CN213738121U - Full-intelligent self-climbing conveying operation table - Google Patents

Abstract

The utility model discloses a fully intelligent self-climbing conveying operation platform, which comprises an inner sliding platform, an outer sliding platform, a magnet induction type self-locking lifting hook and an electric self-climbing system; the utility model discloses set up interior sliding platform and outer sliding platform, can adopt fork truck to transport the material on the interior sliding platform in the floor, can adopt the tower crane to transport the material of the exterior sliding platform outside the floor to carry out the conveying of interior outer platform through corresponding sliding guide and roller train, realize mechanization, use manpower sparingly greatly, also reduced the construction risk simultaneously; the utility model has climbing function, can realize the climbing of the unloading platform among different floors through the winch, the lifting pulley and the steel wire rope, thus not needing to arrange the unloading platform on each floor, and reducing the construction cost; the whole climbing process is simple and convenient, the labor intensity of workers is low, a tower crane does not need to be occupied for a long time, and the construction efficiency is improved.

Description

Full-intelligent self-climbing conveying operation table

Technical Field

The utility model belongs to the construction field, concretely relates to full intellectuality is from conveying operation panel that climbs.

Background

The unloading platform is used as a key platform for transferring materials among floors in the building construction process, and is unnecessary or deficient in engineering construction, particularly in high-rise building construction, the unloading platform is used more frequently, a plurality of unloading platforms are required to be arranged or the unloading platforms are required to be repeatedly installed and dismantled among different floors, the process is generally manual installation, a tower crane is used for carrying out upper-and-lower layer turnover and allocation, each installation and dismantling needs more personnel operation, and the operation can be completed only by occupying a tower crane for a long time, so that the construction efficiency is low, the labor intensity is high, and the cost is high;

when transporting the operation on the platform of unloading, need the operation personnel to stand on the platform of unloading, and because the safeguard measure of the platform of unloading uses the steel pipe to set up, the protection is simple and crude, it is not tight, will make the platform of unloading on the operation personnel emit the risk of being struck by overhead object and eminence fall, near the platform of unloading outdoor lower floor operation personnel also have the risk of being struck by overhead object, whole process is once for packing material on the platform of unloading, need clear up the material again after transferring to ground, consequently, cause the amount of labour big, safe civilized construction difficulty.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full intellectuality is from conveying operation panel that climbs has low in labor strength, the efficiency of construction is high, use cost is little, the operation is simple and easy, the high advantage of security.

The purpose of the utility model can be realized by the following technical scheme:

the full-intelligent self-climbing conveying operation platform comprises an inner sliding platform, an outer sliding platform, an iron-attracting induction type self-locking lifting hook and an electric self-climbing system;

the inner sliding platform comprises two inner sliding guide rails and two inner sliding panels, a connecting rod is arranged between the two inner sliding guide rails, and a skid is arranged below the two inner sliding guide rails; the lower end of the inner sliding panel is provided with an inner roller group, the inner roller group comprises a first hanging ring, a first roller and a motor, the upper end of the first hanging ring is connected with the inner sliding panel, the lower end of the first hanging ring is provided with the first roller, the first roller is placed on the inner sliding guide rail, and the motor is arranged on the lower end surface of the inner sliding panel and is connected with the first roller;

the outer sliding platform comprises outer sliding guide rails and an outer sliding panel, the outer sliding guide rails are provided with two guide rails which are respectively positioned outside the inner sliding guide rails, each outer sliding guide rail comprises a guide rail frame and a guide rail groove formed in the guide rail frame, the right end of the guide rail frame extends out of the floor, a limiting plate is arranged at the right end of the guide rail groove, a limiting ring is arranged at the lower end of the outer sliding panel, an outer roller group is arranged in the limiting ring and comprises a second lifting ring and a second roller, the upper end of the second lifting ring is connected with the outer sliding panel, the lower end of the second lifting ring is provided with the second roller, and the second roller is placed in the guide rail groove;

