CN217535373U - Lifting mechanism for welding operation - Google Patents

Abstract

The utility model belongs to the technical field of petroleum storage tank welding application, and particularly discloses a welding operation lifting mechanism, which comprises a group of long connecting plates, a lifting platform front wheel set, a lifting platform rear wheel set, a fixed shaft, a spring gasket, a first hexagon nut, an anti-falling connecting block and a track; wheel set dislocation set is at a set of long connecting plate, both ends behind the preceding wheelset of lift platform, the fixed axle runs through the same end of a set of long connecting plate respectively, and fastens through spring shim, first hexagon nut, the connecting block setting of preventing falling is on the fixed axle, the track is located between dislocation set lift platform preceding wheelset, the rear wheel set of lift platform. The utility model discloses a welding operation elevating system's beneficial effect lies in: 1. the working complexity of a welding operator is reduced; 2. the efficiency of site operation is improved, and the construction progress is accelerated; 3. the danger of a welder in the operation process is reduced.

Description

Lifting mechanism for welding operation

Technical Field

The utility model belongs to the technical field of oil storage tank welding is used, concretely relates to welding operation elevating system.

Background

In the current petroleum storage tank industry, the operation platform of a longitudinal seam welder frame welder is fixed, and as a welding trolley moves upwards, the welder can only move upwards along with the trolley through a simple ladder arranged on the side face, so that the difficulty in the operation process of the welder is increased, and the danger in the operation of the welder is also increased.

Therefore, in order to change this situation, the welding operation lifting mechanism is designed based on the above-described problems.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a welding operation elevating system, its project organization is reasonable, solves the technical problem who exists among the background art, has improved welder's operating condition and welding efficiency greatly.

The technical scheme is as follows: the utility model provides a welding operation lifting mechanism, which comprises a group of long connecting plates, a lifting platform front wheel set, a lifting platform rear wheel set, a fixed shaft, a spring gasket, a first hexagon nut, an anti-falling connecting block and a track; wheel set dislocation set is at a set of long connecting plate, both ends behind the preceding wheelset of lift platform, the fixed axle runs through the same end of a set of long connecting plate respectively, and fastens through spring shim, first hexagon nut, the connecting block setting of preventing falling is on the fixed axle, the track is located between dislocation set lift platform preceding wheelset, the rear wheel set of lift platform.

The utility model discloses technical scheme, welding operation elevating system still including setting up at the fixed axle, and is located left-handed spring, the dextrorotation spring of preventing between connecting block and a set of long connecting plate of falling.

The utility model provides a, welding operation elevating system still includes the foraminiferous spacing otic placode of U-shaped that sets up on the connecting block of preventing falling, and sets up hexagon socket head cap screw, spring washer and second hexagon nut on the foraminiferous spacing otic placode of U-shaped, and wherein, the foraminiferous spacing otic placode of connecting block, U-shaped of preventing falling makes for integrated into one piece's alloy stainless steel.

The utility model provides a, welding operation elevating system still includes and prevents wire rope, the miniature electric block that the foraminiferous spacing otic placode of connecting block, U-shaped cooperateed and use of falling.

The utility model provides a, welding operation elevating system still includes the support gusset through supplementary hexagon socket head cap screw, supplementary spring washer and a set of long connecting plate fixed connection, and sets up the platform footboard on support gusset respectively.

The technical scheme of the utility model, lift platform front wheel group sets up two sets ofly at least, and sets up at a set of long connecting plate homonymy both ends.

Compared with the prior art, the utility model discloses a welding operation elevating system's beneficial effect lies in: 1. the working complexity of a welding operator is reduced; 2. the efficiency of site operation is improved, and the construction progress is accelerated; 3. the danger of a welder in the operation process is reduced.

