CN105215603B - A kind of tool structure that can guarantee that reinforcement, support column and rail welding perpendicularity - Google Patents

Abstract

The present invention relates to a kind of tool structure that can guarantee that reinforcement, support column and rail welding perpendicularity, including falsework, first rotary shaft, the second rotary shaft, the 3rd rotary shaft, the 4th rotary shaft, each rotary shaft is arranged in each rotating cylinder and can realize rotary motion, also including cantilever, the other end in described cantilever installs a pair installing plate；One side in falsework opposing cantilevers is also connected with a pair working plate.Present configuration is simple, easy to use, and when weld job, support column, reinforcement and guide pass are for operator, it is simple to operator operate.By guide rail being placed on each working plate, owing to working plate is the most parallel, therefore the distance being placed between each guide rail on working plate is fixed, ensure that the centre-to-centre spacing between guide rail, owing to cantilever vertical is in ground, and by increasing installing plate on cantilever, thus achieves reinforcement and be also perpendicularly to ground with support column, thus ensure that and weld perpendicularity between each guide rail with support column, reinforcement, improve production efficiency.

Description

A kind of tool structure that can guarantee that reinforcement, support column and rail welding perpendicularity

Technical field

The present invention relates to staircase guide rail process equipment, particularly relate to one and can guarantee that reinforcement, support column Tool structure with rail welding perpendicularity.

Background technology

At present, it is all by operator with support column, welding of reinforcement between existing home lift flat guide Member uses four pieces of simple installing plates, is positioned on jig by simple frock plate, is then put down by be welded Face guide rail, support column, reinforcement are placed on simple frock plate and weld, but this connecting method is not only The centre-to-centre spacing between two rhizoplane guide rails cannot be met, the most also cannot meet support column, reinforcement flat with each Welding perpendicularity between the guide rail of face, has had a strong impact on manufacturing schedule and product quality, has reduced production efficiency.

Summary of the invention

The applicant, for above-mentioned existing issue, has carried out Improvement, it is provided that one can guarantee that reinforcement, The tool structure of support column and rail welding perpendicularity, utilize the present invention can not only ensure two rhizoplane guide rails it Between centre distance, also ensure that simultaneously and weld perpendicularity between support column, reinforcement and flat guide, Improve production efficiency.

The technical solution adopted in the present invention is as follows:

A kind of tool structure that can guarantee that reinforcement, support column and rail welding perpendicularity, including falsework, Affixed base plate on described falsework, arranges many first rotations in the surface along orthogonal direction of described base plate Axle, described first rotary shaft is arranged in the first rotating cylinder, and one end of head rod is connected with the first rotating cylinder, Upper and lower surface in the described head rod other end connects the second rotary shaft fixed plate, the second rotating cylinder peace respectively It is contained between two piece of second rotary shaft fixed plate, in described second rotating cylinder, the second rotary shaft is installed；Second even One end of extension bar is connected with the second rotating cylinder, and the upper and lower surface in the described second connecting rod other end connects respectively Three rotary shaft fixed plates, install the 3rd rotating cylinder, the 3rd rotary shaft peace between two piece of the 3rd rotary shaft fixed plate It is contained in the 3rd rotating cylinder；One end of 3rd connecting rod is connected with described 3rd rotating cylinder, described 3rd connecting rod The other end connects the 4th rotating cylinder, and one end of cantilever is vertically stretched in described 4th rotating cylinder, at the 4th turn The surface of cylinder also abuts the 4th rotary shaft fixed plate；The other end in described cantilever installs a pair installing plate；In Multipair working plate it is also connected with on described falsework.

