NL2030099A - Construction-used climbing device and using method thereof - Google Patents

Abstract

The present disclosure discloses a construction-used climbing device and a using method thereof, and relates to the technical field of construction engineering. The climbing 5 device comprises a frame, one surface of the frame is sliding fit with a lifting frame, and the bottom of the frame is in sliding fit with four bearing bars, the frame comprises a bottom plate; two supporting frames are fixed to one surface of the bottom plate; two rectangular grooves are formed in one end of each supporting frame, a connecting rod is fixed to an inner surface of each rectangular groove, a pulley is rotationally fixed to 10 the peripheral side of the connecting rod through a ball bearing; two double-rotor motors are fixed to one surface of the bottom surface, and a roller bearing is fixed to one end of each of two rotating shafts of the double-rotor motor, the peripheral side of the roller bearing is sleeved with a wire cable, the wire cable is in running fit with the pulley, and a pothook is fixed to one end of the wire cable. In the climbing device provided by the 15 present disclosure, two double-rotor motors drive four roller bearings to rotate to wind wire cables, and then the wire cables drive a lifting frame, thus flexibly controlling the height of the lifting frame, the physical consumption brought by climbing can be avoided, the construction is more convenient, and the working efficiency is improved.

Description

CONSTRUCTION-USED CLIMBING DEVICE AND USING METHOD THEREOF TECHNICAL FIELD

[01] The present disclosure belongs to the technical field of construction engineering, and in particular relates to a construction-used climbing device and a using method thereof.

BACKGROUND ART

[02] Traditional Chinese architecture is dominated by timber architectures, while traditional Western architecture is dominated by masonry. The modern architecture is dominated by reinforced concrete. A large amount of equipment, including carts, climbing devices, transport equipment, etc, are required on the construction sites, where the climbing devices are indispensable in the construction process.

[03] Inthe building construction, a simple scaffold is generally used for construction in relatively high areas, however, the scaffold is inflexible in structural height adjustment, frequent climbing up and down is required in the use of the scaffold, and physical consumption of a user is extremely high. Moreover, in an existing scaffold, rollers are mostly installed at the bottom for carrying, however, in the actual use process, the scaffold with the rollers is prone to shaking in the construction process, the safety risk is high, and the rollers are often damaged due to excessive bearing, resulting in inconvenience in the subsequent construction.

SUMMARY

[04] Anobjective of the present disclosure is to provide a construction-used climbing device and a using method thereof. A double-rotor motor drives a roller bearing to rotate to wind a wire cable, and then the wire cable drives a lifting frame, thus flexibly controlling the height of the lifting frame, the physical consumption caused by climbing is avoided, and the problems that an existing scaffold structure is inflexible in height adjustment, frequent climbing up and down is required in the use of the scaffold, and the physical consumption of a user is extremely high are solved.

[05] To solve the technical problem, the present disclosure is achieved through the following technical solutions:

[06] aconstruction-used climbing device comprises a frame, one surface of the frame is in sliding fit with a lifting frame, and the bottom of the frame is in sliding fit with four bearing bars;

[07] the frame comprises a bottom plate, two supporting frames are fixed to an upper surface of the bottom plate, two rectangular grooves are formed in the side face of one end of each supporting frame; a connecting rod is fixed to an inner surface of each rectangular groove; a pulley is connected to the peripheral side of the connecting rod through a ball bearing; a top plate is fixed to the side face of one end of each of the two supporting frames; two double-rotor motors are fixed to one surface of the bottom plate; the two double-rotator motors are respectively located at one side face of one supporting frame and one side face of the other supporting frame and close to both ends of the bottom plate; a roller bearing is fixed to one end of each of the two rotating shafts of the double-rotor motor; the peripheral side of the roller bearing is sleeved with a wire cable; the wire cable is in running fit with the pulley; and a pothook 1s fixed to one end of the wire cable.

[08] Further, through holes are formed in both ends of the lifting frame, two retaining rings are fixed to both ends of the lifting frame, and the retaining rings are clamped with the pothooks.

[09] Further, a jack 1s fixed to the side face of one end of each bearing bar, a bearing plate is fixed to one end of the jack, and the bearing plate is of a circular structure.

[10] Further, four universal wheels are fixed to one surface of a bottom plate .

[11] Further, two guide bars are fixed to one surface of the bottom plate; the two guide bars are located between the two supporting frames; one end face of each guide bar is fixedly connected to one surface of the top plate; and the peripheral sides of the guide bars are in sliding fit with the through holes.

[12] Further, four sleeves are fixed to one surface of the bottom plate, wherein two sleeves are transversely located at both ends of the bottom plate, and the other two sleeves are vertically located at positions close to the center position of the bottom plate.

