CN218234300U - Hydraulic climbing system - Google Patents

Abstract

The utility model relates to a hydraulic pressure system of climbing, including guide rail body and demountable installation at building wall's the wall support that attaches, the protrusion of guide rail body is provided with to slide and connects in the connecting portion that attach the wall support, attach the wall support and be provided with and attach the wall guide holder, attach the wall guide holder and run through the connecting portion of seting up the confession guide rail body and slide the mounting groove of wearing to establish, attach the wall guide holder and rotate the pulley that is connected with the butt in the connecting portion of guide rail body for the clearance has between the inner wall of mounting groove and the connecting portion. This application has the extension and attaches the life's of wall guide holder effect.

Description

Hydraulic climbing system

Technical Field

The application relates to the technical field of hydraulic climbing, in particular to a hydraulic climbing system.

Background

The scaffold is a construction device frequently used in building construction, decoration engineering and maintenance engineering, and is mainly used for providing pedestrian access and safety protection.

With the mass emergence of high-rise and super high-rise buildings, the use of the attached scaffold is more and more extensive. The attached lifting scaffold is an external scaffold which is erected at a certain height, attached to an engineering structure, capable of climbing or descending layer by layer along with the engineering structure by virtue of a self lifting device and provided with a falling prevention device. Adhere to lifting foot hand rack and generally include scaffold frame body and set up in order to carry out the climbing system that goes up and down to scaffold frame body between scaffold frame body and building wall, climbing system is including attaching the wall support, attaches the wall support and is provided with and attaches the wall guide holder, attaches the spout that the wall guide holder has the guide rail that supplies on the scaffold frame body to slide.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: scaffold frame support body is whole heavier among the prior art, and scaffold frame body climbing in-process leads to the guide rail to keeping away from building wall body lopsidedness owing to scaffold frame body dead weight, consequently attaches great of frictional force between the spout inside wall of wall guide holder and the guide rail, and the loss is serious, has reduced the life who attaches the wall guide holder, consequently needs further improvement.

SUMMERY OF THE UTILITY MODEL

In order to prolong the service life of the wall-attached guide seat, the application provides a hydraulic climbing system.

The hydraulic climbing system provided by the application adopts the following technical scheme:

the utility model provides a hydraulic pressure climbing system, includes that guide rail body and demountable installation attach the wall support at building wall, the guide rail body protrusion is provided with to slide and connects in the connecting portion that attach the wall support, attach the wall support and be provided with and attach the wall guide holder, attach the wall guide holder and run through the connecting portion of seting up the confession guide rail body and slide the mounting groove of wearing to establish, attach the wall guide holder and rotate the pulley that is connected with the butt in the connecting portion of guide rail body for the clearance has between the inner wall of mounting groove and the connecting portion.

Through adopting above-mentioned technical scheme, attach the wall guide holder and rotate the pulley that is connected with the butt in the connecting portion of guide rail body, when the guide rail body with attach the wall guide holder and take place relative slip, the connecting portion of guide rail body slides and drives the pulley and rotate, become sliding friction and be the running friction, effectively reduce the frictional force between the connecting portion of attaching wall guide holder and guide rail body, reduce the loss, the extension attaches the life of wall guide holder and guide rail body.

Preferably, two opposite inner side walls of the mounting groove are fixedly connected with wall guide plates, two sliding grooves for sliding and penetrating of connecting portions of the guide rail body are formed between the wall guide plates, the upper ends of the wall guide plates protrude out of the upper end faces of the wall guide seats, the lower ends of the wall guide plates protrude out of the lower end faces of the wall guide seats, and the upper portions and the lower portions of the two wall guide plates are bent and inclined towards the direction away from each other.

Through adopting above-mentioned technical scheme, the slope is buckled towards the direction of keeping away from each other to upper portion and the lower part that two attach the wall deflector for the notch at spout both ends is the flaring setting, is convenient for slide the connecting portion of guide rail body and inserts and locate the spout in, improves the guide rail body and attaches the installation convenience of wall guide holder.

