CN112482735A - Wind-resistant all-steel climbing frame - Google Patents

Abstract

The invention provides an anti-wind type all-steel climbing frame which comprises a fixing frame, two transmission racks, a lifting assembly, two first driving devices, two transmission gears, two first protection plates and a second protection plate, wherein three sliding rails are arranged on the fixing frame, the first driving devices can drive the transmission gears to rotate relative to the transmission racks so as to drive the lifting assembly to do lifting motion relative to the fixing frame, the two first protection plates are respectively and fixedly connected to two sides of the lifting assembly, the second protection plate is fixedly connected with the lifting assembly, the second protection plate is positioned between the two first protection plates, a plurality of wind deflectors and a plurality of ventilation grooves are respectively arranged on the first protection plates and the second protection plates, and the plurality of wind deflectors are respectively and sequentially arranged in a staggered manner; this wind-resistant type all-steel creeper uses first guard plate and second guard plate to separate the water conservancy diversion in the windward side with the wind that blows, thereby solves in the past and does not possess the function of dredging the gale in climbing the frame and bring dangerous problem for the job site easily.

Description

Wind-resistant all-steel climbing frame

Technical Field

The invention relates to the technical field of building construction equipment, in particular to a wind-resistant all-steel climbing frame.

Background

The climbing frame is a short name of an attached lifting scaffold. The tool is an effective tool in constructing high-rise structures such as a shear wall system, a cylinder system, a pier and the like; the self-climbing capacity is realized, so that the hoisting of hoisting machinery is not needed, and the hoisting workload of the transportation machinery in construction is reduced; an external scaffold in the construction process can be omitted. The climbing frame can reduce the number of hoisting machines and accelerate the construction speed, so the economic benefit is better; in recent years, high-rise buildings are developed vigorously in numerous cities, in order to shorten the construction period, the construction usually adopts unequal-height construction technology, and a core tube adopts climbing frame construction;

in the prior art, the safety protection at the periphery of the climbing frame generally adopts common protective railings and a dense-mesh safety net, however, when the external wind speed is high, the dense-mesh safety net has a large windward area due to small through holes, and can often swing back and forth when being blown by strong wind, so that the binding wires are infirm and open finally, great potential safety hazards are brought to operation and construction personnel, and meanwhile, great safety accidents can be caused by falling objects;

therefore, it is necessary to provide a wind-resistant all-steel scaffold to solve the problem that the conventional scaffold does not have a function of dredging strong wind and is likely to cause danger to a construction site.

Disclosure of Invention

In order to solve the problems, the invention provides a wind-resistant all-steel climbing frame, which more exactly solves the problem that the conventional climbing frame does not have the function of dredging strong wind and is easy to bring danger to a construction site.

The invention is realized by the following technical scheme:

the invention provides an anti-wind all-steel climbing frame which comprises a fixed frame, two transmission racks, a lifting assembly, two first driving devices, two transmission gears, two first protection plates and a second protection plate, wherein the fixed frame is provided with three slide rails, the two transmission racks are respectively inserted between the three slide rails and fixedly connected with the fixed frame, the lifting assembly is respectively movably connected with the three slide rails, the two first driving devices are respectively and fixedly connected with one side of the lifting assembly, the two transmission gears are respectively and fixedly connected with rotating shafts of the two first driving devices, the transmission gears are meshed with the transmission racks, the first driving devices can drive the transmission gears to rotate relative to the transmission racks so as to drive the lifting assembly to do lifting motion relative to the fixed frame, the two first protection plates are respectively and fixedly connected with two sides of the lifting assembly, the second protection plate is fixedly connected with the lifting assembly, the second protection plate is located between the two first protection plates, a plurality of air deflectors and a plurality of ventilation grooves are arranged on the first protection plates and the second protection plates, and the plurality of air deflectors are sequentially arranged in a staggered mode with the plurality of ventilation grooves.

Further, the lifting assembly comprises three sliders and pulleys, support columns are arranged on the sliders and penetrate through the pulleys and are movably connected with the pulleys, the sliders are movably connected with the sliding rails respectively, and the pulleys are abutted to the sliding rails.