Drawings

Fig. 1 is a schematic front view of the welding operation lifting mechanism of the present invention;

FIG. 2 is a left side view schematic diagram of the welding operation lifting mechanism of the present invention;

FIG. 3 isbase:Sub>A view A-A of FIG. 1;

FIG. 4 is a view B-B of FIG. 1;

wherein, the drawing serial numbers are as follows: 1-lifting platform front wheel set, 2-auxiliary inner hexagon bolt, 3-auxiliary spring washer, 4-lifting platform rear wheel set, 5-fixed shaft, 6-spring washer, 7-first hexagon nut, 8-left-handed spring, 9-anti-falling connecting block, 10-inner hexagon bolt, 11-spring washer, 12-second hexagon nut, 13-micro electric hoist, 14-steel wire rope, 15-right-handed spring, 16-platform pedal, 17-group long connecting plate, 18-supporting rib plate, 19-track and 20-U-shaped limiting lug plate with hole.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Example one

The welding operation lifting mechanism shown in fig. 1, 2, 3 and 4 comprises a group of long connecting plates 17, a lifting platform front wheel set 1, a lifting platform rear wheel set 4, a fixed shaft 5, a spring gasket 6, a first hexagon nut 7, a falling prevention connecting block 9 and a track 19; wheel set 1 before the lift platform, 4 dislocation sets of wheel set behind the lift platform are at a set of long connecting plate 17, both ends, and fixed axle 5 runs through the same end of a set of long connecting plate 17 respectively, and fastens through spring gasket 6, first hexagon nut 7, and the connecting block 9 that prevents falling sets up on fixed axle 5, and track 19 is located the dislocation sets between wheel set 1 behind the lift platform, the wheel set 4 behind the lift platform, and wherein, wheel set 1 behind the lift platform, wheel set 4 comprises shaft and wheel respectively.

Example two

The welding operation lifting mechanism shown in fig. 1, 2, 3 and 4 comprises a group of long connecting plates 17, a lifting platform front wheel set 1, a lifting platform rear wheel set 4, a fixed shaft 5, a spring gasket 6, a first hexagon nut 7, a falling prevention connecting block 9 and a track 19; wheelset 1 before the lift platform, 4 dislocation sets of wheelset behind the lift platform are at a set of long connecting plate 17, both ends, fixed axle 5 runs through the same end of a set of long connecting plate 17 respectively, and pass through spring gasket 6, the fastening of first hexagon nut 7, prevent that falling connecting block 9 sets up on fixed axle 5, track 19 is located dislocation sets wheel set 1 before the lift platform, between the wheelset 4 behind the lift platform, wherein, wheelset 1 before the lift platform, wheel set 4 comprises shaft and wheel respectively behind the lift platform, and set up at fixed axle 5, and be located the left-handed spring 8 between the connecting block 9 of preventing falling and a set of long connecting plate 17, right-handed spring 15, be used for carrying out the horizontally spacing to the connecting block 9 of preventing falling, prevent controlling the drunkenness.

EXAMPLE III

The welding operation lifting mechanism shown in fig. 1, 2, 3 and 4 comprises a group of long connecting plates 17, a lifting platform front wheel set 1, a lifting platform rear wheel set 4, a fixed shaft 5, a spring gasket 6, a first hexagon nut 7, a falling prevention connecting block 9 and a track 19; the anti-falling device comprises a lifting platform front wheel set 1, a lifting platform rear wheel set 4, a lifting platform rear wheel set 5, a rail 19, a spring gasket 6, a first hexagon nut 7, a falling-prevention connecting block 9, a rail 19, a left-handed spring 8, a right-handed spring 15, a U-shaped perforated limiting lug plate 20, a hexagon socket head cap screw 10, a spring washer 11 and a second hexagon nut 12, wherein the lifting platform front wheel set 1 and the lifting platform rear wheel set 4 are respectively composed of a wheel shaft and a wheel, the falling-prevention connecting block 9 is arranged on the fixed shaft 5, the left-handed spring 8 and the right-handed spring 15 are positioned between the falling-prevention connecting block 9 and the set of long connecting plate 17 and are used for horizontally limiting the falling-prevention connecting block 9 and preventing the left-right shifting, the U-shaped perforated limiting lug plate 20 is arranged on the falling-prevention connecting block 9, the hexagon socket head cap screw 10, the spring washer 11 and the second hexagon nut 12 are arranged on the U-shaped perforated limiting lug plate 20, the connecting block 9 and the U-shaped perforated limiting lug plate 20 are made of an integrally formed alloy stainless steel, the anti-falling connecting block 9 and the U-shaped perforated limiting lug plate 20 are made of a fixed rope-lifting component and a lifting component seat used for quickly fixing the outer wall of the perforated rope-holding seat.

