CN219365344U - A remove operation frame for building engineering - Google Patents

Abstract

The utility model provides a movable operation frame for building engineering, and belongs to the technical field of building construction equipment. This a remove operation frame for building engineering includes lifting unit, removal subassembly and folding subassembly, lifting unit includes bearing structure and elevation structure, elevation structure sets up inside the bearing structure, elevation structure includes bi-directional motor, output shaft, first helical gear, second helical gear and lead screw, bi-directional motor fixes bearing structure one side, the output shaft is fixed bi-directional motor one end, first helical gear cup joints output shaft one side. The utility model uses the bidirectional motor to drive the gear and the screw rod, so that the operation table board can be lifted, the electric lifting rod is used for enabling the rubber wheel to support the whole equipment, so as to move, and then the operation table board can be folded by using the bolt fixing mode, so that the scaffold which is fast and integrated with lifting, moving and installing is realized.

Description

A remove operation frame for building engineering

Technical Field

The utility model relates to the technical field of building construction equipment, in particular to a movable operating frame for building engineering.

Background

The movable scaffold refers to various supports erected for worker operation and solving vertical and horizontal transportation at a construction site, and is deeply favored by large and small construction workers because of simple construction and good bearing performance, but the scaffold does not have the functions of height adjustment and movement, so that a sheet-like scaffold construction scene is frequently seen, and the scaffold is basically disassembled into a single part when disassembled due to the fact that the simple structure thereof causes no corresponding protection measures to the protective performance of the workers, and time is wasted when the scaffold is reassembled together, so that a scaffold which can be folded and can provide height adjustment and movement is required.

Chinese patent No. CN216810856U provides a remove operation frame for building engineering, the on-line screen storage device comprises a base, the equal fixedly connected with backup pad in upper end left portion and upper end right part of base, two the spacing groove has all been opened to the right-hand member front portion and the right-hand member rear portion of backup pad, two common fixedly connected with fixed plate between the upper end middle part of backup pad, the upper end middle part fixedly connected with feeding mechanism of fixed plate, common swing joint has elevating system between the lower extreme of fixed plate and the upper end of base, the equal interlude fixedly connected with pushing hands in left end front portion and the left end rear portion of base, the equal fixedly connected with in lower extreme four corners of base takes the universal wheel of stopping. According to the movable operation frame for the building engineering, the material taking mechanism and the traction mechanism are arranged, so that construction materials can be conveniently taken, the working efficiency is improved, the lifting mechanism is arranged, the height of the operation frame can be conveniently adjusted, the practical performance of the device is improved, and the movable operation frame is suitable for wide use.

At present, the existing movable operation frame for constructional engineering has no better countermeasures in lifting and moving, and is mainly welded in structure because of the weight of a load bearing person, so that the equipment is overlarge in size, and therefore, the transportation is difficult.

Disclosure of Invention

In order to make up for the defects, the utility model provides a movable operation frame for constructional engineering, which aims to improve the movable operation frame for constructional engineering and solves the problem that the movable operation frame cannot be folded and moved by adding rubber wheels and a plurality of fixing holes.

The utility model is realized in the following way:

the utility model provides a movable operation frame for constructional engineering, which comprises a lifting assembly, a movable assembly and a folding assembly.

The lifting assembly comprises a supporting structure and a lifting structure, the lifting structure is arranged inside the supporting structure, the lifting structure comprises a bidirectional motor, an output shaft, a first bevel gear, a second bevel gear and a screw rod, the bidirectional motor is fixed on one side of the supporting structure, the output shaft is fixed on one end of the bidirectional motor, the first bevel gear is sleeved on one side of the output shaft, the second bevel gear is meshed with the first bevel gear, the screw rod is fixed on the top end of the second bevel gear, the moving assembly comprises a supporting leg structure and a moving structure, the supporting leg structure is fixed on the bottom of the supporting structure, the moving structure is arranged inside the supporting leg structure, the folding assembly comprises a supporting table folding structure and a lifting folding structure, the supporting table folding structure is fixed on the top of the supporting structure, and the lifting folding structure is fixed on the bottom of the supporting table folding structure;

the supporting structure comprises a supporting plate, a shrinkage bottom column, a middle column, a folding column and a supporting connecting hole, wherein the shrinkage bottom column is fixed at the top of the supporting plate, the supporting plate is fixedly connected with the bidirectional motor, the middle column is slidably connected inside the shrinkage bottom column, the folding column is slidably connected inside the middle column, the connecting hole is formed in one side of the folding column, and the middle column and the folding column are in threaded connection with a screw rod;