an inclined strut is arranged below the outer sliding platform and is divided into an inclined section and a horizontal section, the upper end of the inclined section is connected with one end of the guide rail frame extending out of the floor, the lower end of the inclined section is connected with the horizontal section, and the horizontal section is fixed with the ground of the lower floor of the floor where the guide rail frame is located;

the iron absorption induction type self-locking lifting hook is arranged on a material to be transported and comprises two semicircular clamping rings, connecting sheets are arranged on two sides of the upper portions of the semicircular clamping rings outwards, and the two semicircular clamping rings are butted to form a cylinder after the connecting sheets of the two semicircular clamping rings are fixed through bolts; the magnet is arranged at the bottom of the semicircular clamping ring, the upper part of the semicircular clamping ring is inwards provided with an upper limiting plate, a semicircular annular fixed shaft is arranged below the upper limiting plate, the fixed shaft is provided with semi-limiting pieces at intervals, one end of each semi-limiting piece is annular, the other end of each semi-limiting piece is plate-shaped, one end of each annular semi-limiting piece is sleeved on the fixed shaft and can rotate around the fixed shaft, one end of each plate-shaped piece faces the center of the semicircular clamping ring and inclines downwards, and the end part of one end of each plate-shaped piece is connected with the inner wall of the semicircular clamping ring through a reset spring;

the electric self-climbing system comprises a winch, a wall-attached part, a pulling-up pulley and a steel wire rope, wherein the winch is arranged on the upper two floors of a floor where the outer sliding platform is located; and a rack is arranged below the wall attaching piece, the position of the outer sliding guide rail corresponding to the rack is connected with a gear through a pin shaft, and the rack is meshed with the gear.

The weight sensing alarm is laid on the inner sliding panel and can set a weight value, when materials are placed on the inner sliding panel, the weight value is displayed in real time, when the weight value exceeds a preset value, the weight sensing alarm gives an alarm and disconnects a switch of the motor, the materials are forbidden to be conveyed inside and outside a floor, when the weight of the materials is reduced to be below the preset value, the motor switch is automatically switched on, and the inner sliding panel can convey the materials in a sliding mode.

The lower end surface of the inner sliding panel is provided with a reinforcing keel, and the reinforcing keel is composed of criss-cross square tubes, so that the bearing capacity and the structural strength of the inner sliding panel can be enhanced; the lower terminal surface of outer slip panel is provided with the square tube fossil fragments, the spacing ring is connected square tube fossil fragments and guide rail frame.

The side edge that outer sliding platform is close to the floor articulates and is provided with the board that turns over, is provided with on remaining three side and prevents guardrail bar, prevent that guardrail bar includes vertically and horizontally staggered's square tube and the net piece that punches a hole, turn over the board and can overturn the back and prevent that guardrail bar is closed, prevent that the material from dropping from outer sliding platform.

The outer sliding guide rail and the inclined strut are fixed with the ground of the floor where the outer sliding guide rail and the inclined strut are located through the fixing clamping ring.

The outer sliding guide rail is a foldable joint at the inner and outer junctions of the floors, and the outer sliding guide rail in the floors is folded towards the outside of the floors when climbing is carried out; when the reinforcing steel plate is fixed with the outer sliding guide rail, the joint loses folding capacity, and stability of the outer sliding guide rail in the non-climbing process is guaranteed.

The hinge joint of the turning plate and the outer sliding platform of the inner sliding guide rail is a foldable joint, and the inner sliding guide rail can be disconnected at the right end of the skid.

The utility model has the advantages that:

1. the utility model discloses set up interior sliding platform and outer sliding platform, can adopt fork truck to transport the material on the interior sliding platform of floor, can adopt the tower crane to transport the material of the external sliding platform of outside the floor to carry out the conveying of interior outer platform through corresponding sliding guide and roller train, realize mechanization, use manpower sparingly greatly, also reduced the construction risk simultaneously.

2. The utility model discloses an inhale indisputable induction type auto-lock lifting hook through the effect of its inside half spacing piece and magnet, realizes that the tower crane carries out hoist and mount during operation, need not personnel and goes to carry out being connected between tower crane lifting hook and the material, can guarantee simultaneously that the material of hoisting can not unhook at the hoisting in-process, and the security is strong, and the operation is simple and easy.

