CN207189163U - Logistics telescopic machine frame assembles positioner - Google Patents

Abstract

A kind of logistics telescopic machine frame assembling positioner that the utility model is related to, it includes base, the left and right sides of base is vertically provided with upward bearing support respectively, supporting plate is arranged at intervals with along its length on left section and right section of the top surface of base, the outside of two pieces of bearing supports is revolved respectively inwards is equipped with multigroup regulating bolt, be symmetrically arranged two blocks of wallboards are positioned in supporting plate, the inner circular top of regulating bolt props up the lateral surface of two blocks of wallboards, the lower tie-beam of medial surface bottom connection of two blocks of wallboards, the inside pendant of top surface of two blocks of wallboards is provided with hook, support beam is connected between hook, the left and right ends of support beam prop up the medial surface of two blocks of wallboards.The logistics telescopic machine frame assembled formation system that the utility model logistics telescopic machine frame assembling positioner is used to assemble has the advantages of process of each production phase is simple to operate, and production efficiency is efficient.

Description

Logistics telescopic machine frame assembles positioner

Technical field

It the utility model is related to a kind of logistics telescopic machine frame assembling positioner.

Background technology

With the development of logistic industry, logistics telescopic machine is widely used in various logistics terminals.Logistics telescopic machine Demand is also increasingly lifted, and the assembled formation systems technology of traditional logistics telescopic machine is undeveloped, in the process of each production phase Complex operation be present, the defects of under low production efficiency.

The content of the invention

The purpose of this utility model is to overcome above-mentioned deficiency, there is provided a kind of logistics telescopic machine frame assembling positioner is used Simple to operate, the efficient logistics telescopic machine frame assembled formation system of production efficiency in the process for assembling each production phase.

What the purpose of this utility model was realized in：

A kind of logistics telescopic machine frame assembles positioner, and it includes base, base includes or so two I-beams and Reinforcement between connection and two I-beams, the left and right sides of base are vertically provided with upward bearing support respectively, base Supporting plate is arranged at intervals with along its length on left section and right section of top surface, and the outside of two pieces of bearing supports is revolved respectively inwards to be equipped with Multigroup regulating bolt, the length direction of bearing support is provided with multigroup regulating bolt, the inner of regulating bolt is provided with circle Top；Be symmetrically arranged two blocks of wallboards are positioned in supporting plate, the inner circular top of regulating bolt props up two pieces The lateral surface of wallboard, the lower tie-beam of medial surface bottom connection of two blocks of wallboards, the inside pendant of top surface of two blocks of wallboards are provided with hook, Support beam is connected between hook, the left and right ends of support beam prop up the medial surface of two blocks of wallboards.

Compared with prior art, the beneficial effects of the utility model are：

The utility model logistics telescopic machine frame assembling positioner is used for the logistics telescopic machine frame assembled formation assembled System has the advantages of process of each production phase is simple to operate, and production efficiency is efficient.

Brief description of the drawings

Fig. 1 is the structural representation that roll bending opens leveling device.

Fig. 2 is the structural representation of plate clipping device.

Fig. 3 is the schematic diagram for the sheet material that plate clipping device is cut.

Fig. 4 is the structural representation of laser cutting blanking device.

Fig. 5 is the structural representation of bending and molding device.

Fig. 6 is the schematic diagram of the wallboard of bending and molding device shaping.

Fig. 7 is the top view of assembling positioner.

Fig. 8 is Fig. 7 A-A sectional views.

Fig. 9 is the work signal that two welding turning devices and welding robot carry out operation to logistics telescopic machine frame Figure.

Figure 10 is the structural representation of the welding turning device in Fig. 9.

Figure 11 is Figure 10 B-B sectional views.

Figure 12 is the logistics telescopic machine rack construction schematic diagram in Fig. 9.

Figure 13 is flange edge rolling apparatus structure schematic diagram of the concave face die when upper convex molds are under.

Figure 14 was flange edge rolling apparatus structure schematic diagram of the concave face die in lower convex molds when upper.

Figure 15 is Figure 13 left view.

Figure 16 is the inner flange structural representation that Figure 13 flange edge rolling device is produced.

Figure 17 is the inner flange structural representation that Figure 14 flange edge rolling device is produced.