the supporting leg structure comprises a supporting block, an electric lifting rod and a butt joint hole, wherein the supporting block is connected to the bottom of the supporting plate through bolts, the electric lifting rod is fixed to the top of the supporting block, and the butt joint hole is formed in the top of the supporting block;

the moving structure comprises a low-speed motor and a rubber wheel, the low-speed motor is fixed at one end of the electric lifting rod, and the rubber wheel is fixed at the output end of the low-speed motor;

the supporting table folding structure comprises a first pair of folding plates, a second pair of folding plates, a guardrail fixing hole, an anti-folding fixing hole, a rotating shaft, double guardrails and a single guardrail, wherein the first folding plates are rotationally connected to one side of the folding column, and the second folding plates are rotationally connected to one side of the first folding plates;

the guardrail fixing holes are formed in the tops of the first pair of folded plates and the second pair of folded plates, the anti-folding fixing holes are formed in one sides of the first pair of folded plates and the second pair of folded plates, one sides of the first pair of folded plates and the second pair of folded plates are rotationally connected with rotating shafts, the double guardrails are inserted into the tops of the first pair of folded plates and the second pair of folded plates, and the single guardrails are inserted into the tops of the first pair of folded plates and the second pair of folded plates;

the lifting folding structure comprises a rotating block, a rotating column and a fixing block, wherein the rotating block is fixed at the bottoms of the first pair of folded plates and the second pair of folded plates, the rotating column is rotationally connected inside the rotating block, and the fixing block is fixed at the bottoms of the first pair of folded plates and the second pair of folded plates;

the beneficial effects of the utility model are as follows: according to the movable operation frame for the construction engineering, when the movable operation frame is used, the two-way motor drives the first bevel gear, the second bevel gear meshed with the first bevel gear drives the screw rod, so that the middle column and the folding column can move up and down, the folding structure of the supporting table above the folding column is driven to lift, the rubber wheel is slowly pushed out through the electric lifting rod, the supporting block is separated from the ground after the rubber wheel is pushed to a certain extent, the rubber wheel is driven to move through the low-speed motor, the first folded plate pair and the second folded plate pair can be folded through the anti-folding fixing holes, and the lifting mechanism can be folded through the connecting holes, so that the whole equipment is folded into a small-volume mode.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view of the overall structure of a mobile operation frame for construction engineering according to an embodiment of the present utility model;

fig. 2 is a schematic view of a lifting structure of a mobile operation frame for construction engineering according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a support leg structure of a mobile operator frame for construction work according to an embodiment of the present utility model;

fig. 4 is a schematic view of a lifting and folding structure of a mobile operation frame for construction engineering according to an embodiment of the present utility model.

In the figure: 100-lifting assembly; 110-a support structure; 111-a support plate; 112-collapsing the bottom pillar; 113-a middle column; 114-folding column; 115-connecting holes; 120-lifting structure; 121-a bi-directional motor; 122-output shaft; 123-a first helical gear; 124-a second helical gear; 125-screw rod; 200-moving the assembly; 210-a support leg structure; 211-supporting blocks; 212-an electric lifting rod; 213-docking holes; 220-moving structure; 221-low speed motor; 222-rubber wheel; 300-folding assembly; 310-a support table folding structure; 311-a first pair of flaps; 312-a second pair of flaps; 313-guard rail fixing holes; 314-anti-folding fixing holes; 315-rotating shaft; 316-double guard rail; 317-single guard bar; 320-lifting folding structure; 321-rotating blocks; 322-rotating the column; 323-fixed block.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, based on the embodiments of the utility model, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: a mobile operating frame for construction engineering includes a lifting assembly 100, a moving assembly 200, and a folding assembly 300.

Referring to fig. 1, 2 and 4, the lifting assembly 100 includes a supporting structure 110 and a lifting structure 120, the lifting structure 120 is disposed inside the supporting structure 110, the lifting structure 120 includes a bi-directional motor 121, an output shaft 122, a first bevel gear 123, a second bevel gear 124 and a screw rod 125, the bi-directional motor 121 is fixed on one side of the supporting structure 110, the output shaft 122 is fixed at one end of the bi-directional motor 121, the first bevel gear 123 is sleeved on one side of the output shaft 122, the second bevel gear 124 is meshed with the first bevel gear 123, and the screw rod 125 is fixed on the top end of the second bevel gear 124.

