CN218581133U

CN218581133U - Scaffold for building engineering

Info

Publication number: CN218581133U
Application number: CN202222324383.0U
Authority: CN
Inventors: 平金成
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-09-01
Filing date: 2022-09-01
Publication date: 2023-03-07
Anticipated expiration: 2032-09-01

Abstract

The utility model relates to the field of building engineering articles, in particular to a building engineering scaffold, which comprises an underframe, a roller, a support frame and a top plate, and also comprises a control component; control assembly is including the installation pole, the install bin, drive bevel gear, the crank, the post is established to the cover, drive bevel gear and connecting elements, installation pole and roof fixed connection, the install bin can be dismantled with the installation pole and be connected, drive bevel gear rotates with the install bin and is connected, crank and drive bevel gear fixed connection, the cover is established the post and is rotated with the install bin and be connected, drive bevel gear and drive bevel gear meshing, connecting elements is located one side of chassis, it can rotate through the gyro wheel that the component that sets up makes the constructor at top can the direct control drive bottom to realized, thereby the removal of the whole scaffold of more convenient control.

Description

Scaffold for building engineering

Technical Field

The utility model relates to a field of building engineering articles for use especially relates to a building engineering scaffold.

Background

Scaffold frame all need be used usually when being under construction to higher wall body, and scaffold frame structure in the past is all fairly simple, can only lift through many people and remove when constructor need remove the scaffold frame of accomplishing the installation, and very waste time and energy.

For scaffold frame is more convenient when removing, current scaffold frame bottom mostly sets up the gyro wheel in the four corners, so just so can directly make holistic removal light more swift through the roll of gyro wheel.

However, the mode is adopted, when a longer wall body is processed, a part of the wall body needs to be moved to another position for processing after being processed, although the rollers are arranged, the movement can be easier, but the constructor at the top of the scaffold needs to control the scaffold to move to assist in pushing through other constructors, but the constructors are in shortage at present, so that the scaffold needs to climb to push by oneself, physical strength is consumed in the continuous climbing process, safety accidents are easy to happen, and the labor intensity of the constructors is greatly enhanced in the whole moving process.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building engineering scaffold frame can make the constructor at top can rotate by the gyro wheel of direct control drive bottom through the component that sets up to the removal of the whole scaffold frame of more convenient control.

In order to achieve the purpose, the utility model provides a scaffold for building engineering, which comprises a bottom frame, rollers, a support frame and a top plate, wherein the rollers are arranged at the bottom of the bottom frame, the support frame is arranged at the top of the bottom frame, and the top plate is arranged on the support frame;

the control assembly comprises an installation rod, an installation box, a driving bevel gear, a crank, a sleeve, a column, a driving bevel gear and a connecting member, wherein the installation rod is fixedly connected with the top plate and located on one side of the top plate, the installation box is detachably connected with the installation rod and located on one side of the installation rod, the driving bevel gear is rotatably connected with the installation box and located in the installation box, the crank is fixedly connected with the driving bevel gear and located on one side of the installation box, the sleeve is connected with the installation box in a rotating mode and located on one side of the installation box, the driving bevel gear is meshed with the driving bevel gear, the sleeve is fixedly arranged on the column, and the connecting member is located on one side of the bottom frame.

The connecting component comprises an inserting rod, a bottom box, a connecting column and a driving part, wherein the inserting rod is detachably connected with the sleeved column and penetrates through the sleeved column; the bottom box is fixedly connected with the bottom frame and is positioned on one side of the bottom frame; the connecting column is connected with the inserting rod and is rotatably arranged on one side of the bottom box; the driving part is positioned on one side of the bottom frame.

The driving component comprises a rotating bevel gear, a connecting gear shaft, a matching bevel gear, a driving gear shaft and a gear belt; the rotating bevel gear is fixedly connected with the connecting column and sleeved on the connecting column; the connecting gear shaft is rotationally connected with the bottom box and is positioned in the bottom box; the matching bevel gear is meshed with the rotating bevel gear and fixedly sleeved on the connecting gear shaft; the driving gear shaft is fixedly connected with the roller and penetrates through the bottom box; the both sides of gear belt are established respectively the connection gear axle with on the drive gear axle, the gear belt is located in the under casing.