Preferably, a reinforcing part is fixedly connected between the upper part of the wall-attached guide plate and the wall-attached guide seat, and a reinforcing part is fixedly connected between the lower part of the wall-attached guide plate and the wall-attached guide seat.

Through adopting above-mentioned technical scheme, be provided with the rib, improve and attach the wall deflector and attach the firm in connection between the wall guide holder.

Preferably, the pulley rotates to be connected in the rib of keeping away from building wall one side, attaches the wall deflector and sets up the logical groove that communicates in the spout, and the pulley passes logical groove and butt in the connecting portion of guide rail body.

Through adopting above-mentioned technical scheme, scaffold frame body is because the dead weight at the in-process of climbing, leads to the guide rail body to the outside slope skew of keeping away from building wall, and the connecting portion one side butt of guide rail body is in the pulley to effectively reduce the frictional force of keeping away from building wall one side and attaching between the connecting portion of wall deflector and guide rail body, reduce the loss.

Preferably, attach the wall support including attaching the wall fixed plate and attaching the wall backup pad, attach wall backup pad fixed connection in attaching the wall fixed plate, attach the wall fixed plate and wear to be equipped with and be used for fixed connection in the wall bolt that wears to build the wall body, attach wall guide holder fixed connection in attaching the wall backup pad.

Through adopting above-mentioned technical scheme, through wearing the wall bolt to realize attaching the dismantled connection of wall fixed plate and building wall body to the realization attaches the dismantled connection of wall support and building wall body.

Preferably, the guide rail body is provided with a plurality of limiting clamping rods which are distributed along the length direction of the guide rail body; the wall-attached support is provided with an anti-falling mechanism for limiting the guide rail body to slide downwards, the anti-falling mechanism comprises an anti-falling swinging block and an anti-falling limiting plate, the anti-falling swinging block is rotatably connected to the wall-attached supporting plate, and a first clamping groove for clamping the limiting clamping rod is formed in the upper end surface of one side, close to the guide rail body, of the anti-falling swinging block; the anti-falling limiting plate is fixedly connected to the wall-attached supporting plate; the gravity center of the anti-falling swinging block is positioned on one side of the anti-falling swinging block close to the guide rail body, so that one side of the anti-falling swinging block far away from the guide rail body is abutted against the anti-falling limiting plate.

Through adopting above-mentioned technical scheme, when the guide rail body upwards slides, the spacing joint pole that is located and prevents weighing down the pendulum piece top breaks away from in first draw-in groove, next spacing joint pole butt is in preventing weighing down the pendulum piece and keeping away from the one end of preventing weighing down the limiting plate, thereby force to prevent weighing down the one end upswing that the pendulum piece is close to the guide rail body, for spacing joint pole stepping down, the guide rail body of being convenient for shifts up smoothly, when next spacing joint pole slided to preventing weighing down wobbling top, prevent weighing down the pendulum piece because dead weight fast turn resets, and make and prevent weighing down that the pendulum piece keeps away from one side up end of guide rail body and butt in the lower terminal surface of preventing weighing down the limiting plate again, and spacing joint pole joint connects in first draw-in groove, effectively prevent the guide rail body and move down, thereby effectively reduce the possibility that scaffold puts up the body and take place to fall.

Preferably, the device also comprises a claw climbing device for lifting the guide rail body and a lifting power device which is arranged on the wall-attached support and used for driving the claw climbing device to lift; the climbing claw device is positioned above the wall-attached support and comprises climbing claw support plates, climbing claw fixing plates fixedly connected between the climbing claw support plates and climbing claw jacking blocks rotatably connected between the climbing claw support plates, second clamping grooves for clamping and connecting limiting clamping and connecting rods are formed in the upper end surfaces of the climbing claw jacking blocks, close to the guide rail body, on one sides, and the climbing claw support plates are fixedly connected with climbing claw limiting plates; the focus of climbing claw jacking piece is located the one side that climbs claw jacking piece and be close to the guide rail body for climb one side butt that claw jacking piece kept away from the guide rail body in climbing claw limiting plate.