The supporting structure 110 comprises a supporting plate 111, a shrinkage bottom column 112, a middle column 113, a folding column 114 and a supporting connecting hole 115, wherein the shrinkage bottom column 112 is fixed at the top of the supporting plate 111, the supporting plate 111 is fixedly connected with a bidirectional motor 121, the middle column 113 is slidably connected inside the shrinkage bottom column 112, the folding column 114 is slidably connected inside the middle column 113, the connecting hole 115 is formed in one side of the folding column 114, the connecting hole 115 is used for fixing the folding column 114 and preventing rotation, and the middle column 113 and the folding column 114 are in threaded connection with a screw rod 125 and can enable the middle column 113 and the folding column 114 to lift through the screw rod 125.

Referring to fig. 1 and 3, the moving assembly 200 includes a supporting leg structure 210 and a moving structure 220, wherein the supporting leg structure 210 is fixed at the bottom of the supporting structure 110, and the moving structure 220 is disposed inside the supporting leg structure 210;

the supporting leg structure 210 comprises a supporting block 211, an electric lifting rod 212 and a butt joint hole 213, wherein the supporting block 211 is connected to the bottom of the supporting plate 111 through bolts, the supporting block 211 is used for supporting the whole equipment through large-area contact and is not easy to slide, the electric lifting rod 212 is fixed at the top of the supporting block 211, the butt joint hole 213 is formed in the top of the supporting block 211, and the butt joint hole 213 is used for enabling the supporting block 211 to be detached, so that the whole weight of the equipment in the carrying process is reduced; the moving structure 220 includes a low-speed motor 221 and a rubber wheel 222, the low-speed motor 221 is fixed at one end of the electric lifting rod 212, the low-speed motor 221 is a motor with strong power and low rotation speed, and the rubber wheel 222 is fixed at the output end of the low-speed motor 221.

Referring to fig. 1 and 4, the folding assembly 300 includes a supporting table folding structure 310 and a lifting folding structure 320, the supporting table folding structure 310 is fixed on the top of the supporting structure 110, and the lifting folding structure 320 is fixed on the bottom of the supporting table folding structure 310;

the supporting table folding structure 310 comprises a first pair of folded plates 311, a second pair of folded plates 312, a guardrail fixing hole 313, an anti-folding fixing hole 314, a rotating shaft 315, a double guardrail 316 and a single guardrail 317, wherein the first pair of folded plates 311 are rotationally connected to one side of the folding column 114, the second pair of folded plates 312 are rotationally connected to one side of the first pair of folded plates 311, the guardrail fixing hole 313 is formed in the tops of the first pair of folded plates 311 and the second pair of folded plates 312, the guardrail fixing hole 313 is used for plugging the guardrail, the guardrail does not move, the first pair of folded plates 311 and the second pair of folded plates 312 are indirectly reinforced through the guardrail, the anti-folding fixing hole 314 is formed in one side of the first pair of folded plates 311 and one side of the second pair of folded plates 312, the rotating shaft 315 is rotationally connected to one side of the first pair of folded plates 311 and the second pair of folded plates 312, the double guardrail 316 is plugged at the tops of the first pair of folded plates 311 and the second pair of folded plates 312, and the single guardrail 317 is plugged at the tops of the first pair of folded plates 311 and the second pair of folded plates 312.

The lifting folding structure 320 comprises a rotating block 321, a rotating column 322 and a fixing block 323, wherein the rotating block 321 is fixed at the bottoms of the first pair of folded plates 311 and the second pair of folded plates 312, the rotating column 322 is rotationally connected inside the rotating block 321, and the fixing block 323 is fixed at the bottoms of the first pair of folded plates 311 and the second pair of folded plates 312.

Specifically, the working principle of the movable operation frame for the constructional engineering is as follows: when the electric rubber wheel is used, the first pair of folded plates 311 and the second pair of folded plates 312 are firstly unfolded horizontally around the rotating shaft 315, then the two anti-folding fixing holes 314 are penetrated by the bolts, so that the first pair of folded plates 311 and the second pair of folded plates 312 cannot rotate, then the folding column 114 is erected around the rotating column 322, the bolts penetrate through the connecting holes 115 to be screwed into the inside of the fixing block 323, so that the folding column 114 is fixed and not rotated, then the bolts penetrate through the butt joint holes 213, the supporting block 211 and the supporting plate 111 are connected together, the operation frame is completed by building, then an operator stands above the first pair of folded plates 311 and the second pair of folded plates 312, the single guardrail 317 and the double guardrail 316 are lifted, the bolts at the bottom of the guardrail are inserted into the guardrail fixing holes 313, and the guardrail is installed, when the working height needs to be changed, the second bevel gear 124 meshed with the first bevel gear 123 is driven by the bidirectional motor 121, the screw rod 125 is driven to rotate, when the screw rod 125 rotates, the middle column 113 and the folding column 114 correspondingly ascends and descends, so that the operator reaches the most convenient working height, the electric motor moves down, the whole electric motor is required to move the electric motor 212, the whole electric motor is required to move down, the whole rubber wheel is slowly, and the whole rubber wheel is started up and down at the low speed 222 is started by the low-speed, and the whole rubber wheel is driven by the low-speed 222, and the whole device is driven by the low-speed supporting device is driven by the low-speed motor, and the low-speed motor is 222, and the speed and is required to move the speed and is driven by the low-speed and is low-speed motor, and is speed, and is low, and the speed, can move.