3. The utility model has climbing function, can realize the climbing of the unloading platform among different floors through the winch, the lifting pulley and the steel wire rope, thus not needing to arrange the unloading platform on each floor, and reducing the construction cost; the whole climbing process is simple and convenient, the labor intensity of workers is low, a tower crane does not need to be occupied for a long time, and the construction efficiency is improved.

4. The utility model discloses the suitability is strong, no matter is frame construction or shear wall structure, no matter is ordinary scaffold frame protection or the scaffold frame protection that climbs can all use, makes the work progress more intelligent and mechanized moreover.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is an enlarged view at B in FIG. 1;

fig. 4 is a schematic structural diagram of the present invention;

fig. 5 is a schematic view of the inner slide platform of the present invention;

fig. 6 is a schematic view of an outer sliding platform of the present invention;

FIG. 7 is a schematic view of a reinforced steel plate of the present invention;

FIG. 8 is a schematic view of the iron attraction induction type self-locking hook of the present invention;

FIG. 9 is a sectional view taken along line A-A of FIG. 8;

fig. 10 is a sectional view taken along line B-B of fig. 8.

Description of the main elements

In the figure: an inner sliding platform 1; an inner slide rail 11; an inner slide panel 12; a connecting rod 13; a skid 14; an inner roller set 15; a first hanging ring 151; a first roller 152; a motor 153; a reinforcing keel 16;

an outer sliding platform 2; an outer slide rail 21; a rail holder 211; a rail groove 212; a limit plate 213; an outer slide panel 22; a retainer ring 23; an outer roller set 24; a second hanging ring 241; a second roller 242; a square keel 25;

a magnet induction type self-locking lifting hook 3; a semicircular snap ring 31; a connecting piece 311; a magnet 32; a half stopper 33; a fixed shaft 34; a return spring 35; an upper limiting plate 36;

an electric self-climbing system 4; a hoist 41; the wall attachment member 42; pulling up the pulley 43; a wire rope 44; a rack 45; a pin 46; a gear 47;

a diagonal brace 5; a weight sensing alarm 6; a turning plate 7; a guard rail 8; a punched mesh 81; a fixing snap ring 9; the steel plate 10 is reinforced.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-10, a fully intelligent self-climbing transfer console includes an inner sliding platform 1, an outer sliding platform 2, an iron-attracting inductive self-locking hook 3 and an electric self-climbing system 4;

the inner sliding platform 1 comprises two inner sliding guide rails 11 and two inner sliding panels 12, a connecting rod 13 is arranged between the two inner sliding guide rails 11, and a skid 14 is arranged below the two inner sliding guide rails 11; an inner roller group 15 is arranged at the lower end of the inner sliding panel 12, the inner roller group 15 comprises a first hanging ring 151, a first roller 152 and a motor 153, the upper end of the first hanging ring 151 is connected with the inner sliding panel 12, the lower end of the first hanging ring 151 is provided with the first roller 152, the first roller 152 is placed on the inner sliding guide rail 11, and the motor 153 is arranged on the lower end face of the inner sliding panel 12 and is connected with the first roller 152;

the outer sliding platform 2 comprises an outer sliding guide rail 21 and an outer sliding panel 22, the outer sliding guide rail 21 is provided with two guide rails and is respectively positioned outside the inner sliding guide rail 11, the outer sliding guide rail 21 comprises a guide rail frame 211 and a guide rail groove 212 arranged on the guide rail frame 211, the right end of the guide rail frame 211 extends out of the floor, a limiting plate 213 is arranged at the right end of the guide rail groove 212, a limiting ring 23 is arranged at the lower end of the outer sliding panel 22, an outer roller group 24 is arranged in the limiting ring 23, the outer roller group 24 comprises a second lifting ring 241 and a second roller 242, the upper end of the second lifting ring 241 is connected with the outer sliding panel 22, a second roller 242 is arranged at the lower end of the second lifting ring 241, and the second roller 242 is placed in the guide rail groove 212;