Through adopting above-mentioned technical scheme, when needs rise to the guide rail body, lift power device drives and climbs the claw device and rise, make spacing joint pole joint in the second draw-in groove of climbing claw jacking piece, climb thereby the claw device and continue to rise and drive the guide rail body and move up to a unit distance after, lift power device drives and climbs the claw device and move down, climbing the claw device and move down the in-process, it moves down to climb claw jacking piece, last spacing joint pole breaks away from the second draw-in groove, when next spacing joint pole butt is in climbing the lower terminal surface that claw jacking piece kept away from climbing claw limiting plate one side, force to climb the one end that claw jacking piece kept away from climbing claw limiting plate and swing up, when next spacing joint pole breaks away from with climbing claw jacking piece and climb claw jacking piece and be located the below of next spacing joint pole, climb claw jacking piece because dead weight swing resets and the butt in climbing claw limiting plate, the attached form climbing operation of guide rail body is realized to the limiting plate.

Preferably, the lifting power device is a hydraulic oil cylinder, a cylinder body of the hydraulic oil cylinder is fixedly connected to the wall-attached support, and a piston rod of the hydraulic oil cylinder is fixedly connected to the claw climbing device.

Through adopting above-mentioned technical scheme, the lift of claw device is climbed in flexible realization of piston rod through hydraulic cylinder, and hydraulic cylinder's response speed is fast, effectively improves the efficiency of climbing of guide rail body.

To sum up, the utility model discloses following beneficial effect has:

1. the wall-attached guide seat is rotatably connected with a pulley which is abutted against the connecting part of the guide rail body, when the guide rail body and the wall-attached guide seat slide relatively, the connecting part of the guide rail body slides to drive the pulley to rotate, sliding friction is changed into rotating friction, friction between the wall-attached guide seat and the connecting part of the guide rail body is effectively reduced, loss is reduced, and the service lives of the wall-attached guide seat and the guide rail body are prolonged;

2. the upper parts and the lower parts of the two wall-attached guide plates are bent and inclined towards the mutually away direction, so that notches at two ends of the sliding groove are arranged in an expanding manner, the connecting part of the guide rail body is conveniently inserted into the sliding groove in a sliding manner, and the installation convenience of the guide rail body and the wall-attached guide seat is improved;

3. when the guide rail body slides upwards, the limiting clamping rod positioned above the anti-falling swing block is separated from the first clamping groove, the next limiting clamping rod is abutted to the end, away from the anti-falling limiting plate, of the anti-falling swing block, so that the end, close to the guide rail body, of the anti-falling swing block is forced to swing upwards, the limiting clamping rod is moved backwards, the guide rail body can conveniently and smoothly move upwards, when the next limiting clamping rod slides to the upper side of the anti-falling swing block, the anti-falling swing block resets due to self-weight quick rotation, the upper end face, away from the guide rail body, of one side of the anti-falling swing block is enabled to be abutted to the lower end face of the anti-falling limiting plate again, the limiting clamping rod is clamped in the first clamping groove, the guide rail body is effectively prevented from moving downwards, and the possibility that the scaffold frame body falls is effectively reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a hydraulic climbing system;

FIG. 2 is a schematic view of the structure of the guide rail body;

FIG. 3 is a schematic structural view of a spacing chuck rod;

FIG. 4 is a schematic structural view of the wall attachment bracket;

FIG. 5 is a schematic view of the connection structure of the wall-attached support and the hydraulic cylinder;

FIG. 6 is a schematic view of the connection structure of the claw climbing device and a hydraulic oil cylinder;

fig. 7 is a schematic structural view of the wall-attached guide seat.

