CN218091973U - Combined type climbing frame structure - Google Patents

Abstract

The application provides a modular frame structure of climbing belongs to and climbs a structure field. This frame structure is climbed to combination formula includes combined mechanism and elevating system, the riser is provided with two, two the spread groove has all been seted up at the riser top, the spread groove both sides all communicate and have accomodate the groove, the riser both sides all slide to run through there are the slide bar, both sides the relative one end of slide bar all is connected with and is located the inside stopper of spread groove, accomodate the groove and can supply the stopper passes, the elastic component set up in the riser outside and with the slide bar links to each other, the elastic component with the slide bar corresponds the setting, the riser is inside to be provided with two the drive the slide bar is kept away from mutually the guide, the handle passes through guide and two the slide bar links to each other, the inside drive that is provided with of riser the footboard goes up and down the rotating part, this combined type climbs the frame structure and is convenient for go up and down and be convenient for splice processing the footboard.

Description

Combined climbing frame structure

Technical Field

The application relates to a climb a structure field, particularly, relate to a modular structure of climbing.

Background

The climbing frame is also called a lifting frame, and can be classified into hydraulic, electric, manual and hand-pulling types according to its power source. The scaffold is a novel scaffold system developed in recent years and is mainly applied to high-rise shear wall type building plates. It can ascend or descend along the building. This system makes the scaffold technology completely improved: firstly, the frame does not need to be turned over; and secondly, the scaffold is free from the dismounting and mounting process (the scaffold is used till the construction is finished after one-time assembly), and is not limited by the height of a building, so that the manpower and the materials are greatly saved. And also has a great improvement on the traditional scaffold in the safety angle. Has great development advantages in high-rise buildings.

To the frame structure that climbs of combination formula, for the height that improves the frame structure that climbs, often need increase the concatenation to it, the operation is not simple and convenient enough when the concatenation is increased to current combination formula frame structure that climbs, needs consume the physical power of higher time. In addition, the current structural pedal of climbing frame is inconvenient carries out the lift that adapts to according to people's height for the staff is comparatively inconvenient to the work of outer wall, thereby influences work efficiency, consequently has certain limitation.

SUMMERY OF THE UTILITY MODEL

In order to remedy the above deficiencies, the present application provides a combined climbing frame structure, which aims to improve the above-mentioned problems.

The embodiment of the application provides a modular frame structure of climbing, including combined mechanism and elevating system, combined mechanism includes riser, slide bar, elastic component, guide and handle, the riser is provided with two, and two the spread groove has all been seted up at the riser top, the spread groove both sides all communicate and have accomodate the groove, the riser both sides all slide to run through the slide bar, both sides the relative one end of slide bar all is connected with and is located the inside stopper of spread groove, accomodate the groove and can supply the stopper passes, the elastic component set up in the riser outside and with the slide bar links to each other, the elastic component with the slide bar corresponds the setting, the riser is inside to be provided with the drive two the slide bar is kept away from the guide, the handle passes through guide and two the slide bar links to each other, elevating system includes pedal and rotating member, two the riser front end slides and is provided with same the pedal, the inside drive that is provided with of riser the rotating member that the pedal goes up and down.

In the above implementation process, when the worker performs the construction operation of the outer wall, the worker stands on the pedal to perform work, because the front ends of the two vertical plates are slidably provided with the same pedal, and the vertical plates are internally provided with rotating parts for driving the pedal to lift, so that the pedal is driven to lift through the rotating parts, so as to adjust according to the lifting of different people, so that the worker can perform the construction operation better.

In a specific embodiment, the elastic member includes a spring and a baffle, the baffle is fixed to both ends of the two opposite slide bars, the spring is sleeved outside the slide bars, one end of the spring is connected to the vertical plate, the other end of the spring is connected to the baffle, the guide member includes a first pull rope, a second pull rope and a guide wheel, the guide wheel is rotatably mounted outside the vertical plate, the ends of the two opposite slide bars are respectively connected to the first pull rope and the second pull rope, the second pull rope bypasses the guide wheel and movably penetrates through the vertical plate, and the end of the first pull rope adjacent to the second pull rope is fixed to the handle.