[13] Further, a using method of a construction-used climbing device comprises following operation steps:

[14] SSOI: nesting four bearing bars in sleeves respectively, and when one side face of a bottom plate is close to a wall surface, nesting two bearing bars in the other side of the bottom plate;

[15] SSO02: rotating handles of four jacks respectively, jacking up pistons of the jacks to drive a frame to move upwards, thus making universal wheels suspend and enabling a construction worker to enter a lifting frame at the same time;

[16] SSO03: turning on two double-rotor motors, wherein rotating shafts of the two double-rotor motors drive four roller bearings to rotate respectively to wind wire cables, and meanwhile, a pothook at one end of each of the four wire cables is clamped with a corresponding retaining ring, thus driving the lift frame to displace upwards; and

[17] SSO04: after reaching the construction height, turning off the two double-rotor motors to fix a lifting position the lifting frame, thus facilitating the construction worker to work on the construction site.

[18] The construction-used climbing device and the using method thereof provided by the present disclosure have the following beneficial effects that:

[19] 1. the two double-rotor motors drive the four roller bearings to rotate to wind the wire cables, and then the wire cables drive the lifting frame, thus flexibly controlling the height of the lifting frame, the physical consumption caused by climbing is avoided, the construction is more convenient, and the working efficiency is improved;

[20] 2. by nesting the two bearing bars in the sleeves conveniently, a device is jacked up by the four jacks, the often damage of the rollers due to excessive bearing is avoided, and meanwhile, the bearing plate is used for bearing the device, the shaking generated in the construction process 1s reduced, and the safety performance of the device is improved.

[21] Certainly, it is not necessary to achieve all the above advantages at the same time to implement any product of the present disclosure.

BRIEF DESCRIPTION OF THE DRAWINGS

[22] To describe the technical solutions in the embodiments of the present disclosure more clearly, the following briefly introduces the accompanying drawings required for describing the embodiments. Apparently, the accompanying drawings in the following description show merely some embodiments of the present disclosure, and those of ordinary skill in the art may still derive other drawings from these accompanying drawings without creative efforts.

[23] FIG. 1is a structure diagram of a construction-used climbing device and a using method thereof in accordance with the present disclosure;

[24] FIG. 2 is a structure diagram of a frame;

[25] FIG. 3 is a structure diagram of a lifting frame;

[26] FIG. 41s a structure diagram of a bearing bar.

[27] In the drawings, components represented by various reference numbers are listed as follows:

[28] 1-frame, 2-lifting frame, 3-bearing bar, 101-bottom plate, 102-supporting frame, 103-rectangular groove, 104-connecting rod, 105-pulley, 106-top plate, 107-double- rotor motor, 108-roller bearing, 109-wire cable, 1010-pothook, 1011-universal wheel, 1012-guide bar, 1013-sleeve, 201-through hole, 202-retaining ring, 301-jack, 302- bearing plate.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[29] The following clearly and completely describes the technical solutions in the embodiments of the present disclosure with reference to the accompanying drawings in the embodiments of the present disclosure. Apparently, the described embodiments are merely a part rather than all of the embodiments of the present disclosure. All other embodiments obtained by those of ordinary skill in the art based on the embodiments of the present disclosure without creative efforts shall fall within the protection scope of the present disclosure.

[30] Please referring to FIGs. 1-4, the present disclosure provides a construction-used climbing device, which comprises a frame 1, one surface of the frame 1 is in sliding fit 5 with a lifting frame 2, and the bottom of the frame 1 is in sliding fit with four bearing bars 3; the frame 1 comprises a bottom plate 101; two supporting frame 102 are fixed to one surface of the bottom plate 101; two rectangular grooves 103 are formed in one end of each supporting frame 102; a connecting rod 104 is fixed to an inner surface of each rectangular groove 103; a pulley 105 is rotationally connected to the peripheral side of the connecting rod 104 through a ball bearing; a top plate 106 is fixed to one end face of each of the two supporting frames 102; two double-rotor motors 107 are fixed to one surface of the bottom plate 101; a roller bearing 108 is fixed to one end of each of two rotating shafts of the double-rotor motor 107; the peripheral side of the roller bearing 108 is sleeved with a wire cable 109; the wire cable 109 is in running fit with the pulley 105, and a pothook 1010 is fixed to one end of the wire cable 109.

[31] As shown in FIG. 1 and FIG. 3, through holes 201 are formed in both ends of the lifting frame 2; two retaining rings 202 are fixed to both ends of the lifting frame 2; and the retaining rings 202 are clamped with the pothooks 1010.

[32] Asshownin FIG. 4, a jack 301 is fixed to the side face of one end of each bearing bar 3, and a bearing plate 302 is fixed to one end of the jack 301.

[33] As shown in FIG. 2, four universal wheels 1011 are fixed to one surface of a bottom plate 101.