an inclined strut 5 is arranged below the outer sliding platform 2, the inclined strut 5 is divided into an inclined section and a horizontal section, the upper end of the inclined section is connected with one end of the guide rail frame 211 extending out of the floor, the lower end of the inclined section is connected with the horizontal section, and the horizontal section is fixed with the ground of the lower floor of the floor where the guide rail frame 211 is located;

the iron absorption induction type self-locking lifting hook 3 is arranged on a material to be transported, the iron absorption induction type self-locking lifting hook 3 comprises two semicircular clamping rings 31, connecting pieces 311 are arranged on two sides of the upper portions of the semicircular clamping rings 31 outwards, and the two semicircular clamping rings 31 are butted to form a cylinder after the connecting pieces 311 of the two semicircular clamping rings 31 are fixed through bolts; the bottom of the semicircular clamping ring 31 is provided with a magnet 32, the upper part of the semicircular clamping ring 31 is inwards provided with an upper limiting plate 36, a semicircular annular fixed shaft 34 is arranged below the upper limiting plate 36, the fixed shaft 34 is provided with semicircular limiting pieces 33 at intervals, one end of each semicircular limiting piece 33 is annular, the other end of each semicircular limiting piece 33 is plate-shaped, one end of each annular piece is sleeved on the fixed shaft 34 and can rotate around the fixed shaft 34, one end of each plate-shaped piece inclines downwards towards the center of the semicircular clamping ring 31, and the end part of one end of each plate-shaped piece is connected with the inner wall of the semicircular clamping ring 31 through a return spring 35;

the electric self-climbing system 4 comprises a winch 41, a wall-attached part 42, a pulling-up pulley 43 and a steel wire rope 44, wherein the winch 41 is arranged on the upper two floors of the floor where the outer sliding platform 2 is located, the wall body of the floor where the winch 41 is located is provided with the wall-attached part 42, the wall-attached part 42 is provided with the pulling-up pulley 43, and the steel wire rope 44 of the winch 41 is connected with the outer sliding guide rail 21 through the pulling-up pulley 43; a rack 45 is arranged below the wall attaching piece 42, a gear 47 is connected to the position, corresponding to the rack 45, of the outer sliding guide rail 21 through a pin shaft 46, and the rack 45 is meshed with the gear 47.

The weight sensing alarm 6 is laid on the inner sliding panel 12, the weight sensing alarm 6 can set a weight value, when materials are placed on the inner sliding panel 12, the weight of the materials is displayed in real time, when the weight exceeds a preset value, the weight sensing alarm 6 gives an alarm sound and switches off the switch of the motor 153 to prohibit the materials from being conveyed inside and outside a floor, when the weight of the materials is reduced to be below the preset value, the switch of the motor 153 is automatically switched on, and the inner sliding panel 12 can convey the materials in a sliding mode.

The lower end surface of the inner sliding panel 12 is provided with a reinforcing keel 16, the reinforcing keel is composed of criss-cross square tubes, and the bearing capacity and the structural strength of the inner sliding panel 12 can be enhanced; the lower terminal surface of outer slip panel 22 is provided with square tube fossil fragments 25, stop collar 23 connects square tube fossil fragments 25 and guide rail frame 211.

The outer sliding platform 2 is provided with the board 7 that turns over in the articulated way on being close to the one side edge of floor, is provided with guard rail 8 on remaining three side edge, guard rail 8 includes vertically and horizontally staggered's square tube and the net piece 81 that punches a hole, turns over the board 7 and can overturn the back and close with guard rail 8, prevents that the material from dropping from outer sliding platform 2.

The outer sliding guide rail 21 and the inclined strut 5 are fixed with the ground of the floor where the outer sliding guide rail and the inclined strut are located through the fixing clamp ring 9.