Wherein：

Roll bending opens leveling device 1, roll bending unreeling structure 1.1, roll bending and flattens mechanism 1.2

Plate clipping device 2

It is cut by laser blanking device 3

Bending and molding device 4

Assemble positioner 5, base 5.1, bearing support 5.2, supporting plate 5.3, regulating bolt 5.4, hook 5.5, support beam 5.6

Welding turning device 6, frame 6.1, rotary shaft 6.2, rotating disk 6.3, chute 6.4, sliding block 6.5, grip block 6.6

Flange edge rolling device 7, cabinet 7.1, the first mould 7.2, the second mould 7.3, gearbox 7.4, Universal linking lever 7.5, Hydraulic station 7.6, electrical control cubicles 7.7, the spacing circular shaft 7.8 of material depth, oil cylinder 7.9

Logistics telescopic machine frame 8, wallboard 801, lower tie-beam 802, upper tie-beam 803, inner flange 804

Welding robot 9.

Embodiment

Referring to Fig. 1-Figure 17, a kind of logistics telescopic machine frame assembled formation system that the utility model is related to, it is in the past extremely Open leveling device 1, plate clipping device 2, laser cutting blanking device 3, bending and molding device 4, assembling positioning dress including roll bending successively afterwards 5 and welding turning device 6 are put, additionally includes flange edge rolling device 7.

It is positioned opposite that logistics telescopic machine frame 8 made of logistics telescopic machine frame assembled formation system includes the left and right sides Wallboard 801, more lower tie-beams 802 are connected between the bottom of two blocks of wallboards 801, are connected between the top of two blocks of wallboards 801 There are more upper tie-beams 803, the madial wall of the wallboard 801 is provided with inner flange 804；

The roll bending, which opens leveling device 1, includes the front and rear roll bending unreeling structure 1.1 being sequentially arranged and roll bending pressing mechanism 1.2, roll bending, which flattens mechanism 1.2, includes multigroup slicking-in roller of dislocation arrangement up and down；

The plate clipping device 2 is conventional plate shearing machine；

The laser cutting blanking device 3 includes laser cutting blanking frame and positioned at laser cutting blanking frame 3.1 Laser cutting blanking head that is upper and can moving；

The bending and molding device 4 is conventional bender；

The assembling positioner 5 includes base 5.1, and base 5.1 includes two I-beams in left and right and connection and two Reinforcement between I-beam, the left and right sides of base 5.1 are vertically provided with upward bearing support 5.2, the top of base 5.1 respectively Supporting plate 5.3 is arranged at intervals with along its length on left section and right section of face, and the outside of two pieces of bearing supports 5.2 is revolved respectively inwards Multigroup regulating bolt 5.4 is equipped with, the length direction of bearing support 5.2 is provided with multigroup regulating bolt 5.4, every group of regulating bolt 5.4 are provided with three from top to bottom；The inner of regulating bolt 5.4 is provided with circular top；In use, it will be symmetrically arranged Two blocks of wallboards 801 are positioned in supporting plate 5.3, and the inner circular top of regulating bolt 5.4 props up the outside of two blocks of wallboards 801 Face, the lower tie-beam 802 of medial surface bottom connection of two blocks of wallboards 801, the inside pendant of top surface of two blocks of wallboards 801 are provided with hook 5.5, support beam 5.6 is connected between linking up with 5.5, the left and right ends of support beam 5.6 prop up the medial surface of two blocks of wallboards 801.

The welding turning device 6 is provided with two and positioned opposite, and the welding turning device 6 includes frame 6.1, machine The rotary shaft 6.2 of a transverse direction is provided with frame 6.1, the outer end of rotary shaft 6.2 is provided with handle, and the inner of rotary shaft 6.2 is set Be equipped with rotating disk 6.3, the rotary shaft 6.2 can do the regulation of inward-outward direction in frame 6.1, the rotating disk 6.3 it is interior Four chutes 6.4 of cross arrangement are provided with side, are provided with a sliding block 6.5 in each chute 6.4, sliding block 6.5 passes through Cylinder is driven, and a grip block 6.6 is inwardly provided with sliding block 6.5；Four grip blocks are respectively adopted in two welding turning devices 6 6.6 clamp the inwall of logistics telescopic machine frame 8, are then welded by welding robot 9.