In the implementation process, the guide wheels are arranged, so that the moving direction of the second pull rope is changed, the pull handle is pulled to drive the baffle plates on the two sides to be away from each other, and the spring sleeved outside the slide rod is stretched accordingly, so that the slide rod tends to reset.

In a specific embodiment, a through hole through which the second pull rope can pass is arranged inside the vertical plate and outside the vertical plate corresponding to the second pull rope.

In the implementation process, the second pull rope can movably penetrate through the vertical plate through the arrangement of the through hole.

In a specific embodiment, a sliding groove is formed in the front end of the vertical plate, a sliding block sliding in the sliding groove is arranged at the rear end of the pedal, the rotating part comprises a screw rod and a rotating hand, the screw rod is rotatably mounted inside the sliding groove, the sliding block is sleeved on the screw rod in a threaded manner, the rotating hand is arranged outside the vertical plate, and one end of the rotating hand penetrates through the inside of the sliding groove and is in transmission connection with the screw rod.

In the implementation process, the rotating hands on two sides are rotated to drive the screw rods on two sides to rotate, the sliding block is sleeved on the screw rods in a threaded mode, and the sliding block slides inside the sliding groove, so that the sliding block can slide in the sliding groove according to the thread transmission principle, and the pedal can vertically move.

In a specific implementation scheme, a first helical gear is fixedly sleeved on the outer wall of the screw rod, one end of the rotating handle penetrates through the vertical plate to be connected with a second helical gear, and the second helical gear is meshed with the first helical gear.

In the implementation process, the rotating hand rotates to drive the second bevel gear to rotate, and then the screw rod on the inner side of the first bevel gear is driven to rotate.

In a specific embodiment, a reinforcing plate is fixed at the bottom between the two vertical plates.

In the implementation process, the reinforcing plate is arranged, so that the two vertical plates are in a connection state, and the firmness of the vertical placement of the vertical plates is improved.

Drawings

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic structural view of a combined climbing frame structure provided in an embodiment of the present application;

fig. 2 is a front view of a vertical plate according to an embodiment of the present disclosure;

FIG. 3 is an enlarged view of A in FIG. 2 provided by an embodiment of the present application;

FIG. 4 is a side sectional view of a slider inside a riser according to an embodiment of the present disclosure;

fig. 5 is an enlarged view of a portion B in fig. 4 according to an embodiment of the present disclosure.

In the figure: 100-a combination mechanism; 110-vertical plate; 111-a connecting trough; 112-a receiving groove; 113-a chute; 114-a reinforcement plate; 120-a slide bar; 121-a limiting block; 130-a resilient member; 131-a spring; 132-a baffle; 150-a guide; 151-first pull cord; 152-a second draw cord; 153-a guide wheel; 160-handle; 200-a lifting mechanism; 210-treading; 211-a slider; 220-a rotating member; 221-a screw rod; 2211-first bevel gear; 222-turning hands; 2221-second helical gear.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Referring to fig. 1-5, the present application provides a combined climbing frame structure, including a combination mechanism 100 and a lifting mechanism 200, the combination mechanism 100 includes vertical plates 110, two sliding rods 120, elastic members 130, guide members 150 and handles 160, the vertical plates 110 are provided with two, the tops of the two vertical plates 110 are both provided with connecting grooves 111, both sides of the connecting grooves 111 are both communicated with accommodating grooves 112, both sides of the vertical plates 110 are both slidably penetrated with the sliding rods 120, opposite ends of the sliding rods 120 on both sides are both connected with limiting blocks 121 located inside the connecting grooves 111, the accommodating grooves 112 are for the limiting blocks 121 to pass through, the elastic members 130 are arranged outside the vertical plates 110 and connected with the sliding rods 120, the elastic members 130 are arranged corresponding to the sliding rods 120, the guide members 150 driving the two sliding rods 120 to be away from each other are arranged inside the vertical plates 110, the handles 160 are connected with the two sliding rods 120 through the guide members 150, the lifting mechanism 200 includes a pedal 210 and a rotating member 220, the front ends of the two vertical plates 110 are slidably provided with the same pedal 210, and the rotating member 220 driving the pedal 210 to lift is arranged inside the vertical plates 110.