The outer sliding guide rail 21 is a foldable joint at the inner and outer junctions of the floors, and the outer sliding guide rail 21 in the floors is folded towards the outside of the floors when climbing is carried out; the reinforcing steel plate 10 is arranged at the foldable joint, when the reinforcing steel plate 10 is fixed with the outer sliding guide rail 21, the joint loses the folding capability, and the stability of the outer sliding guide rail 21 when climbing is not performed is ensured.

The inner sliding guide rail 11 is a foldable joint at the hinged part of the turning plate 7 and the outer sliding platform 2, and the inner sliding guide rail 11 can be disconnected at the right end of the skid 14.

The working principle is as follows: after the materials are packed, installing an iron-attracting induction type self-locking lifting hook 3 on the lifting rope; when materials are placed on the inner sliding panel 12, the motor 153 and the roller wheel I152 drive the inner sliding panel 12 to move along the inner sliding guide rail 11, so that the materials are transferred inside and outside the floor; when the material is conveyed out of the floor, the tower crane hook approaches the material, then the half limiting piece 33 is automatically opened to enter the semicircular clamping ring 31 under the action of the attraction force of the magnet 32 of the iron attraction induction type self-locking hook 3, and the tower crane hook is clamped because the half limiting piece 33 and the upper limiting plate 36 cannot rotate upwards under the limiting action, so that the material can be lifted, and after the material reaches a specified position and is put down, the bolt and the nut of the connecting piece 311 are opened, so that the tower crane hook can be taken out, and the hoisting operation is continued;

when the platform needs to climb to a higher floor, the reinforcing steel plate 10 and the fixing clamp ring 9 of the outer sliding guide rail 21 are unfastened, the outer sliding guide rail 21 in the floor is folded towards the outside of the floor, the connection between the inclined strut 5 and the outer sliding guide rail 21 is released, the inner sliding guide rail 11 is disconnected at the right end of the skid 14, the turning plate 7 and the disconnected inner sliding guide rail 11 are turned towards the outer sliding platform 2, folded to the vertical position and fixed, then the winch 41 is started to roll the steel wire rope 44, and the outer sliding platform 2 is pulled to move upwards integrally to realize climbing; after the outer sliding platform 2 climbs to the upper floor, the winch 41 is closed, the outer sliding guide rail 21 is unfolded, the reinforcing steel plate 10 and the fixing clamp ring 9 are screwed, then the inclined strut 5 and the outer sliding guide rail 21 are connected again, the turning plate 7 and the inner sliding guide rail 11 are unfolded to be erected between the floor and the outer sliding platform 2, and then the inner sliding panel 12 and materials enter the floor of the upper floor along the inner sliding guide rail 11.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not exhaustive and do not limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (7)

1. The fully-intelligent self-climbing conveying operation platform is characterized by comprising an inner sliding platform (1), an outer sliding platform (2), an iron-attracting induction type self-locking lifting hook (3) and an electric self-climbing system (4);

the inner sliding platform (1) comprises two inner sliding guide rails (11) and two inner sliding panels (12), a connecting rod (13) is arranged between the two inner sliding guide rails (11), and a skid (14) is arranged below the two inner sliding guide rails (11); an inner roller group (15) is arranged at the lower end of the inner sliding panel (12), the inner roller group (15) comprises a first hanging ring (151), a first roller (152) and a motor (153), the upper end of the first hanging ring (151) is connected with the inner sliding panel (12), the lower end of the first hanging ring (151) is provided with the first roller (152), the first roller (152) is placed on the inner sliding guide rail (11), and the motor (153) is arranged on the lower end face of the inner sliding panel (12) and is connected with the first roller (152);

the outer sliding platform (2) comprises an outer sliding guide rail (21) and an outer sliding panel (22), the outer sliding guide rails (21) are provided with two strips which are respectively positioned at the outer sides of the inner sliding guide rails (11), the outer sliding guide rail (21) comprises a guide rail bracket (211) and a guide rail groove (212) arranged on the guide rail bracket (211), the right end of the guide rail frame (211) extends out of the floor, the right end of the guide rail groove (212) is provided with a limit plate (213), a limiting ring (23) is arranged at the lower end of the outer sliding panel (22), an outer roller group (24) is arranged in the limiting ring (23), the outer roller set (24) comprises a second hanging ring (241) and a second roller (242), the upper end of the second hanging ring (241) is connected with the outer sliding panel (22), the lower end of the second hanging ring (241) is provided with the second roller (242), and the second roller (242) is placed in the guide rail groove (212);