In the figure, 1, a guide rail body; 11. a guide rail channel steel; 111. a web; 112. a first wing plate; 113. a second wing plate; 12. a connecting plate; 13. square tubes; 14. a limiting clamping and connecting rod; 2. a wall-attached support; 21. a wall-attached fixing plate; 22. a wall-attached supporting plate; 221. avoiding holes; 222. a first oil cylinder limiting plate; 223. a first mounting pin shaft; 224. the anti-falling pin shaft; 23. a through-wall bolt; 24. a wall-attached guide seat; 241. a wall-attached guide plate; 242. reinforcing rib plates; 244. a rotating shaft; 245. a pulley; 246. a through groove; 25. an anti-falling mechanism; 251. the anti-falling swing block; 252. an anti-falling limiting plate; 253. a first card slot; 254. a first guide surface; 3. a hydraulic cylinder; 31. a mounting base; 4. a claw climbing device; 41. climbing a claw supporting plate; 411. a second mounting pin shaft; 412. a second oil cylinder limiting plate; 413. climbing claw pin shafts; 414. a claw climbing limiting plate; 42. a claw climbing fixing plate; 43. climbing a claw jacking block; 431. a second card slot; 432. a second guide surface; 44. climb claw guide holder.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses hydraulic climbing system, refer to fig. 1, including guide rail body 1, attach wall support 2, lift power device and climb claw device 4, guide rail body 1 is used for fixed mounting in one side of scaffold frame body, attach wall support 2 and be used for demountable installation at the building wall external surface, it is located the top that attaches wall support 2 to climb claw device 4, lift power device installs in attaching wall support 2 and climb between the claw device 4, guide rail body 1 with attach wall support 2 and slide and be connected, thereby lift power device drive climbs claw device 4 and moves up and drive guide rail body 1 and move up. When installing and use, the length direction of guide rail body 1 is vertical setting, and guide rail body 1 is on a parallel with building wall's wall.

Referring to fig. 2, the guide rail body 1 is installed and used, the guide rail body 1 includes a guide rail channel 11 and a square pipe 13 for connecting with a scaffold body, and the square pipe 13 is fixedly connected with the scaffold body through a bolt pair. The square pipe 13 is provided with a plurality of connecting plates 12 for being mounted and connected with the guide rail channel steel 11, and the plurality of connecting plates 12 are distributed along the length direction of the square pipe 13. The connecting plate 12 and the square tube 13 may be welded or bolted, as long as the connecting plate 12 and the square tube 13 can be fixedly mounted. In the present embodiment, the connecting plate 12 and the square pipe are fixed by welding.

Referring to fig. 2, guide rail channel-section steel 11 is provided with two, and two guide rail channel-section steel 11's notch is back of the body and sets up mutually, and two guide rail channel-section steels 11 are the interval and set up, and connecting plate 12 is connected between two guide rail channel-section steels 11.

In this embodiment, the specific structure of the guide rail channel steel 11 is: the guide rail channel steel 11 comprises a web 111, a first wing plate 112 vertically and fixedly connected to the web 111, and a second wing plate 113 vertically and fixedly connected to the web 111, wherein the first wing plate 112 and the second wing plate 113 are oppositely arranged in parallel, the first wing plate 112 is used for being installed and connected with the connecting plate 12, and the second wing plate 113 is used for being connected with the wall-attached support 2 in a sliding manner.

In this embodiment, the connecting plates 12 may be fixedly connected to the first flanges 112 of the two rail channel steels 11 by welding, so as to realize a connection manner in which the connecting plates 12 are connected between the two rail channel steels 11. In other embodiments, the connection may be achieved by fastening bolts, or may be achieved by connecting through a quick-release connection structure, as long as the connection plate 12 and the rail channel 11 can be fixedly mounted.

Referring to fig. 2 and 3, a limiting clamping rod 14 is fixedly connected between the webs 111 of the two guide rail channel steels 11, and an axial direction of the limiting clamping rod 14 is perpendicular to a plate surface of the web 111. The plurality of limiting clamping rods 14 are arranged, and the plurality of limiting clamping rods 14 are distributed along the length direction of the guide rail channel steel 11. The wall attachment supports 2 can be positioned at different positions in the longitudinal direction of the guide rail channel 11 by means of the spacing clamping bars 14.

Referring to fig. 2 and 4, the wall-attached support 2 includes a wall-attached fixing plate 21 and a pair of wall-attached supporting plates 22, the wall-attached fixing plate 21 is used for being installed on the building wall, the wall-attached fixing plate 21 is parallel to the wall surface of the building wall, and the wall-attached fixing plate 21 is provided with a wall-penetrating bolt 23 for being fixedly connected to the building wall. Two attach wall backup pad 22 and be parallel arrangement and vertical fixation in attaching wall fixed plate 21, two attach wall backup pad 22 and be the interval setting, attach wall backup pad 22 and be close to the one end that attaches wall fixed plate 21 and seted up dodge hole 221 to improve the operator to the convenience of wearing the tightening operation of wall bolt 23.