It should be noted that, specific model specifications of the bi-directional motor 121 and the low-speed motor 221 need to be determined by selecting a model according to an actual specification of the device, and a specific model selection calculation method adopts the prior art in the art, so detailed descriptions thereof are omitted.

The power supply of the bi-directional motor 121 and the low-speed motor 221 and the principle thereof will be apparent to those skilled in the art and will not be described in detail herein.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, and various modifications and variations may be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (1)

1. A mobile operating frame for construction engineering, characterized by comprising

Lifting assembly (100), lifting assembly (100) include bearing structure (110) and lifting structure (120), lifting structure (120) set up inside bearing structure (110), lifting structure (120) are including bi-directional motor (121), output shaft (122), first helical gear (123), second helical gear (124) and lead screw (125), bi-directional motor (121) are fixed bearing structure (110) one side, output shaft (122) are fixed bi-directional motor (121) one end, first helical gear (123) cup joint in output shaft (122) one side, second helical gear (124) and first helical gear (123) meshing, lead screw (125) are fixed second helical gear (124) top;

a moving assembly (200), the moving assembly (200) comprising a supporting leg structure (210) and a moving structure (220), the supporting leg structure (210) being fixed at the bottom of the supporting structure (110), the moving structure (220) being arranged inside the supporting leg structure (210);

the folding assembly (300) comprises a supporting table folding structure (310) and a lifting folding structure (320), wherein the supporting table folding structure (310) is fixed at the top of the supporting structure (110), and the lifting folding structure (320) is fixed at the bottom of the supporting table folding structure (310);

the supporting structure (110) comprises a supporting plate (111), a shrinkage bottom column (112), a middle column (113), a folding column (114) and a supporting connecting hole (115), wherein the shrinkage bottom column (112) is fixed at the top of the supporting plate (111), the supporting plate (111) is fixedly connected with the bidirectional motor (121), the middle column (113) is slidingly connected inside the shrinkage bottom column (112), the folding column (114) is slidingly connected inside the middle column (113), one side of the folding column (114) is provided with the connecting hole (115), and the middle column (113) and the folding column (114) are in threaded connection with a screw rod (125);

the supporting leg structure (210) comprises a supporting block (211), an electric lifting rod (212) and a butt joint hole (213), wherein the supporting block (211) is connected to the bottom of the supporting plate (111) through bolts, the electric lifting rod (212) is fixed to the top of the supporting block (211), and the butt joint hole (213) is formed in the top of the supporting block (211);

the moving structure (220) comprises a low-speed motor (221) and a rubber wheel (222), the low-speed motor (221) is fixed at one end of the electric lifting rod (212), and the rubber wheel (222) is fixed at the output end of the low-speed motor (221);

the supporting table folding structure (310) comprises a first pair of folded plates (311), a second pair of folded plates (312), a guardrail fixing hole (313), an anti-folding fixing hole (314), a rotating shaft (315), double guardrails (316) and a single guardrail (317), wherein the first pair of folded plates (311) are rotatably connected to one side of the folding column (114), and the second pair of folded plates (312) are rotatably connected to one side of the first pair of folded plates (311);

the guardrail fixing holes (313) are formed in the tops of the first pair of folded plates (311) and the second pair of folded plates (312), the anti-folding fixing holes (314) are formed in one sides of the first pair of folded plates (311) and the second pair of folded plates (312), rotating shafts (315) are rotatably connected to one sides of the first pair of folded plates (311) and the second pair of folded plates (312), the double guardrails (316) are inserted into the tops of the first pair of folded plates (311) and the second pair of folded plates (312), and the single guardrails (317) are inserted into the tops of the first pair of folded plates (311) and the second pair of folded plates (312);

the lifting folding structure (320) comprises a rotating block (321), a rotating column (322) and a fixed block (323), wherein the rotating block (321) is fixed at the bottoms of the first pair of folded plates (311) and the second pair of folded plates (312), the rotating column (322) is rotationally connected inside the rotating block (321), and the fixed block (323) is fixed at the bottoms of the first pair of folded plates (311) and the second pair of folded plates (312).