CN210655816U - Adjustable H160~280 frame hoist structure - Google Patents

Abstract

The utility model discloses a can debug formula H160~280 frame hoist structure, its structure is two connecting plate tip fixed connection, another tip rotates connects two first fly leafs and a second fly leaf tip, two first fly leafs are located between the connecting plate, the second fly leaf is located between the first fly leaf, another tip of second fly leaf rotates connects two first backup pad tips of connection, the second fly leaf is located between the first backup pad, another tip of two first fly leaves rotates and connects a second backup pad tip, the second backup pad is located between the first fly leaf, first backup pad middle part is rotated with second backup pad middle part and is connected, the second backup pad is located between the first backup pad, it is first, another tip of second backup pad is a welded connection lug respectively. The utility model has the advantages that: the manufacturing cost is low, the use is convenient, the labor intensity and the potential safety quality hazard are effectively reduced, the turnover, the carrying and the installation of the shell parts in the workshop are optimized, and the efficiency is improved.

Description

Adjustable H160~280 frame hoist structure

Technical Field

The utility model relates to a can debug formula H160~280 frame hoist structure, concretely relates to hoist structure that seat parts machining installation, turnover, transport were used in H160~280 frame course of working.

Background

The post apparatus and the frock clamp in the present motor industry still are in more primitive stage in whole trade, and the frame part accounts for very big proportion in the part of motor, and the processing of every motor frame is from the blank to the finished product, and the centre all needs multichannel process to accomplish, involves the step such as installation handling, turnover of frame, and a good hoist can promote the machining efficiency of product greatly, shortens part machining cycle, reduces operative employee's intensity of labour.

In the prior art, the machine base part processing, hoisting and mounting tools of most enterprises are still in a relatively laggard and original stage, and part of the lifting tools can only hoist one model and cannot cover all models, so that the machine base processing efficiency is low. With the intense competition of market economy, the lower processing efficiency and the high production cost of the base parts in the prior art cannot meet the production requirements.

SUMMERY OF THE UTILITY MODEL

The utility model provides a can debug formula H160~280 frame hoist structure, its purpose aims at overcoming the above-mentioned not enough that prior art exists, realizes promoting the machining efficiency of frame part, effective reduction in production cost and operative employee intensity of labour big, reduce the potential safety quality hazard.

The technical solution of the utility model is as follows: a debugging type H160-280 machine base lifting appliance structure comprises connecting plates, first movable plates, first supporting plates, second movable plates, second supporting plates and lifting lugs, wherein one end parts of the two connecting plates are fixedly connected, the other end parts of the two connecting plates are rotatably connected with one end parts of the two first movable plates and one end part of the second movable plate, the two first movable plates are positioned between the two connecting plates, the second movable plates are positioned between the two first movable plates, the other end parts of the second movable plates are rotatably connected with one end parts of the two first supporting plates, the second movable plates are positioned between the two first supporting plates, the other end parts of the two first movable plates are rotatably connected with one end part of the second supporting plate, the second supporting plates are positioned between the two first movable plates, the middle parts of the two first supporting plates are rotatably connected with the middle parts of the second supporting, the other end parts of the first supporting plate and the second supporting plate are respectively welded and connected with a lifting lug.

Preferably, the two connecting plates are connected through an M24 bolt assembly, and the two connecting plates are respectively connected with the two first movable plates and the second movable plate, the second movable plate and the two first supporting plates, the two first movable plates and the second supporting plates, and the two first supporting plates and the second supporting plates through an M20 bolt assembly.

Preferably, the M24 bolt assembly and the M20 bolt assembly are respectively provided with a locking pin.

Preferably, the thickness of the first movable plate is 1/2 of the thickness of the second movable plate, and the thickness of the first supporting plate is 1/2 of the thickness of the second supporting plate.

Preferably, the thickness of the second movable plate and the second support plate is 24 mm.

Preferably, the size of the lifting lug does not interfere with the workpiece.

The utility model has the advantages that: the manufacturing cost is low, the use is convenient, the labor intensity of operators is effectively reduced, the potential safety quality hazard is reduced, the turnover, the carrying and the installation of the shell parts in a workshop are optimized, and the processing efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of the adjustable H160-280 frame hanger structure of the present invention.

Fig. 2 is a view from a-a of fig. 1.

In the figure, 1 is an M24 bolt assembly, 2 is an M20 bolt assembly, 3 is a connecting plate, 4 is a first movable plate, 5 is a first supporting plate, 6 is a second movable plate, 7 is a second supporting plate, 8 is a lifting lug, and 9 is a locking pin.

Detailed Description

The present invention will be described in further detail with reference to examples and embodiments.

As shown in figures 1 and 2, a tunable H160-280 machine base lifting appliance structure comprises connecting plates 3, first movable plates 4, first supporting plates 5, second movable plates 6, second supporting plates 7 and lifting lugs 8, wherein one end parts of the two connecting plates 3 are fixedly connected, the other end parts of the two connecting plates 3 are rotatably connected with one end parts of the two first movable plates 4 and one end part of the two second movable plates 6, the two first movable plates 4 are positioned between the two connecting plates 3, the second movable plate 6 is positioned between the two first movable plates 4, the other end parts of the second movable plates 6 are rotatably connected with one end parts of the two first supporting plates 5, the second movable plate 6 is positioned between the two first supporting plates 5, the other end parts of the two first movable plates 4 are rotatably connected with one end part of one second supporting plate 7, the second supporting plate 7 is positioned between the two first movable plates 4, and the middle parts of the two first supporting plates 5 are, the second supporting plate 7 is positioned between the two first supporting plates 5, and the other ends of the first supporting plate 5 and the second supporting plate 7 are respectively welded with a lifting lug 8.