Referring to fig. 3 and 4, the wall attaching support 2 is provided with a wall attaching guide seat 24 which is slidably fitted to the guide rail body 1. The concrete structure of the wall-attached guide seat 24 is as follows: the wall-attached guide seat 24 is vertically penetrated and provided with a mounting groove. The two opposite inner side walls of the mounting groove are fixedly connected with wall attaching guide plates 241 respectively, the upper ends of the wall attaching guide plates 241 protrude out of the upper end faces of the wall attaching guide seats 24, and the lower ends of the wall attaching guide plates 241 protrude out of the lower end faces of the wall attaching guide seats 24. The two wall-attached guide plates 214 are opposite to each other to form a sliding slot for slidably connecting the second wing plate 113 of the guide rail channel 11. The upper and lower parts of the two wall-attached guide plates 241 are bent and inclined towards the direction away from each other, so that the notches of the sliding grooves are arranged in a flaring manner. Reinforcing parts are fixedly connected between the upper part of the wall attaching guide plate 241 and the wall attaching guide seat 24, and between the lower part of the wall attaching guide plate 241 and the wall attaching guide seat 24, respectively. The reinforcing part is specifically two reinforcing rib plates 242, and the two reinforcing rib plates 242 are distributed along the width direction of the wall-attached guide plate 241. The arrangement of the reinforcing rib plates 242 improves the structural stability of the surface of the wall-attached guide plate 241.

Referring to fig. 3 and 4, there are two wall-attached guide seats 24, and the two wall-attached guide seats 24 are respectively and correspondingly mounted on the two wall-attached support plates 22. The second wing plates 113 of the two guide rail channel steel are respectively connected in the sliding grooves of the two wall-attached guide seats 24 in a sliding manner, and the limiting clamping rod 14 between the two guide rail channel steel 11 is positioned between the two wall-attached support plates 22 so as to complete the sliding fit connection of the guide rail body 1 and the wall-attached support 2.

Further, in order to reduce the abrasion between the coanda guide plate 241 and the second wing 113, the service life of the coanda guide plate 241 is increased. Referring to fig. 2 and 4, the upper portion and the lower portion of the wall-attached guide plate 241 located on the side of the second wing plate 113 away from the wall-attached fixing plate 21 are both provided with a through slot 246 communicated with the sliding slot, and the through slot 246 is located between the two reinforcing rib plates 242. A rotating shaft 244 is rotatably connected between the two reinforcing rib plates 242, and the axial direction of the rotating shaft 244 is parallel to the width direction of the wall attaching guide plate 241. The rotating shaft 244 is coaxially fixed with a pulley 245, and a peripheral wall of the pulley 245 passes through the through slot 246 and abuts against the plate surface of the second wing plate 113, so that a gap is formed between the plate surface of the second wing plate 113 and an inner side wall of the sliding slot close to the through slot 246.

Referring to fig. 3, 4, and 5, the wall attachment support 2 is provided with a fall prevention mechanism 25 that restricts the downward sliding of the rail body 1. The anti-falling mechanism 25 comprises an anti-falling swing block 251 and an anti-falling limit plate 252, the anti-falling swing block 251 is rotatably mounted between the two wall-attached support plates 22 through an anti-falling pin 224, and one side of the anti-falling swing block 251, which is close to the guide rail body 1, extends into a space between the two guide rail channel steels 11 and is located between the two limit clamping and connecting rods 14. The upper end surface of one side of the anti-falling swing block 251 close to the guide rail body 1 is provided with a first clamping groove 253 for clamping the limiting clamping rod 14, in this embodiment, the cross section of the limiting clamping rod 14 is circular, and the first clamping groove 253 is correspondingly provided as a circular groove.