Example four

The welding operation lifting mechanism shown in fig. 1, 2, 3 and 4 comprises a group of long connecting plates 17, a lifting platform front wheel set 1, a lifting platform rear wheel set 4, a fixed shaft 5, a spring gasket 6, a first hexagonal nut 7, a falling prevention connecting block 9 and a rail 19; the lifting platform front wheel set 1 and the lifting platform rear wheel set 4 are arranged at the two ends of a group of long connecting plates 17 in a staggered manner, a fixed shaft 5 respectively penetrates through the same ends of the group of long connecting plates 17 and is fastened through a spring gasket 6 and a first hexagon nut 7, a falling prevention connecting block 9 is arranged on the fixed shaft 5, and a track 19 is positioned between the lifting platform front wheel set 1 and the lifting platform rear wheel set 4 which are arranged in a staggered manner, wherein the lifting platform front wheel set 1 and the lifting platform rear wheel set 4 respectively comprise a wheel shaft and a wheel, a left-handed spring 8 and a right-handed spring 15 are arranged on the fixed shaft 5 and are positioned between the falling prevention connecting block 9 and the group of long connecting plates 17 and are used for horizontally limiting the falling prevention connecting block 9 and preventing the left and right movement, and a U-shaped limiting lug plate 20 with holes is arranged on the falling prevention connecting block 9, the anti-falling device comprises a U-shaped perforated limiting lug plate 20, a falling-preventing connecting block 9, a U-shaped perforated limiting lug plate 20, a steel wire rope 14 and a micro electric block 13, wherein the U-shaped perforated limiting lug plate 20 is made of integrally formed alloy stainless steel, the service life of the anti-falling connecting block is long, the anti-falling connecting block 9 and the U-shaped perforated limiting lug plate 20 are free of fracture and deformation, the anti-falling connecting block 9 and the U-shaped perforated limiting lug plate 20 are used for being fast fixed with a lifting component on the outer wall through threading, the micro electric block 13 and the steel wire rope 14 are matched with the falling-preventing connecting block 9 and the U-shaped perforated limiting lug plate 20 for use, the steel wire rope 14 is respectively connected and fixed with the falling-preventing connecting block 9 and the U-shaped perforated limiting lug plate 20, the micro electric block 13 stretches the whole component to vertically lift up and down on a rail 19 (the rail is fixed), and the front wheel set 1 of the lifting platform and the rear wheel set 4 of the lifting platform are respectively in contact with two surfaces of the rail 19.

EXAMPLE five

The welding operation lifting mechanism shown in fig. 1, 2, 3 and 4 comprises a group of long connecting plates 17, a lifting platform front wheel set 1, a lifting platform rear wheel set 4, a fixed shaft 5, a spring gasket 6, a first hexagonal nut 7, a falling prevention connecting block 9 and a rail 19; the lifting platform front wheel set 1, the lifting platform rear wheel set 4 are arranged on a group of long connecting plates 17 in a staggered mode, two ends of the lifting platform front wheel set 1 are provided, a fixed shaft 5 penetrates through the same ends of the group of long connecting plates 17 respectively and is fastened through a spring gasket 6 and a first hexagon nut 7, a falling prevention connecting block 9 is arranged on the fixed shaft 5, a track 19 is positioned between the lifting platform front wheel set 1 and the lifting platform rear wheel set 4 which are arranged in a staggered mode, wherein the lifting platform front wheel set 1 and the lifting platform rear wheel set 4 are respectively composed of a wheel shaft and a wheel and are arranged on the fixed shaft 5, a left-handed spring 8 and a right-handed spring 15 are positioned between the falling prevention connecting block 9 and the group of long connecting plates 17 and are used for horizontally limiting the falling prevention connecting block 9 and preventing the left and right shifting, a U-shaped perforated limiting lug plate 20 arranged on the falling prevention connecting block 9, an inner hexagon bolt 10, a spring washer 11 and a second hexagon nut 12 arranged on the U-shaped perforated limiting lug plate 20, the connecting block 9 and the U-shaped perforated limiting lug plate 20, wherein the connecting block 9 and the U-shaped perforated limiting lug plate 20 are made of an integrally formed alloy stainless steel wire rope, the U-shaped connecting block 9 and the U-shaped perforated connecting plate 20 are used for being matched with a group of a lifting platform, a miniature lifting platform supporting component, a lifting platform supporting plate 18 and a lifting platform vertical lifting platform, a lifting platform supporting component, a miniature lifting platform supporting component 14, a miniature lifting cable rope supporting component 13 is arranged on a miniature cable rope supporting plate 14 and a miniature cable rope supporting component 13, for a welding operator to step on the platform pedal 16 to perform welding.