The flange edge rolling device 7 includes cabinet 7.1, and a laterally outside of cabinet 7.1 is connected with arrange up and down first The mould 7.3 of mould 7.2 and second, the second mould 7.3 have two respectively positioned at the front lower places of the first mould 7.2 and it is rear under Side, gearbox 7.4 are connected in cabinet 7.1 by Universal linking lever 7.5 and provide and move for the first mould 7.2 and the second mould 7.3 Power；The top of cabinet 7.1 is provided with downward oil cylinder 7.9, and oil cylinder 7.9 connects hydraulic station 7.6, and hydraulic station 7.6 connects electrical control cubicles 7.7；The oblique upper that the side of cabinet 7.1 is located at the second mould 7.3 is provided with the spacing circular shaft 7.8 of diagonally disposed material depth；

The concave face die and convex molds that first mould 7.2 and the second mould 7.3 are mutually matched using shape, concave surface mould The inner of tool is provided with a stopper slot；When concave face die in upper convex molds under when, the inner flange product that produces is as schemed Shown in 16, when concave face die in lower convex molds when upper, the inner flange product produced is as shown in figure 17.

A kind of operating procedure of logistics telescopic machine frame assembled formation system：

The first step, uncoiling

Because telescopic machine to be ensured still can keep certain rigidity to be unlikely to flexural deformation after elongation, used in telescopic arm Steel plate materialses it is harder, roll bending stress is larger, open it is flat after larger stress still be present in the inside of plate, to following process product meeting Cause to deform, thus open it is flat during to take measures farthest to discharge roll bending stress to the greatest extent；

Second step, shear

Fixed length is opened into flat flat board plate shearing machine one to open as two, or more parts are split into according to size, again in release board Stress, the flat board for slightly having lateral bending of monolithic release excess pressure can be obtained；

3rd step, laser cutting blanking

Using laser cutting machine in the telescopic machine wall completely on the plate slightly bent of release overstress needed for accurate cutting Plate, to ensure flatness and linearity of the wallboard before next procedure is entered, improve the required precision of product；

4th step, bending and molding

Sheet material good under laser is subjected to bending and forming using high-precision bender and forms c-type structure, ensures scantling Meet the requirement of drawing size, due to opening the stress processing of flat and shear before, the component after bending is in flatness and straight line Very high precision is all reached on degree, has been laid a good foundation for the assembled requirement that reaches in later stage；

5th step, assembled wallboard and internals

In use, be symmetrically arranged two blocks of wallboards 801 are positioned in supporting plate 5.3, the inner of regulating bolt 5.4 Circular top prop up the lateral surfaces of two blocks of wallboards 801, the lower tie-beam 802 of medial surface bottom connection of two blocks of wallboards 801, two pieces The inside pendant of top surface of wallboard 801 is provided with hook 5.5, and support beam 5.6, the left and right two of support beam 5.6 are connected between hook 5.5 End props up the medial surface of two blocks of wallboards 801, and lower tie-beam 802 and upper tie-beam 803 then are welded in into two blocks of wallboards 801 On；

6th step, between the logistics telescopic machine frame of assembled wallboard and internals is hung in into two welding turning devices, Body is easily rotated, automatic welding is carried out using the welding robot 9 of programmed.

Step is supplemented, the inner flange produced using the flange edge rolling device 7 is welded in wallboard 801 before step 5 Then medial surface carries out step 5 again.

It the above is only concrete application example of the present utility model, do not form any limit to the scope of protection of the utility model System.All technical schemes formed using equivalent transformation or equivalent replacement, all fall within the utility model rights protection scope it It is interior.

Claims (1)

1. a kind of logistics telescopic machine frame assembles positioner, it is characterised in that it includes base（5.1）, base（5.1）Including Reinforcement between the I-beam of left and right two and connection and two I-beams, base（5.1）The left and right sides vertically set respectively It is equipped with upward bearing support（5.2）, base（5.1）Left section of top surface and right section on be arranged at intervals with support along its length Plate（5.3）, two pieces of bearing supports（5.2）Outside revolve be equipped with multigroup regulating bolt respectively inwards（5.4）, along bearing support（5.2） Length direction be provided with multigroup regulating bolt（5.4）, regulating bolt（5.4）The inner be provided with circular top；Left and right is right Claim two blocks of wallboards of arrangement（801）It is positioned over supporting plate（5.3）On, regulating bolt（5.4）Inner circular top prop up two Block wallboard（801）Lateral surface, two blocks of wallboards（801）The lower tie-beam of medial surface bottom connection（802）, two blocks of wallboards（801） The inside pendant of top surface be provided with hook（5.5）, hook（5.5）Between be connected with support beam（5.6）, support beam（5.6）Left and right Both ends prop up two blocks of wallboards（801）Medial surface.