Its further technical scheme is:

Multiple quick clip for clamping rail is also installed on two surfaces the most vertical on described falsework Pincers, each active grab is spaced layout each other；

In described first rotating cylinder, connect clutch shaft bearing respectively at the two ends of described first rotary shaft；In described In second rotating cylinder, connect the second bearing respectively at the two ends of described second rotary shaft；In described 3rd rotating cylinder, The 3rd bearing is connected respectively at the two ends of described 3rd rotary shaft；In described 4th rotating cylinder, in described cantilever A pair the 4th bearings are also installed in the one end stretching into the 4th rotating cylinder；

Support column mounting groove is had, in the other end of described installing plate also along level in one end of described installing plate Direction stretches out formation boss, has reinforcement mounting groove on described boss；On described installing plate also Have the through hole for coordinating cantilever；

Centered by the center of circle of described through hole, on described installing plate, also symmetry is offered for location and installation plate Nut installing hole；

In described first rotary shaft, the top circle centre position of cantilever and in the second rotary shaft, the 3rd rotary shaft Top circle centre position and bottom circle centre position all offer counterbore, each alignment pin extends through the first rotary shaft and fixes Plate, the second rotary shaft fixed plate, the 3rd rotary shaft fixed plate and the 4th rotary shaft fixed plate are interior and stretch into described Counterbore inner position；

Described falsework is square, and each pair of working plate is arranged in described falsework outside right angle end face Side and inner side.

Beneficial effects of the present invention is as follows:

Present configuration is simple, easy to use, when weld job support column, reinforcement and guide pass for Operator, it is simple to operator operate.By guide rail being placed on each working plate, due to working plate each other Parallel, the distance being therefore placed between each guide rail on working plate is fixed, it is ensured that the centre-to-centre spacing between guide rail, Owing to cantilever vertical is in ground, and by increasing installing plate on cantilever, thus achieves reinforcement and prop up Dagger is also perpendicularly to ground, thus ensure that and weld perpendicularity between each guide rail with support column, reinforcement, Improve production efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the structural representation of installing plate in the present invention.

Fig. 3 is the top view of the present invention.

Wherein: 1, falsework；2, base plate；3, the first rotary shaft；41, the first rotating cylinder；42, second Rotating cylinder；43, the 3rd rotating cylinder；44, the 4th rotating cylinder；5, clutch shaft bearing；6, head rod；7, Two rotary shafts；8, the second rotary shaft fixed plate；9, the second bearing；10, the first rotary shaft fixed plate；11、 3rd rotary shaft fixed plate；12, the second connecting rod；13, the 3rd rotary shaft；14, the 3rd connecting rod；15、 3rd bearing；16, cantilever；17, installing plate；1701, support column mounting groove；1702, nut installing hole； 1703, reinforcement mounting groove；1704, boss；18, through hole；19, support column；20, reinforcement； 21, active grab；22, guide rail；23, working plate；24, tooth bar；25, the 4th bearing；26, the 4th Rotary shaft fixed plate；27, alignment pin.

Detailed description of the invention

Below in conjunction with the accompanying drawings, the detailed description of the invention of the present invention is described.

As it is shown in figure 1, a kind of tool structure bag that can guarantee that reinforcement, support column and rail welding perpendicularity Include falsework 1, affixed base plate 2 on falsework 1, arrange many in the surface along orthogonal direction of base plate 2 First rotary shaft 3, the first rotary shaft 3 is arranged in the first rotating cylinder 41, one end of head rod 6 and the One rotating cylinder 41 connects, and the upper and lower surface in head rod 6 other end connects the second rotary shaft respectively and fixes Plate 8, the second rotating cylinder 42 is arranged between two piece of second rotary shaft fixed plate 8, pacifies in the second rotating cylinder 42 Fill the second rotary shaft 7；One end of second connecting rod 12 is connected with the second rotating cylinder 42, in the second connecting rod 12 The upper and lower surface of the other end connects the 3rd rotary shaft fixed plate 11 respectively, two piece of the 3rd rotary shaft fixed plate Installing the 3rd rotating cylinder 43 between 11, the 3rd rotary shaft 13 is arranged in the 3rd rotating cylinder 43；3rd connecting rod One end of 14 is connected with the 3rd rotating cylinder 43, and the other end of the 3rd connecting rod 14 connects the 4th rotating cylinder 44, outstanding One end of arm 16 is stretched in the 4th rotating cylinder 44, also abuts the 4th rotary shaft on the surface of the 4th rotating cylinder 44 solid Determine plate 26；The other end in cantilever 16 installs a pair installing plate 17；A pair work it is also connected with on falsework 1 Dress plate 23, two pieces of working plates about 23 are arranged in parallel, as it is shown on figure 3, have in one end of installing plate 17 Support column mounting groove 1701, the other end in installing plate 17 stretches out formation boss the most in the horizontal direction 1704, on boss 1704, have reinforcement mounting groove 1703；Installing plate 17 also has for coordinating The through hole 18 of cantilever 16.Centered by the center of circle of through hole 18, on installing plate 17, also symmetry is offered For the nut installing hole 1702 of location and installation plate 17, realize installing plate 17 by nut installing hole 1702 Locking positioning on cantilever 16.