an inclined strut (5) is arranged below the outer sliding platform (2), the inclined strut (5) is divided into an inclined section and a horizontal section, the upper end of the inclined section is connected with one end, extending out of the floor, of the guide rail frame (211), the lower end of the inclined section is connected with the horizontal section, and the horizontal section is fixed with the ground of the next floor of the floor where the guide rail frame (211) is located;

the iron-sucking induction type self-locking lifting hook (3) comprises two semicircular clamping rings (31), connecting pieces (311) are arranged on two sides of the upper portions of the semicircular clamping rings (31) outwards, and the two semicircular clamping rings (31) are butted to form a cylinder after the connecting pieces (311) of the two semicircular clamping rings (31) are fixed through bolts; the magnet (32) is arranged at the bottom of the semicircular clamping ring (31), the upper portion of the semicircular clamping ring (31) is inwards provided with an upper limiting plate (36), a semicircular annular fixed shaft (34) is arranged below the upper limiting plate (36), the fixed shaft (34) is provided with semi-limiting pieces (33) at intervals, one end of each semi-limiting piece (33) is annular, the other end of each semi-limiting piece is plate-shaped, one end of each annular piece is sleeved on the fixed shaft (34) and can rotate around the fixed shaft (34), one end of each plate-shaped piece faces the center of the semicircular clamping ring (31) and inclines downwards, and the end part of one end of each plate-shaped piece is connected with the inner wall of the semicircular clamping ring (31) through a reset spring (35);

the electric self-climbing system (4) comprises a winch (41), a wall-attached part (42), a pulling-up pulley (43) and a steel wire rope (44), wherein the winch (41) is arranged on the upper two floors of the floor where the outer sliding platform (2) is located, the wall body of the floor where the winch (41) is located is provided with the wall-attached part (42), the wall-attached part (42) is provided with the pulling-up pulley (43), and the steel wire rope (44) of the winch (41) is connected with the outer sliding guide rail (21) through the pulling-up pulley (43); a rack (45) is arranged below the wall attaching piece (42), a gear (47) is connected to the position, corresponding to the rack (45), of the outer sliding guide rail (21) through a pin shaft (46), and the rack (45) is meshed with the gear (47).

2. The fully intelligent self-climbing conveyor console according to claim 1, wherein a weight sensing alarm (6) is laid on the inner sliding panel (12).

3. The fully intelligent self-climbing conveying operation platform according to claim 1, wherein a reinforcing keel (16) is arranged on the lower end surface of the inner sliding panel (12), a square tube keel (25) is arranged on the lower end surface of the outer sliding panel (22), and the limiting ring (23) is connected with the square tube keel (25) and the guide rail frame (211).

4. The fully intelligent self-climbing conveying operation platform according to claim 1, wherein a turning plate (7) is hinged on one side edge of the outer sliding platform (2) close to a floor, and guard rails (8) are arranged on the other three side edges, and the guard rails (8) comprise criss-cross square tubes and punched meshes (81).

5. The fully intelligent self-climbing conveying console according to claim 1, wherein the outer sliding guide rail (21) and the inclined strut (5) are fixed with the ground of the floor where the outer sliding guide rail and the inclined strut are located through a fixing clamp ring (9).

6. The fully intelligent self-climbing conveying console according to claim 4, characterized in that the outer sliding guide rail (21) is a foldable joint at the inner and outer boundaries of the floor, and a reinforced steel plate (10) is arranged at the foldable joint.

7. The fully intelligent self-climbing conveying console according to claim 6, characterized in that the inner slide rail (11) is a foldable joint at the hinge joint of the flap (7) and the outer slide platform (2), and the inner slide rail (11) is breakable at the right end of the skid (14).

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