranged on the upper wall of the buffer plate (18).

6. An alert device for a construction basket according to claim 5, characterized in that: the bearing seats (30) are vertically symmetrically arranged on the upper wall and the bottom wall of the alarm frame (2) close to one end of the main roller (3), the bearing shafts (31) are arranged between the bearing seats (30), and a plurality of groups of bearing wheels (32) are rotationally arranged on the outer sides of the bearing shafts (31).