In the first rotating cylinder 41, connect clutch shaft bearing 5 respectively at the two ends of the first rotary shaft 3, by first Bearing 5 achieves the rotary motion in the first rotating cylinder 41 of first rotary shaft 3.In the second rotating cylinder 42, Connect the second bearing 9 respectively at the two ends of the second rotary shaft 7, achieve the second rotation by the second bearing 9 The axle 7 rotary motion in the second rotating cylinder 42.In the 3rd rotating cylinder 43, in the two of the 3rd rotary shaft 13 End connects the 3rd bearing 15 respectively, achieves the 3rd rotary shaft 13 at the 3rd rotating cylinder by the 3rd bearing 15 Rotary motion in 43.In the 4th rotating cylinder 44, stretch into one end of the 4th rotating cylinder 44 in cantilever 16 and also pacify Fill a pair the 4th bearings 25, utilize the 4th bearing 25 to achieve the cantilever 16 rotation in the 4th rotating cylinder 44 Motion, thus realize the vertical welding of reinforcement 20 and support column 19 and guide rail 22.

As it is shown in figure 1, two surfaces the most vertical on falsework 1 are also installed multiple for clamping rail The active grab 21 of 22, each active grab 21 is spaced layout each other.As it is shown in figure 1, in the first rotary shaft 3, cantilever 16 top circle centre position and at the top circle centre position of the second rotary shaft the 7, the 3rd rotary shaft 13 And bottom circle centre position all offers counterbore (not shown), it is solid that each alignment pin 27 extends through the first rotary shaft Determine plate the 10, second rotary shaft fixed plate the 8, the 3rd rotary shaft fixed plate 11 and the 4th rotary shaft fixed plate 26 In and stretch into counterbore inner position, the layout of counterbore and alignment pin 27 makes the installation in each rotating cylinder of each rotary shaft Position is firm, is not likely to produce loosening, it is ensured that the motility that each connecting rod rotates.

Owing to head rod 6 welds with the first rotating cylinder 41, the second connecting rod 12 is welded with the second rotating cylinder 42 Connecing, the 3rd connecting rod 14 is welded with the 3rd rotating cylinder 43, hence in so that each connecting rod all can be with in each rotating cylinder Rotary shaft is that axle center rotates, thus facilitates the welding job of operator.

As it is shown on figure 3, above-mentioned falsework 1 is square, each pair of working plate 23 is arranged in falsework The outside of right angle end face and inner side in 1, it is simple to operator realize inward turning and outward turning guide rail and support column, add The weld job of strong muscle.

The specific works process of the present invention is as follows:

As shown in Figure 1 and Figure 2, first two guide rails 22 are respectively placed in two pieces of frocks up and down of falsework 1 On plate 23, being then mounted on by tooth bar 24 on one piece of working plate 23 of bottom, this tooth bar 24 is positioned at The edge of working plate 23, the mode first with argon arc welding passes through tooth bar fixed mount guide rail 22 and tooth bar 24 are welded and fixed, and are then respectively embedded in support column mounting groove 1701 at the two ends of support column 19, also simultaneously The two ends of reinforcement 20 are respectively embedded in reinforcement mounting groove 1703, are then operated cantilever by operator 16, make cantilever 16 near two guide rails 22 to be welded, then support column 19 is welded on guide rail 22 with The surface of tooth bar 24, then with the axle center of described cantilever 16 as the point of rotation, by cantilever 16 at the 4th rotating cylinder Rotate 180 ° in 44, make reinforcement 20 near each guide rail 22, then reinforcement 22 is welded on guide rail 22 with the surface of tooth bar 24, it is achieved thereby that the vertical welding of reinforcement 20 and support column 19 with each guide rail 22 Connect, it is ensured that each support column 19, the perpendicularity of reinforcement 20.