Furthermore, a sliding groove is formed in the sliding part, and the sliding rail part is contained in the sliding groove.

Furthermore, a positioning groove is formed in the slide rail, and the pulley part is contained in the positioning groove.

Furthermore, the lifting assembly comprises a second driving device, a prying member and a braking member, the second driving device is fixedly connected to one side of the sliding member, the prying member is movably connected with the second driving device, the braking member is hinged to the prying member, the braking member is movably connected with the sliding member, and the second driving device can drive the prying member to do lifting motion so as to drive the braking member to rotate and abut against the sliding rail.

Furthermore, be equipped with two mounting panels and open slot on the slider, the open slot is located two between the mounting panel, the braking piece is located two between the mounting panel and with mounting panel swing joint, the braking piece is located the open slot top.

Furthermore, a plurality of braking grooves are formed in the sliding rail and are sequentially arranged, and the braking part is located above the braking grooves.

Furthermore, the protruding backup pad that is equipped with of slider one end, the frame is climbed to anti-wind type all steel includes the bottom plate, the bottom plate with backup pad fixed connection.

Furthermore, the lifting assembly comprises a bearing plate, the bearing plate is fixedly connected with the sliding parts, the bearing plate is positioned between the two sliding parts, and the first driving device is fixedly connected with the bearing plate.

Furthermore, a supporting position is convexly arranged on the bearing plate, the supporting position is close to the transmission rack, the first driving device is fixedly connected with the supporting position, and the transmission gear is movably connected with the supporting position.

The invention has the beneficial effects that:

the invention provides an anti-wind type all-steel climbing frame, which comprises a fixed frame, two transmission racks, a lifting assembly, two first driving devices, two transmission gears, two first protection plates and a second protection plate, wherein the fixed frame is provided with three slide rails, the two transmission racks are respectively inserted between the three slide rails and fixedly connected with the fixed frame, the lifting assembly is respectively movably connected with the three slide rails, the two first driving devices are respectively and fixedly connected with one side of the lifting assembly, the two transmission gears are respectively and fixedly connected with rotating shafts of the two first driving devices, the transmission gears are meshed with the transmission racks, the first driving devices can drive the transmission gears to rotate relative to the transmission racks so as to drive the lifting assembly to do lifting motion relative to the fixed frame, the two first protection plates are respectively and fixedly connected with two sides of the lifting assembly, the second protection plate is fixedly connected with the lifting assembly, and the second protection, the first protection plate and the second protection plate are respectively provided with a plurality of air deflectors and a plurality of ventilation grooves, and the plurality of air deflectors and the plurality of ventilation grooves are arranged in a staggered mode in sequence; this full steel creeper of anti-wind type uses first guard plate and second guard plate to separate the water conservancy diversion at the windward side with the wind that blows, has reduced the driving force when the strong wind lasts to act on the plane effectively, and simultaneously, a plurality of aviation baffles have also improved the structural strength of first guard plate and second guard plate for this full steel creeper of anti-wind type is difficult for rocking when the strong wind is scraped, makes wholly more steady, thereby solves and does not possess the function of dredging the strong wind in the frame of climbing in the past and brings dangerous problem for the job site easily.

Drawings

Fig. 1 is an exploded view of a wind-resistant all-steel climbing frame according to the present invention;

fig. 2 is another angle exploded view of the wind-resistant all-steel climbing frame according to the present invention;

fig. 3 is a schematic view illustrating the descending of the lifting assembly of the wind-resistant all-steel climbing frame according to the present invention;

fig. 4 is a schematic view illustrating the ascending of the lifting assembly of the wind-resistant all-steel climbing frame according to the present invention;

FIG. 5 is a schematic view of a sliding member of the wind-resistant all-steel climbing frame of the present invention;

FIG. 6 is an enlarged partial view of reference character A of FIG. 1;

FIG. 7 is an enlarged partial view of FIG. 1 labeled B;

FIG. 8 is an enlarged partial view of FIG. 1 labeled C;

FIG. 9 is an enlarged partial schematic view of FIG. 2 labeled D;

fig. 10 is a schematic structural view of a braking member of the wind-resistant all-steel creeper according to the present invention.