In some specific embodiments, the elastic member 130 includes a spring 131 and a baffle 132, the baffle 132 is fixed to opposite ends of the two sliding rods 120, the spring 131 is sleeved outside the sliding rods 120, one end of the spring 131 is connected to the vertical plate 110, the other end of the spring 131 is connected to the baffle 132, the guide 150 includes a first pull rope 151, a second pull rope 152 and a guide wheel 153, the guide wheel 153 is rotatably installed outside the vertical plate 110, opposite ends of the two baffle 132 are respectively connected to the first pull rope 151 and the second pull rope 152, the second pull rope 152 bypasses the guide wheel 153 and movably penetrates through the vertical plate 110, adjacent ends of the first pull rope 151 and the second pull rope 152 are fixed to the handle 160, the direction in which the second pull rope 152 moves is changed by setting the guide wheel 153, the handle 160 is pulled to drive the baffles 132 on both sides to move away from each other, and the spring 131 sleeved outside the sliding rods 120 is elongated accordingly, so that the sliding rods 120 tend to perform a return movement.

In some specific embodiments, a through hole for the second pulling rope 152 to pass through is disposed inside the vertical plate 110 and outside the second pulling rope 152, so that the second pulling rope 152 can movably pass through the vertical plate 110 through the through hole.

In some specific embodiments, the front end of the vertical plate 110 is provided with a sliding groove 113, the rear end of the pedal 210 is provided with a sliding block 211 sliding in the sliding groove 113, the rotating member 220 includes a screw rod 221 and a rotating handle 222, the screw rod 221 is rotatably installed inside the sliding groove 113, the sliding block 211 is in threaded sleeve connection with the screw rod 221, the rotating handle 222 is arranged outside the vertical plate 110, one end of the rotating handle 222 penetrates through the inside of the sliding groove 113 and is in transmission connection with the screw rod 221, the rotating handles 222 on two sides are rotated to drive the screw rods 221 on two sides to rotate, the sliding block 211 is in threaded sleeve connection with the screw rod 221, and the sliding block 211 slides inside the sliding groove 113, so according to the thread transmission principle, the sliding block 211 slides in the sliding groove 113, and the pedal 210 vertically moves.

In some specific embodiments, a first helical gear 2211 is fixedly sleeved on the outer wall of the screw rod 221, one end of the rotating handle 222 penetrates through the vertical plate 110 and is connected with a second helical gear 2221, the second helical gear 2221 is meshed with the first helical gear 2211, and the rotating handle 222 rotates to drive the second helical gear 2221 to rotate, so as to drive the screw rod 221 on the inner side of the first helical gear 2211 to rotate.

In some specific embodiments, a reinforcing plate 114 is fixed at the bottom between the two vertical plates 110, and the two vertical plates 110 are connected by the reinforcing plate 114, so as to improve the firmness of the vertical placement of the vertical plates 110.

The working principle of the combined climbing frame structure is as follows: when a worker performs construction operation on an outer wall, the worker stands on the pedal 210 to work, because the same pedal 210 is slidably arranged at the front ends of the two vertical plates 110, and a rotating part 220 for driving the pedal 210 to lift is arranged in each vertical plate 110, the pedal 210 is driven to lift through the rotating part 220 so as to be adjusted according to the lifting of different people, so that the worker can perform construction operation better, when a climbing frame structure needs to be heightened and spliced, the handle 160 is pulled to be away from the vertical plate 110, because a guide part 150 for driving the two sliding rods 120 to be away from each other is arranged in each vertical plate 110, the handle 160 is connected with the two sliding rods 120 through the guide part 150, so that the handle 160 is pulled to drive the two symmetrical limiting blocks 121 to be away from each other, the two limiting blocks 121 enter the adjacent accommodating grooves 112, at this time, the elastic part 130 is in a connection groove state, the bottom of the heightening device is inserted into the inside of the frame 111 and loosened, the handle 160 is pulled by the elastic part 130, the two limiting blocks 121 are driven to approach each other, the jointing groove 112, and the bottom of the frame structure is simply spliced, so as to improve the efficiency of the climbing frame structure, and the frame structure is simply clamped and the device is clamped.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made to the present application by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present application shall be included in the protection scope of the present application. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (8)