Above description is explanation of the invention, is not the restriction to invention, and limited range of the present invention is joined Seeing claim, in the case of the basic structure of the present invention, the present invention can make any type of Amendment.

Claims (6)

1. one kind can guarantee that reinforcement, support column and the tool structure of rail welding perpendicularity, it is characterized in that: include falsework (1), in the upper affixed base plate (2) of described falsework (1), many first rotary shafts (3) are set in the surface along orthogonal direction of described base plate (2), described first rotary shaft (3) is arranged in the first rotating cylinder (41), one end of head rod (6) is connected with the first rotating cylinder (41), upper and lower surface in described head rod (6) other end connects the second rotary shaft fixed plate (8) respectively, second rotating cylinder (42) is arranged between two piece of second rotary shaft fixed plate (8), second rotary shaft (7) is installed in described second rotating cylinder (42)；One end of second connecting rod (12) is connected with the second rotating cylinder (42), upper and lower surface in described second connecting rod (12) other end connects the 3rd rotary shaft fixed plate (11) respectively, installing the 3rd rotating cylinder (43) between two piece of the 3rd rotary shaft fixed plate (11), the 3rd rotary shaft (13) is arranged in the 3rd rotating cylinder (43)；One end of 3rd connecting rod (14) is connected with described 3rd rotating cylinder (43), the other end of described 3rd connecting rod (14) connects the 4th rotating cylinder (44), one end of cantilever (16) is vertically stretched in described 4th rotating cylinder (44), also abuts the 4th rotary shaft fixed plate (26) on the surface of the 4th rotating cylinder (44)；The other end in described cantilever (16) installs a pair installing plate (17)；Multipair working plate (23) it is also connected with on described falsework (1)；Multiple active grab for clamping rail (22) (21) is also installed on two surfaces the most vertical on described falsework (1), and each active grab (21) is spaced layout each other.

A kind of tool structure that can guarantee that reinforcement, support column and rail welding perpendicularity, it is characterised in that: in described first rotating cylinder (41), connect clutch shaft bearing (5) respectively at the two ends of described first rotary shaft (3)；In described second rotating cylinder (42), connect the second bearing (9) respectively at the two ends of described second rotary shaft (7)；In described 3rd rotating cylinder (43), connect the 3rd bearing (15) respectively at the two ends of described 3rd rotary shaft (13)；In described 4th rotating cylinder (44), stretch into one end of the 4th rotating cylinder (44) in described cantilever (16) a pair the 4th bearings (25) are also installed.

A kind of tool structure that can guarantee that reinforcement, support column and rail welding perpendicularity, it is characterized in that: have support column mounting groove (1701) in one end of described installing plate (17), the other end in described installing plate (17) stretches out the most in the horizontal direction and forms boss (1704), has reinforcement mounting groove (1703) on described boss (1704)；Described installing plate (17) also has the through hole (18) for coordinating cantilever (16).

A kind of tool structure that can guarantee that reinforcement, support column and rail welding perpendicularity, it is characterized in that: centered by the center of circle of described through hole (18), offer the nut installing hole (1702) for location and installation plate (17) in the upper also symmetry of described installing plate (17).

A kind of tool structure that can guarantee that reinforcement, support column and rail welding perpendicularity, it is characterized in that: in described first rotary shaft (3), the top circle centre position of cantilever (16) and all offer counterbore at the second rotary shaft (7), the top circle centre position of the 3rd rotary shaft (13) and bottom circle centre position, alignment pin (27) extends through in the first rotary shaft fixed plate (10), the second rotary shaft fixed plate (8), the 3rd rotary shaft fixed plate (11) and the 4th rotary shaft fixed plate (26) and stretches into described counterbore inner position.

A kind of tool structure that can guarantee that reinforcement, support column and rail welding perpendicularity, it is characterized in that: described falsework (1) is square, each pair of working plate (23) is arranged in outside and the inner side of right angle end face in described falsework (1).