The anti-falling limit plates 252 are fixedly connected between the two wall-attached support plates 22, the anti-falling limit plates 252 are located above one side of the anti-falling swing block 251, which is far away from the guide rail body 1, the anti-falling limit plates 252 are abutted against one side of the anti-falling swing block 251, which is far away from the guide rail body 1, so that one side of the anti-falling swing block 251, which is far away from the guide rail body 1, swings downwards, one side of the anti-falling swing block 251, which is close to the guide rail body 1, has an upward swinging trend, and the first clamping groove 253 of the anti-falling swing block 251 is in limiting clamping connection with the limiting clamping rod 14.

The gravity center of the anti-falling swing block 251 is located on one side, close to the guide rail body 1, of the anti-falling swing block 251, the self weight of the anti-falling swing block 251 can enable the one side, close to the guide rail body 1, of the anti-falling swing block 251 to have a downward swing trend, at the moment, on the basis of the rotating point of the anti-falling pin shaft 224, one side, away from the guide rail body 1, of the anti-falling swing block 251 has an upward swing trend, and the anti-falling swing block 251 can be kept away from one side of the guide rail body 1 and can be kept in a tight supporting state between the anti-falling limiting plate 252.

The lower end surface of one side of the anti-falling swinging block 251 close to the guide rail body 1 is provided with a first guide surface 254 for the limit clamping rod 14 to abut against so as to force the anti-falling swinging block 251 to swing upwards close to one side of the guide rail body 1.

When the guide rail body 1 slides upwards relative to the wall-attached support 2, the limiting clamping rods 14 positioned above the anti-falling swinging block 251 are separated from the first clamping grooves 253, the peripheral wall of the next limiting clamping rod 14 abuts against the first guide surface 254, so that one side, close to the guide rail body 1, of the anti-falling swinging block 251 is forced to swing upwards, the guide rail body 1 can conveniently and smoothly move upwards, when the next limiting clamping rod 14 slides to the position above the anti-falling swinging block, one side, close to the guide rail body 1, of the anti-falling swinging block 251 rotates due to self weight to reset between the two limiting clamping rods 14, one side, far away from the guide rail body 1, of the anti-falling swinging block 251 abuts against the anti-falling limiting plates 252 again, and under the gravity of the guide rail body 1, the limiting clamping rods 14 sink and are clamped in the first clamping grooves 253, and the guide rail body 1 is effectively prevented from moving downwards.

Referring to fig. 3 and 6, the claw climbing device 4 includes a pair of claw climbing support plates 41, a claw climbing fixing plate 42 fixedly connected between the two claw climbing support plates 41, and a claw climbing jacking block 43 rotatably connected between the two claw climbing support plates 41. A claw climbing pin shaft 413 is fixedly connected between the two claw climbing support plates 41, and the claw climbing jacking block 43 is rotatably sleeved on the claw climbing pin shaft 413. The upper end face of one side of the climbing claw jacking block 43 close to the guide rail body 1 is provided with a second clamping groove 431 for clamping the limiting clamping rod 14, and the second clamping groove 431 is correspondingly arranged to be a circular groove. Two climb fixedly connected with between the claw backup pad 41 and climb claw limiting plate 414, climb claw round pin axle 413 and be located guide rail body 1 and climb between the claw limiting plate 414, the focus that climbs claw jacking piece 43 is located and climbs one side that claw round pin axle 413 is close to guide rail body 1, under the normality, climb claw jacking piece 43 because the dead weight makes and climbs one side up end butt that claw jacking piece 43 kept away from guide rail body 1 in the lower terminal surface that climbs claw limiting plate 414 to the restriction is climbed one end that claw jacking piece 43 is close to guide rail body 1 and is rotated downwards. The lower end face of one side of the climbing claw jacking block 43 far away from the climbing claw jacking block 43 is provided with a second guide face 432 which is used for abutting the limiting clamping rod 14 to force the climbing claw jacking block 43 to swing upwards near one side of the guide rail body 1, and the upper peripheral wall of the limiting clamping rod 14 abuts against the second guide face 432 to force one end, close to the guide rail body 1, of the climbing jacking block to swing upwards.