Detailed Description

In order to more clearly and completely explain the technical scheme of the invention, the invention is further explained with reference to the attached drawings.

Referring to fig. 1-10, the present invention provides an anti-wind all-steel climbing frame, which includes a fixed frame 1, two transmission racks 2, a lifting assembly 3, two first driving devices 4, two transmission gears 5, two first protection plates 6 and a second protection plate 7, wherein the fixed frame 1 is provided with three sliding rails 11, the two transmission racks 2 are respectively inserted between the three sliding rails 11 and fixedly connected with the fixed frame 1, the lifting assembly 3 is respectively movably connected with the three sliding rails 11, the two first driving devices 4 are respectively and fixedly connected to one side of the lifting assembly 3, the two transmission gears 5 are respectively and fixedly connected with rotating shafts of the two first driving devices 4, the transmission gears 5 are engaged with the transmission racks 2, the first driving devices 4 can drive the transmission gears 5 to rotate relative to the transmission racks 2, so as to drive the lifting assembly 3 to perform lifting motion relative to the fixed frame 1, the two first protection plates 6 are respectively and fixedly connected to two sides of the, second guard plate 7 and lifting unit 3 fixed connection, second guard plate 7 are located between two first guard plates 6, all are equipped with a plurality of aviation baffles 101 and a plurality of ventilation groove 102 on first guard plate 6 and the second guard plate 7, and a plurality of aviation baffles 101 stagger the range with a plurality of ventilation groove 102 in proper order respectively.

In the present embodiment:

the fixed frame 1 is used for providing a stable supporting structure for the transmission rack 2 and the lifting component 3 and is fastened on a wall body through external fixing screws;

the slide rail 11 is used for providing a sliding support structure for the lifting assembly 3;

the transmission rack 2 is meshed with the transmission gear 5 and is used for providing a power transmission structure for the first driving device 4 to drive the lifting component 3 to do lifting motion;

the lifting assembly 3 is used for providing a lifting platform structure capable of adjusting the working height for workers;

the first driving device 4 is an alternating current motor, and the rotation of the first driving device can drive the transmission gear 5 to rotate, so as to drive the lifting assembly 3 to lift relative to the fixed frame 1;

the transmission gear 5 is a cylindrical gear, one end of the transmission gear is provided with a mounting hole matched with the rotating shaft of the first driving device 4, and the other end of the transmission gear is provided with a rotating shaft for supporting;

the first protection plate 6 is used for providing a wind-proof structure for the lifting assembly 3;

the second protection plate 7 is used for providing a wind-proof structure for the lifting assembly 3;

the air deflector 101 is used for guiding the air blown onto the first protective plate 6 or the second protective plate 7 to flow out of the outside;

the ventilation slots 102 are used for providing a passage for reducing the stress area for wind blowing to the first protection plate 6 or the second protection plate 7, so that part of the wind can be shunted to blow to the first protection plate 6 or the second protection plate 7, and the overall stress of the first protection plate 6 or the second protection plate 7 is reduced;

specifically, a worker controls the first driving device 4 through an external control device, at this time, a rotating shaft of the first driving device 4 rotates to drive the transmission gear 5 to rotate, the lifting assembly 3 can reach a specified position along a path of the transmission rack 2 under the driving of the first driving device 4, the worker can work inside the lifting assembly 3, a space formed among the air deflectors 101 plays a role in guiding wind to the outside, the wind can only flow along the surface of the first protection plate 6 or the second protection plate 7 under the action of the air deflectors 101, too large impact cannot be caused on the first protection plate 6 or the second protection plate 7, and the ventilation groove 102 reduces the overall stress of the first protection plate 6 or the second protection plate 7 when the wind blows along the surface, so that the blown wind is gradually reduced;

to sum up, this anti-wind type all-steel creeper uses the wind that first guard plate 6 and second guard plate 7 will blow to separate the water conservancy diversion at the windward side, has reduced the driving force when the strong wind continuously acts on the plane effectively, and simultaneously, a plurality of aviation baffles 101 have also improved the structural strength of first guard plate 6 and second guard plate 7, makes this anti-wind type all-steel creeper difficult rock when the strong wind is scraped, makes wholly more steady, thereby solve in the past and climb and do not possess the function of dredging the strong wind and bring dangerous problem for the job site easily.