1. A combined climbing frame structure is characterized by comprising

The combined mechanism (100) comprises two vertical plates (110), two sliding rods (120), an elastic part (130), a guide part (150) and a handle (160), wherein the tops of the two vertical plates (110) are provided with connecting grooves (111), two sides of each connecting groove (111) are communicated with a receiving groove (112), the two sides of each vertical plate (110) are provided with the corresponding sliding rods (120) in a sliding manner, opposite ends of the sliding rods (120) on the two sides are connected with limiting blocks (121) positioned in the connecting grooves (111), the receiving grooves (112) can be penetrated by the limiting blocks (121), the elastic part (130) is arranged outside the vertical plates (110) and connected with the corresponding sliding rods (120), the elastic part (130) is arranged corresponding to the corresponding sliding rods (120), the guide part (150) for driving the two sliding rods (120) to be far away is arranged inside the vertical plates (110), and the handle (160) is connected with the two sliding rods (120) through the guide part (150);

the lifting mechanism (200) comprises a pedal (210) and a rotating piece (220), the same pedal (210) is arranged at the front ends of the two vertical plates (110) in a sliding mode, and the rotating piece (220) for driving the pedal (210) to lift is arranged in each vertical plate (110).

2. The combined climbing frame structure according to claim 1, wherein the elastic member (130) comprises a spring (131) and a baffle (132), the baffle (132) is fixed to both ends of the two sliding rods (120) opposite to each other, the spring (131) is sleeved outside the sliding rods (120), one end of the spring (131) is connected to the upright plate (110), and the other end of the spring (131) is connected to the baffle (132).

3. The combined climbing frame structure according to claim 2, wherein the guiding member (150) comprises a first pulling rope (151), a second pulling rope (152) and a guiding wheel (153), the guiding wheel (153) is rotatably mounted outside the vertical plate (110), opposite ends of the two baffles (132) are respectively connected with the first pulling rope (151) and the second pulling rope (152), the second pulling rope (152) passes around the guiding wheel (153) and movably penetrates through the vertical plate (110), and an end of the first pulling rope (151) adjacent to the second pulling rope (152) is fixed to the pulling handle (160).

4. The combined climbing frame structure according to claim 3, wherein a through hole for the second pulling rope (152) to pass through is provided inside the vertical plate (110) and corresponding to the outside of the second pulling rope (152).

5. The combined climbing frame structure according to claim 1, wherein a sliding groove (113) is formed at a front end of the vertical plate (110), and a sliding block (211) sliding in the sliding groove (113) is disposed at a rear end of the pedal (210).

6. The combined climbing frame structure according to claim 5, wherein the rotating member (220) comprises a screw rod (221) and a rotating handle (222), the screw rod (221) is rotatably installed inside the sliding groove (113), the sliding block (211) is in threaded sleeve connection with the screw rod (221), the rotating handle (222) is arranged outside the vertical plate (110), and one end of the rotating handle (222) penetrates through the inside of the sliding groove (113) and is in transmission connection with the screw rod (221).

7. The combined climbing frame structure according to claim 6, wherein a first bevel gear (2211) is fixedly sleeved on the outer wall of the screw rod (221), one end of the rotating handle (222) penetrates through the vertical plate (110) to be connected with a second bevel gear (2221), and the second bevel gear (2221) is engaged with the first bevel gear (2211).

8. The combined climbing frame structure according to claim 1, wherein a reinforcing plate (114) is fixed at the bottom between the two vertical plates (110).

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