Referring to fig. 5 and 6, the lifting power device is a telescopic driving member, specifically, the telescopic driving member is a hydraulic cylinder 3, a mounting seat 31 is fixedly connected to the lower end face of the cylinder body of the hydraulic cylinder 3, the mounting seat 31 is located between two wall-attached supporting plates 22, a first mounting pin 223 penetrating through the mounting seat 31 is fixed on the wall-attached supporting plate 22, and the axial direction of the first mounting pin 223 is perpendicular to the plate surface of the wall-attached supporting plate 22. A pair of first cylinder limiting plates 222 is fixedly connected between the two wall-attached supporting plates 22, the first cylinder limiting plates 222 are located above the anti-falling limiting plate 252, and the two first cylinder limiting plates 222 abut against two opposite side surfaces of the mounting seat 31 respectively. The axial of hydraulic cylinder 3's piston rod is vertical setting, and hydraulic cylinder 3's piston rod upper portion is located two and climbs between the claw backup pad 41 and is located to climb claw jacking piece 43 and climb between the claw fixed plate 42, climbs claw backup pad 41 and is fixed with the second installation pin axle 411 of wearing to locate hydraulic cylinder 3's piston rod, and the axial perpendicular to of second installation pin axle 411 climbs the face of claw backup pad 41. A second oil cylinder limiting plate 412 is fixedly connected between the two claw climbing supporting plates 41, and the second oil cylinder limiting plate 412 and the claw climbing fixing plate 42 are respectively abutted against two opposite side surfaces of a piston rod of the hydraulic oil cylinder 3.

The implementation principle of the hydraulic climbing system in the embodiment of the application is as follows: under normal state, two limit clamping rods 14 on the guide rail body 1 are correspondingly clamped in a second clamping groove 431 of the claw climbing jacking block 43 and a first clamping groove 253 of the anti-falling swinging block 251 respectively, and a piston rod of the hydraulic oil cylinder 3 is in a contraction state, when the guide rail body 1 needs to be lifted, a piston rod of the hydraulic oil cylinder 3 extends to drive the claw climbing device 4 to lift, thereby driving the guide rail body 1 to move upwards, in the process of moving the guide rail body 1 upwards, the limiting clamping rod 14 positioned above the anti-falling swinging block 251 is separated from the first clamping groove 253, the upper peripheral wall of the next limiting clamping rod 14 is abutted against the first guide surface 254, thereby forcing one end of the anti-falling swing block 251 close to the guide rail body 1 to swing upwards to give way for the next limiting clamping rod 14, facilitating the guide rail body 1 to move upwards smoothly and linearly, when the next limiting clamping rod 14 slides to the upper part of the anti-falling swing block 251, the anti-falling swinging block 251 is rapidly rotated and reset due to self weight and is abutted against the anti-falling limit plate 252 again, and the limiting clamping rod 14 is clamped in the first clamping groove 253, so that after the guide rail body 1 moves upwards for a unit distance, the piston rod of the hydraulic oil cylinder 3 contracts and resets to drive the claw climbing device 4 to move downwards, in the process of moving the claw climbing device 4 downwards, the claw climbing jacking block 43 moves downwards, the upper limiting clamping and connecting rod 14 is separated from the second clamping groove 431, when the upper peripheral wall of the next limiting clamping rod 14 abuts against the second guide surface 432 of the claw climbing jacking block 43, the end of the claw climbing jacking block 43 away from the claw climbing limiting plate 414 is forced to swing upwards, after the next spacing clamping rod 14 is separated from the climbing claw jacking block 43 and the climbing claw jacking block 43 is positioned below the next spacing clamping rod 14, the claw climbing jacking block 43 swings due to self weight to reset and is abutted against the claw climbing limiting plate 414 again, the piston rod of the hydraulic oil cylinder 3 extends again, and the steps are repeated to realize the lifting operation of the guide rail body 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A hydraulic climbing system, characterized by: including guide rail body (1) and demountable installation attach wall support (2) at building wall, guide rail body (1) is provided with to slide and connects in the connecting portion that attaches wall support (2), attach wall support (2) and be provided with and attach wall guide holder (24), attach wall guide holder (24) and run through the connecting portion of offering supply guide rail body (1) and slide the mounting groove of wearing to establish, attach wall guide holder (24) and rotate pulley (245) that are connected with the butt in the connecting portion of guide rail body (1) for have the clearance between the inner wall of mounting groove and the connecting portion.