The two connecting plates 3 are connected through an M24 bolt assembly 1, and the two connecting plates 3 are respectively connected with the two first movable plates 4 and the two second movable plates 6, the second movable plate 6 and the two first supporting plates 5, the two first movable plates 4 and the second supporting plates 7, and the two first supporting plates 5 and the second supporting plates 7 through M20 bolt assemblies 2.

The M24 bolt assembly 1 and the M20 bolt assembly 2 are respectively provided with a locking pin 9.

The thickness of the first movable plate 4 is 1/2 of the thickness of the second movable plate 6, and the thickness of the first support plate 5 is 1/2 of the thickness of the second support plate 7.

The thickness of the second movable plate 6 and the second supporting plate 7 is 24 mm.

The size of the lifting lug 8 does not interfere with the workpiece.

According to the structure, when the connecting plate is assembled, the two connecting plates 3 are connected by using the M24 bolt assembly 1, and the anti-loosening pin 9 is inserted; connecting the first movable plate 4 and the second movable plate 6 by using the M20 bolt assembly 2, wherein the first movable plate 4 is two, the thickness of the first movable plate 4 is half of that of the second movable plate 6, and the second movable plate 6 is clamped between the two first movable plates 4; then, the first support plates 5 are connected with the second movable plate 6, the second movable plate 6 is clamped between the two first support plates 5, and the thickness of each first support plate 5 is half of that of each second support plate 7; the second supporting plate 7 is connected with the first movable plates 4, and the second supporting plate 7 is clamped between the first movable plates 4; the lifting lugs 8 which are in contact with parts are respectively connected with the first supporting plate 5 and the second supporting plate 7 in a welding mode, the first supporting plate 5 and the second supporting plate 7 are connected through M20 bolt assemblies, and all bolt fasteners are provided with the anti-loosening pins 9 to complete the assembly of the tool.

During operation, the frock is lifted by the driving crane, according to the size of part, make the distance grow of its two lugs 8 through hand power first backup pad 5 or second backup pad 7, make lug 8 and frame lug contact, the lug is located lug 8, it rises to start the driving crane, the first fly leaf 4 of hoist, second fly leaf 6 owing to receive the influence shrink of frame self total amount, and then make first backup pad 5 or second backup pad 7 also shrink, thereby hoist the frame, when unloading the part, as long as make lug 8 and lug break away from, stir first backup pad 5 or second backup pad 7 again, the frock just loosens automatically, accomplish the installation dismantlement process that lifts by crane of casing.

All the above components are prior art, and those skilled in the art can use any model and existing design that can implement their corresponding functions.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and improvements can be made without departing from the inventive concept, and all of them belong to the protection scope of the present invention.

Claims (5)

1. A debugging type H160-280 machine base lifting appliance structure is characterized by comprising connecting plates (3), first movable plates (4), first supporting plates (5), second movable plates (6), second supporting plates (7) and lifting lugs (8), wherein one end parts of the two connecting plates (3) are fixedly connected, the other end parts of the two connecting plates (3) are rotatably connected with one end parts of the two first movable plates (4) and one end part of the second movable plate (6), the two first movable plates (4) are positioned between the two connecting plates (3), the second movable plate (6) is positioned between the two first movable plates (4), the other end part of the second movable plate (6) is rotatably connected with one end parts of the two first supporting plates (5), the second movable plate (6) is positioned between the two first supporting plates (5), the other end parts of the two first movable plates (4) are rotatably connected with one end part of the second supporting plate (7), the second supporting plate (7) is positioned between the two first movable plates (4), the middle parts of the two first supporting plates (5) are rotatably connected with the middle part of the second supporting plate (7), the second supporting plate (7) is positioned between the two first supporting plates (5), and the other end parts of the first supporting plate (5) and the second supporting plate (7) are respectively welded with a lifting lug (8).

2. The adjustable H160-280 machine base hanger structure of claim 1, wherein the two connecting plates (3) are connected by M24 bolt assemblies (1), and the two connecting plates (3) and the two first movable plates (4) and the two second movable plates (6), the second movable plate (6) and the two first supporting plates (5), the two first movable plates (4) and the second supporting plates (7), and the two first supporting plates (5) and the second supporting plates (7) are respectively connected by M20 bolt assemblies (2).

3. The adjustable H160-280 stand spreader structure as claimed in claim 2, wherein the M24 bolt assembly (1) and the M20 bolt assembly (2) are respectively provided with a locking pin (9).

4. The adjustable H160-280 frame hanger structure as claimed in claim 1, wherein the thickness of the first movable plate (4) is 1/2 times of the thickness of the second movable plate (6), and the thickness of the first supporting plate (5) is 1/2 times of the thickness of the second supporting plate (7).

5. The adjustable H160-280 stand spreader structure as claimed in claim 4, wherein the thickness of the second movable plate (6) and the second supporting plate (7) are both 24 mm.

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