The connecting column is provided with a matching boss, and the matching boss is positioned on one side of the connecting column close to the inserting rod.

Wherein, the construction engineering scaffold further comprises a limiting component, and the limiting component is positioned on one side of the insertion rod.

The limiting assembly comprises a sleeved wheel, a circular groove block and a matching pin, wherein the sleeved wheel is connected with the inserting rod and is rotatably arranged on one side of the mounting box; the circular groove block is fixedly connected with the installation box and is positioned on one side, close to the sleeved wheels, of the installation box; the matching pin is detachably connected with the circular groove block and penetrates through the sleeved wheel.

The utility model discloses a building engineering scaffold frame at first accomplishes the component installation that will correspond, then when top constructor need carry out mobility control to whole, just can be through rocking the crank drives drive bevel gear rotates, drive bevel gear drives drive bevel gear with the post is established to the cover rotates, then the cover is established the post and is passed through the installation the inserted bar drives the spliced pole rotates, thereby passes through the spliced pole drive drives rotation bevel gear rotates rotation bevel gear makes corresponding cooperation bevel gear under rotation bevel gear's the drive connect the gear shaft with the drive gear shaft carries out the rotation that corresponds the direction respectively, passes through at last drive gear shaft drives both sides the gyro wheel rotates alright drive whole removal under the rotation of gyro wheel, realized that the constructor that can the direct control drive bottom through the component that sets up rotates to the removal of the whole scaffold frame of more convenient control.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural view of the whole scaffold for construction engineering according to the first embodiment of the present invention.

Fig. 2 is a schematic view of the internal structure of the bottom case according to the first embodiment of the present invention.

Fig. 3 is a schematic view of the internal structure of the installation box according to the first embodiment of the present invention.

Fig. 4 is a schematic structural view of the whole construction scaffold according to the second embodiment of the present invention.

Fig. 5 is an enlarged view of fig. 4 a according to a second embodiment of the present invention.

In the figure: 101-underframe, 102-roller, 103-support frame, 104-top plate, 105-mounting rod, 106-mounting box, 107-driving bevel gear, 108-crank, 109-sleeved column, 110-driving bevel gear, 111-insertion rod, 112-bottom box, 113-connecting column, 114-rotating bevel gear, 115-connecting gear shaft, 116-matching bevel gear, 117-driving gear shaft, 118-gear belt, 119-matching boss, 201-sleeved wheel, 202-circular groove block and 203-matching pin.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, which are described below by way of example with reference to the accompanying drawings, and which are intended to illustrate the present invention and are not to be construed as limiting the same.

The first embodiment of the present application is:

referring to fig. 1 to 3, fig. 1 is a schematic structural view of the entire scaffold for construction engineering, fig. 2 is a schematic internal structural view of the bottom case 112, and fig. 3 is a schematic internal structural view of the installation case 106. The utility model provides a building engineering scaffold frame: the scaffold comprises an underframe 101, rollers 102, a support frame 103, a top plate 104 and a control assembly, wherein the underframe 101, the rollers 102, the support frame 103 and the top plate 104 are used as the control assembly, the control assembly comprises an installation rod 105, an installation box 106, a driving bevel gear 107, a crank 108, a sleeved column 109, a driving bevel gear 110 and a connecting member, the connecting member comprises an insertion rod 111, a bottom box 112, a connecting column 113 and a driving part, the driving part comprises a rotating bevel gear 114, a connecting gear shaft 115, a matching bevel gear 116, a driving gear shaft 117 and a gear belt 118, and the connecting column 113 is provided with a matching boss 119;

for the specific embodiment, the rollers 102 are installed at the bottom of the bottom frame 101, the supporting frame 103 is installed at the top of the bottom frame 101, the top plate 104 is installed on the supporting frame 103, the rollers 102 are totally provided with four rollers 102, the four rollers 102 are respectively installed on the clamping bosses at four corners of the bottom frame 101, and each roller 102 is sleeved with a friction outer layer, so that the contact with the ground during rolling is more stable, the two supporting frames 103 are fixed at two sides of the bottom frame 101 through bolts, each supporting frame 103 is further provided with a corresponding climbing platform, so that a user can climb the supporting frame, and the top plate 104 is fixed on the supporting frame 103 through bolts, so that the user can detach and install the supporting frame 103 and the top plate 104.