Further, the lifting assembly 3 comprises three sliding parts 31 and pulleys 32, a supporting column 311 is arranged on the sliding part 31, the supporting column 311 penetrates through the pulleys 32 and is movably connected with the pulleys 32, the three sliding parts 31 are respectively movably connected with the three sliding rails 11, and the pulleys 32 are abutted against the sliding rails 11; the sliding piece 31 is provided with a sliding groove 312, and the sliding rail 11 is partially accommodated in the sliding groove 312; a positioning groove 111 is arranged on the slide rail 11, and the pulley 32 is partially accommodated in the positioning groove 111; the lifting assembly 3 comprises a second driving device 33, a prying member 34 and a braking member 35, the second driving device 33 is fixedly connected to one side of the sliding member 31, the prying member 34 is movably connected with the second driving device 33, the braking member 35 is hinged to the prying member 34, the braking member 35 is movably connected with the sliding member 31, and the second driving device 33 can drive the prying member 34 to move up and down so as to drive the braking member 35 to rotate and abut against the sliding rail 11; the sliding part 31 is provided with two mounting plates 313 and an open slot 314, the open slot 314 is positioned between the two mounting plates 313, the brake 35 is positioned between the two mounting plates 313 and movably connected with the mounting plates 313, and the brake 35 is positioned above the open slot 314; the slide rail 11 is provided with a plurality of braking grooves 112, the plurality of braking grooves 112 are arranged in sequence, and the braking member 35 is positioned above the braking grooves 112.

In the present embodiment:

the sliding part 31 is used for providing a structure connected with the sliding rail 11 for the lifting assembly 3;

the supporting column 311 is used for providing a fixed structure for the pulley 32, which can be installed on the sliding member 31;

the sliding groove 312 is used for providing a placing space for the sliding rail 11;

the mounting plate 313 is used to provide a stable support structure for the brake 35;

the open groove 314 is used to provide a passage for the stopper 35 so that the stopper 35 can press the slide rail 11;

the pulley 32 is used for providing a supporting structure for the sliding member 31 when sliding smoothly on the sliding rail 11;

the positioning groove 111 is used for providing a placing space for the pulley 32 and limiting the sliding position of the pulley 32, so that the pulley 32 is not easy to separate from the sliding rail 11;

the second driving device 33 is a dc motor, and the rotating shaft thereof can drive the prying member 34 to perform lifting movement when rotating;

the prying piece 34 can drive the braking piece 35 to rotate relative to the mounting plate 313 under the driving of the second driving device 33, and finally the braking piece 35 is abutted against the sliding rail 11 for braking;

the braking piece 35 is used for being abutted against the slide rail 11 for braking, so that the lifting assembly 3 stays at the original position more stably when stopping lifting;

the braking groove 112 is used for increasing the friction force when the braking member 35 abuts against the sliding rail 11;

specifically, after the lifting assembly 3 stops lifting, a worker operates an external control device to control the second driving device 33 to rotate in the forward direction, the second driving device 33 drives the prying member 34 to ascend after rotating, at this time, the prying member 34 drives the contact end of the braking member 35 to rotate to abut against the sliding rail 11, and at this time, braking is achieved.

Furthermore, a supporting plate 315 is convexly arranged at one end of the sliding part 31, the wind-resistant all-steel climbing frame comprises a bottom plate 8, and the bottom plate 8 is fixedly connected with the supporting plate 315; the lifting assembly 3 comprises a bearing plate 36, the bearing plate 36 is fixedly connected with the sliding parts 31, the bearing plate 36 is positioned between the two sliding parts 31, and the first driving device 4 is fixedly connected with the bearing plate 36; the bearing plate 36 is convexly provided with a support position 361, the support position 361 is close to the transmission rack 2, the first driving device 4 is fixedly connected with the support position 361, and the transmission gear 5 is movably connected with the support position 361.