2. A hydraulic climbing system according to claim 1, wherein: the equal fixedly connected with of two relative inside walls of mounting groove attaches wall deflector (241), attaches two spouts that form the connecting portion that supplies guide rail body (1) between wall deflector (241) and slide and pass, the upper end protrusion that attaches wall deflector (241) is in the up end that attaches wall guide holder (24), and the lower extreme protrusion that attaches wall deflector (241) is in the lower terminal surface that attaches wall guide holder (24), and the upper portion and the lower part that attach wall deflector (241) are all towards the orientation of keeping away from each other slope of buckling each other for two.

3. A hydraulic climbing system according to claim 2, wherein: and reinforcing parts are respectively and fixedly connected between the upper part of the wall-attached guide plate (241) and the wall-attached guide seat (24) and between the lower part of the wall-attached guide plate (241) and the wall-attached guide seat (24).

4. A hydraulic climbing system according to claim 2, wherein: the pulley (245) rotates to be connected with the reinforcing part far away from one side of the building wall body, a through groove (246) communicated with the sliding groove is formed in the wall-attached guide plate (241), and the pulley (245) penetrates through the through groove (246) and abuts against the connecting part of the guide rail body (1).

5. A hydraulic climbing system according to claim 1, wherein: attach wall support (2) including attaching wall fixed plate (21) and attaching wall backup pad (22), attach wall backup pad (22) fixed connection in attaching wall fixed plate (21), attach wall fixed plate (21) and wear to be equipped with and be used for fixed connection in building wall's wall bolt (23), attach wall guide holder (24) fixed connection in attaching wall backup pad (22).

6. A hydraulic climbing system according to claim 5, wherein: the guide rail body (1) is provided with a plurality of limiting clamping rods (14), and the limiting clamping rods (14) are distributed along the length direction of the guide rail body (1);

the wall-attached support (2) is provided with an anti-falling mechanism (25) for limiting the guide rail body (1) to slide downwards, the anti-falling mechanism (25) comprises an anti-falling swinging block (251) and an anti-falling limiting plate (252), the anti-falling swinging block (251) is rotatably connected to the wall-attached support plate (22), and the upper end surface of one side, close to the guide rail body (1), of the anti-falling swinging block (251) is provided with a first clamping groove (253) for clamping a limiting clamping rod (14);

the anti-falling limiting plate (252) is fixedly connected to the wall-attached supporting plate (22);

the gravity center of the anti-falling swing block (251) is located on one side, close to the guide rail body (1), of the anti-falling swing block (251), so that one side, far away from the guide rail body (1), of the anti-falling swing block (251) abuts against the anti-falling limiting plate (252).

7. A hydraulic climbing system according to claim 6, wherein: the lifting power device is arranged on the wall-attached support (2) and is used for driving the climbing claw device to lift;

the climbing claw device (4) is positioned above the wall-attached support (2), the climbing claw device (4) comprises climbing claw support plates (41), climbing claw fixing plates (42) fixedly connected between the climbing claw support plates (41) and climbing claw jacking blocks (43) rotatably connected between the climbing claw support plates (41), second clamping grooves (431) for clamping limiting clamping rods (14) are formed in the upper end face of one side, close to the guide rail body (1), of the climbing claw jacking blocks (43), and the climbing claw support plates (41) are fixedly connected with climbing claw limiting plates (414); the gravity center of the climbing claw jacking block (43) is located on one side, close to the guide rail body (1), of the climbing claw jacking block (43), so that one side, far away from the guide rail body (1), of the climbing claw jacking block (43) abuts against the climbing claw limiting plate (414).

8. The hydraulic climbing system according to claim 7, wherein: the lifting power device is a hydraulic oil cylinder (3), a cylinder body of the hydraulic oil cylinder (3) is fixedly connected to the wall-attached support (2), and a piston rod of the hydraulic oil cylinder (3) is fixedly connected to the claw climbing device (4).

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