Wherein, the mounting rod 105 is fixedly connected with the top plate 104 and located at one side of the top plate 104, the mounting box 106 is detachably connected with the mounting rod 105 and located at one side of the mounting rod 105, the driving bevel gear 107 is rotatably connected with the mounting box 106 and located in the mounting box 106, the crank 108 is fixedly connected with the driving bevel gear 107 and located at one side of the mounting box 106, the sleeved column 109 is rotatably connected with the mounting box 106 and located at one side of the mounting box 106, the driving bevel gear 110 is engaged with the driving bevel gear 107 and fixedly sleeved on the sleeved column 109, the connecting member is located at one side of the underframe 101, the inserting rod 111 is detachably connected with the sleeved column 109 and penetrates through the sleeved column 109; the bottom box 112 is fixedly connected with the bottom frame 101 and is positioned at one side of the bottom frame 101; the connecting column 113 is connected with the inserting rod 111 and is rotatably installed at one side of the bottom case 112; the driving component is located on one side of the chassis 101, the matching boss 119 is located on one side of the connecting column 113 close to the inserting rod 111, a plurality of threaded holes with equal intervals are arranged in a sliding groove on the mounting rod 105, a connecting boss on the side of the mounting box 106 is matched with the sliding groove of the mounting rod 105, and a corresponding threaded hole is also arranged on the connecting boss, so that the mounting box 106 can be mounted with the mounting rod 105 through bolts, meanwhile, the mounting height can be correspondingly adjusted according to the matching with the threaded holes with different heights, the crank 108 is fixedly mounted on the outer side of the driving bevel gear 107, the driving bevel gear 110 sleeved on the outer side of the sleeved column 109 is meshed with the driving bevel gear 107, the inserting rod 111 is a hexagonal rod, the sleeved column 109 is provided with a through groove with a shape matched with the shape of the inserting rod 111, meanwhile, the mounting box 106 is also provided with a circular groove for the rotating of the inserting rod 111 at a corresponding position, so that the inserting rod 111 can rotate together with the sleeved column 109, the matching boss 119 is also provided with the inserting rod 111, so that the connecting column 113 can be matched with the bottom of the rotating bottom of the connecting column 113, and thus, when the connecting column is driven, the rotating box 112.

Secondly, the rotating bevel gear 114 is fixedly connected with the connecting column 113 and sleeved on the connecting column 113; the connecting gear shaft 115 is rotatably connected with the bottom case 112 and is positioned in the bottom case 112; the mating bevel gear 116 is engaged with the rotating bevel gear 114 and fixedly sleeved on the connecting gear shaft 115; the driving gear shaft 117 is fixedly connected with the roller 102 and penetrates through the bottom box 112; the two sides of the gear belt 118 are respectively sleeved on the connecting gear shaft 115 and the driving gear shaft 117, the gear belt 118 is located in the bottom box 112, the two sides of the driving gear shaft 117 are respectively fixed with the rollers 102 on the two corresponding sides, the gear on the connecting gear shaft 115 is connected with the gear on the driving gear shaft 117 through the gear belt 118, and the matching bevel gear 116 at the tail end of the connecting gear shaft 115 is meshed with the rotating bevel gear 114 sleeved and fixed on the connecting column 113, so that when the rotating bevel gear 114 rotates along with the connecting column 113, the matching bevel gear 116 can drive the connecting gear shaft 115 to rotate under the driving of the rotating bevel gear 114, and then the driving gear shaft 117 is driven by the gear belt 118 to rotate with the rollers 102.