In the present embodiment:

the support plate 315 is used to provide a stable support structure for the base plate 8;

the base plate 8 is used to provide a stable standing support structure for workers;

the carrier plate 36 has 2 pieces, which are all used to provide a supporting structure for the first driving device 4, and also connect the three sliding pieces 31 more firmly;

the support 361 is used to provide a resting structure for the first driving device 4 and a supporting structure for the transmission gear 5.

Of course, the present invention may have other embodiments, and based on the embodiments, those skilled in the art can obtain other embodiments without any creative effort, and all of them are within the protection scope of the present invention.

Claims (10)

1. The wind-resistant all-steel climbing frame is characterized by comprising a fixing frame, two transmission racks, a lifting assembly, two first driving devices, two transmission gears, two first protection plates and a second protection plate, wherein the fixing frame is provided with three sliding rails, the two transmission racks are respectively inserted between the three sliding rails and fixedly connected with the fixing frame, the lifting assembly is respectively movably connected with the three sliding rails, the two first driving devices are respectively and fixedly connected with one side of the lifting assembly, the two transmission gears are respectively and fixedly connected with the rotating shafts of the two first driving devices, the transmission gears are meshed with the transmission racks, the first driving devices can drive the transmission gears to rotate relative to the transmission racks so as to drive the lifting assembly to do lifting motion relative to the fixing frame, the two first protection plates are respectively and fixedly connected to two sides of the lifting assembly, the second protection plate is fixedly connected with the lifting assembly, the second protection plate is located between the two first protection plates, a plurality of air deflectors and a plurality of ventilation grooves are arranged on the first protection plate and the second protection plate, and the plurality of air deflectors are respectively arranged in a staggered mode in sequence with the plurality of ventilation grooves.

2. The wind-resistant all-steel climbing frame according to claim 1, wherein the lifting assembly comprises three sliding parts and pulleys, a supporting column is arranged on each sliding part, the supporting column penetrates through each pulley and is movably connected with the corresponding pulley, the three sliding parts are respectively movably connected with the three sliding rails, and the pulleys are abutted to the sliding rails.

3. The wind-resistant all-steel climbing frame according to claim 2, wherein the sliding member is provided with a sliding slot, and the sliding rail part is accommodated in the sliding slot.

4. The wind-resistant all-steel climbing frame according to claim 2, wherein the slide rail is provided with a positioning groove, and the pulley part is accommodated in the positioning groove.

5. The wind-resistant all-steel creeper according to claim 2, wherein the lifting assembly comprises a second driving device, a prying member and a braking member, the second driving device is fixedly connected to one side of the sliding member, the prying member is movably connected with the second driving device, the braking member is hinged to the prying member, the braking member is movably connected with the sliding member, and the second driving device can drive the prying member to perform lifting movement so as to drive the braking member to rotate to abut against the sliding rail.

6. The wind-resistant all-steel climbing frame according to claim 5, wherein the sliding member is provided with two mounting plates and an open slot, the open slot is located between the two mounting plates, the braking member is located between the two mounting plates and movably connected with the mounting plates, and the braking member is located above the open slot.

7. The wind-resistant all-steel climbing frame according to claim 5, wherein a plurality of braking grooves are formed on the sliding rail, the plurality of braking grooves are arranged in sequence, and the braking member is positioned above the braking grooves.

8. The wind-resistant all-steel climbing frame according to claim 2, wherein a supporting plate is convexly arranged at one end of the sliding part, and the wind-resistant all-steel climbing frame comprises a bottom plate which is fixedly connected with the supporting plate.

9. The wind-resistant all-steel climbing frame according to claim 2, wherein the lifting assembly comprises a bearing plate fixedly connected to the sliding members, the bearing plate being located between the two sliding members, and the first driving device is fixedly connected to the bearing plate.

10. The wind-resistant all-steel climbing frame according to claim 9, wherein a supporting position is convexly arranged on the bearing plate, the supporting position is close to the transmission rack, the first driving device is fixedly connected with the supporting position, and the transmission gear is movably connected with the supporting position.

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