[34] As shown in FIG. 2 and FIG. 3, two guide bars 1012 are fixed to one surface of the bottom plate 101; one end face of each guide bar 1012 is fixedly connected to one surface of the top plate 106; and the peripheral sides of the guide bars 1012 are in sliding fit with the through holes 201.

[35] As shown in FIG. 2, four sleeves 1013 are fixed to one surface of the bottom plate 101, and the bearing bars 3 are nested in the sleeves 1013.

[36] A using method of a construction-used climbing device comprises following operation steps:

[37] SSOI: nesting four bearing bars in sleeves respectively, and when one side face of a bottom plate is close to a wall surface, nesting two bearing bars in the other side of the bottom plate;

[38] SS02: rotating handles of four jacks respectively, jacking up pistons of the jacks to drive a frame to move upwards, thus making universal wheels suspend and enabling a construction worker to enter a lifting frame at the same time;

[39] SS03: turning on two double-rotor motors, wherein rotating shafts of the two double-rotor motors drive four roller bearings to rotate respectively to wind wire cables, and meanwhile, a pothook at one end of each of the four wire cables is clamped with a corresponding retaining ring, thus driving the lift frame to displace upwards; and

[40] SS04: after reaching the construction height, turning off the two double-rotor motors to fix a lifting position the lifting frame, thus facilitating the construction worker to work on the construction site.

[41] In the description of the specification, description with reference to "one embodiment," "an example," "a particular example," or the like, means that particular features, structures, materials, or characteristics described in connection with the embodiment or example are included in at least one embodiment or example of the present disclosure. In the specification, schematic recitations for the above terms do not necessarily refer to the same embodiment or example. Moreover, the particular features, structures, materials, or characteristics described may be combined in a suitable manner in any one or more embodiments or examples.

[42] The preferred embodiments of the present disclosure disclosed above are intended only to help illustrate the present disclosure. The preferred embodiments are not exhaustive recitation of all the details and are not intended to limit the present disclosure to only the specific embodiments described. Apparently, many modifications and variations may be made in accordance with the contents of this specification. These embodiments are selected and described in detail by this specification to better interpret the principle and actual applications of the present disclosure, thus making those skilled in the art to understand and utilize the present disclosure better.

The present disclosure is to be limited only by the claims, along with their full scope and equivalents.

Claims (2)

-8- Conclusions l. Climbing device using a structure comprising a frame (1), one surface of the frame (1) being in sliding fit with a lifting frame (2) and the bottom of the frame (1) being in sliding fit with a plurality of of carrier bars (3); wherein the frame (1) comprises a bottom plate (101); wherein a plurality of support frames (102) are mounted on one surface of the bottom plate (101); wherein a plurality of rectangular grooves (102) are formed in one end of each support frame (102), a connecting rod (104) being mounted on an inner surface of each rectangular groove (103); wherein a guide wheel (105) is rotatably connected to the circumferential side of each connecting bar (104) by a ball bearing; wherein a top plate (106) is mounted on one end face of each of the plurality of support frames (90); wherein a plurality of twin rotor motors (107) are mounted on one surface of bottom plate (101); wherein a roller bearing (108) is mounted on one end of each of the two rotation shafts of the twin rotor motor (107); wherein the circumferential side of the roller bearing (108) is inserted into a sleeve-like member with a wire rope (109), the wire rope (109) being in a running fit with the guide wheel (105), and wherein a rack hook (1010) is mounted on one end of the wire rope (109); through holes (201) being formed in both ends of the lifting frame (2); wherein a plurality of retaining rings (202) are attached to both ends of the lifting frame (2); and the retaining rings (202) are clamped with the rack hooks (1010). A method of using a climbing device using a structure according to claim 1, the method comprising the steps of: SS0I1: nesting four carrier bars (3) in respective sleeve-like elements (1013) and when one side face of a bottom plate (101) is close to a wall surface, nesting two carrier bars (3) in the other side of the bottom plate; SS02: Rotating handles of four jacks (301) respectively, where jacking pistons of the jacks (301) serve to drive a frame (1) to move upwards so that universal wheels (1011) are suspended and a -9. enable construction worker to enter the lifting frame (2) at the same time; SS03: Turning on two twin-rotor motors (107), with the rotational shafts of two twin-rotor motors (107) driving four roller bearings (108) to rotate respectively to wind wire ropes (109), meanwhile winding a rack hook ( 1010) is clamped onto one end of each of the four wire ropes (109) with a corresponding retaining ring (202), so that the lifting frame (2) is driven to move upwards; and SS04: after reaching the construction height, turning off the two twin-rotor motors (207) to confirm a lifting position of the lifting frame (2) so that it is made easy for the construction worker to work on the construction site.