When the scaffold for building engineering is used, corresponding components are installed, and then when a top constructor needs to control the whole movement, the crank 108 is shaken to drive the driving bevel gear 107 to rotate, the driving bevel gear 107 drives the driving bevel gear 110 and the sleeved columns 109 to rotate, then the sleeved columns 109 drive the connecting columns 113 to rotate through the installed inserting rods 111, so that the connecting columns 113 drive the rotating bevel gears 114 to rotate, the corresponding matching bevel gears 116, the connecting gear shafts 115 and the driving gear shafts 117 are driven to rotate in corresponding directions respectively by the driving bevel gears 114, finally the rollers 102 on two sides are driven to rotate through the driving gear shafts 117, the whole scaffold can be driven to move under the rotation of the rollers 102, and the top constructor can directly control the rollers 102 at the bottom to rotate through the arranged components, so that the movement of the whole scaffold can be controlled more conveniently.

Second embodiment:

on the basis of the first embodiment, please refer to fig. 4 and 5, fig. 5 is a schematic structural diagram of the whole construction scaffold of the second embodiment, fig. 5 is an enlarged view of a point a of fig. 4 of the second embodiment, the utility model provides a construction scaffold further comprises a limiting component, and the limiting component comprises a nesting wheel 201, a circular groove block 202 and a matching pin 203.

For the specific embodiment, the limiting component is located at one side of the insertion rod 111, and the sleeved column 109 can be limited by the installation of the limiting component, so that the rotation of the bottom corresponding roller 102 is limited.

Wherein, the sleeved wheel 201 is connected with the insertion rod 111 and is rotatably installed at one side of the installation box 106; the round groove block 202 is fixedly connected with the installation box 106 and is positioned on one side, close to the sleeved wheel 201, of the installation box 106; the matching pin 203 is detachably connected with the circular groove block 202 and penetrates through the sleeving wheel 201, a through groove matched with the sleeving wheel 201 is formed in the position, corresponding to the insertion rod 111, of the sleeving wheel 201, so that the insertion rod 111 can be conveniently inserted, meanwhile, a plurality of circular grooves opposite to the circular tables at the bottoms of the matching pin 203 are formed in the circumference of the sleeving wheel 201, circular grooves corresponding to the sleeving wheel 201 and the circular tables at the bottoms of the matching pin 203 are also formed in the circular groove block 202, and when one circular groove of the sleeving wheel 201 is overlapped with the circular groove of the circular groove block 202, the sleeving wheel 201 is connected with the circular groove block 202 through the insertion of the matching pin 203, so that the rotation limiting of the sleeving wheel 201 is realized.

When the scaffold for building engineering of the embodiment is used, the rotation of the nesting wheel 201 can be ensured to be consistent with that of the insertion rod 111 through the connection between the nesting wheel 201 and the insertion rod 111, then when the nesting wheel 201 rotates to a specified position, the nesting wheel 201 can be limited through the matching of the matching pin 203 and the nesting wheel 201 and the circular groove block 202, so that the rotation limitation of the nesting wheel 201 and the insertion rod 111 is realized, when the rotation limitation of the insertion rod 111 is performed, the corresponding connecting column 113 and the transmission member in the bottom box 112 cannot rotate, and finally, the rotation limitation of the roller 102 is realized, so that the corresponding state can be ensured more stably when the whole device needs to stop moving.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims

1. A scaffold for building engineering comprises a bottom frame, rollers, a support frame and a top plate, wherein the rollers are arranged at the bottom of the bottom frame, the support frame is arranged at the top of the bottom frame, the top plate is arranged on the support frame,

the device also comprises a control component;

2. The construction scaffolding of claim 1,

3. The construction scaffolding of claim 2,

4. The construction scaffolding of claim 2,

5. The construction scaffolding of claim 2,

the construction engineering scaffold further comprises a limiting assembly, and the limiting assembly is located on one side of the insertion rod.

6. The construction scaffolding of claim 5,

the limiting assembly comprises a sleeved wheel, a round groove block and a matching pin, and the sleeved wheel is connected with the inserting rod and is rotatably arranged on one side of the mounting box; the circular groove block is fixedly connected with the installation box and is positioned on one side, close to the sleeved wheels, of the installation box; the matching pin is detachably connected with the circular groove block and penetrates through the sleeved wheel.