The welding operation elevating system of above-mentioned embodiment is preferred, and the front wheelset 1 of lift platform sets up two sets ofly at least, and sets up at a set of long connecting plate 17 homonymy both ends, improves the spacing stability of level between front wheelset 1 of lift platform, the rear wheelset 4 of lift platform and the track 19, guarantees follow-up lifting control's security.

The working principle of the welding operation lifting mechanism with the structure is as follows: miniature electric block 13 prevents falling connecting block 9 and the foraminiferous spacing otic placode upward movement of U-shaped through wire rope 14 pulling, prevent falling connecting block 9 and drive a set of long connecting plate 17, support rib plate 18, synchronous upward movement such as platform footboard 16, and the welding operation operative employee is on platform footboard 16 this moment, through the firm support of platform footboard 16, carry out welding operation, miniature electric block 13 promptly, wire rope 14 etc. drive does and reciprocates on the track, it reciprocates on the station to reach the welder, accomplish the welding operation process.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principle of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (6)

1. Welding operation elevating system, its characterized in that: comprises a group of long connecting plates (17), a lifting platform front wheel set (1), a lifting platform rear wheel set (4), a fixed shaft (5), a spring gasket (6), a first hexagonal nut (7), an anti-falling connecting block (9) and a track (19); wheel set (1), lifting platform rear wheel group (4) dislocation set are at a set of long connecting plate (17), both ends before the lifting platform, fixed axle (5) run through respectively a set of long connecting plate (17) with the end, and fasten through spring spacer (6), first hexagon nut (7), prevent falling connecting block (9) and set up on fixed axle (5), track (19) are located and dislocate between setting lifting platform front wheel group (1), lifting platform rear wheel group (4).

2. The welding operation lift mechanism of claim 1, wherein: welding operation elevating system still including setting up at fixed axle (5), and be located left-handed spring (8), dextrorotation spring (15) between anti-falling connecting block (9) and a set of long connecting plate (17).

3. The welding operation lift mechanism of claim 2, wherein: welding operation elevating system still includes and sets up foraminiferous spacing otic placode of U-shaped (20) on connecting block (9) of preventing falling to reach hexagon socket head cap screw (10), spring washer (11) and second hexagon nut (12) of setting on foraminiferous spacing otic placode of U-shaped (20), wherein, prevent that connecting block (9), foraminiferous spacing otic placode of U-shaped (20) are made for integrated into one piece's alloy stainless steel.

4. The welding operation lift mechanism of claim 3, wherein: the welding operation lifting mechanism further comprises a steel wire rope (14) and a miniature electric block (13), wherein the steel wire rope is matched with the anti-falling connecting block (9) and the U-shaped limiting lug plate (20) with the hole.

5. The welding operation lift mechanism of claim 4, wherein: the welding operation lifting mechanism further comprises a supporting rib plate (18) fixedly connected with a group of long connecting plates (17) through an auxiliary inner hexagon bolt (2) and an auxiliary spring washer (3), and platform pedals (16) respectively arranged on the supporting rib plate (18).

6. The welding operation lift mechanism of claim 1, wherein: the lifting platform front wheel set (1) is at least provided with two groups and is arranged at two ends of the same side of a group of long connecting plates (17).

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