CN210281410U - A upset processing agency for generating fan part - Google Patents

Abstract

The utility model discloses a upset processing agency for electricity generation fan part, including organism, spliced pole and slider, the mounting groove has been seted up at the upper end middle part of organism, and the middle part of mounting groove is provided with first gear motor, the spliced pole is settled at first gear motor's top, and the top of spliced pole is connected with place the platform, the slider sets up in place the platform's outer wall, and the outer wall distribution of slider has a slide rail, place the platform's upper end both sides distribute there is the hydraulic stem, and the top of hydraulic stem is fixed with the backup pad. This a upset processing agency for generating fan part sets up the organism, organism and regulation between the montant for the welding integral structure, organism and regulation junction between the montant adopt the welded form fixed together, and its joint strength is high, and the difficult condition of collapsing that takes place, whole equipment is the perpendicular form of level and distributes simultaneously, can effectively ensure in the course of working, is the perpendicular form of level and puts, guarantees normal processing.

Description

A upset processing agency for generating fan part

Technical Field

The utility model relates to a power generation fan part production technical field specifically is a upset processing agency for power generation fan part.

Background

The fan blade has high requirements on materials, and not only needs to have light weight, but also needs to have high strength, corrosion resistance and fatigue resistance, so that the fan blade is widely manufactured by the existing fan manufacturers by adopting composite materials, and the composite materials account for the specific gravity of the whole fan blade and even reach 90%. The blade manufacturing materials are developed from the original linen cloth covered wood board to steel and aluminum alloy until the current composite materials. When manufacturing fan blades, the blade shells often adopt glass fiber reinforced resin, the blade tips and the blade main beams adopt carbon fibers with higher strength, the front edges, the rear edges and the shearing positions often adopt sandwich structure composite materials, the power generation fan parts need to be processed in all directions by a milling machine during production, and the overturning processing mechanism plays a vital role in processing.

The turnover processing mechanism in the market is too high in downward pressure when a sending milling head is used for milling a die, so that the connection part is bent and broken, the processing precision is reduced, meanwhile, the turnover processing mechanism is prone to being inclined to one side in parallel in use, the processing amplitude is too large, and defective goods are produced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a upset processing agency for generating electricity fan part to solve the upset processing agency in use on the market that proposes in the above-mentioned background art and too big with sending the mill head to the mould when milling decurrent pressure, lead to junction department to take place bending fracture, reduce the machining precision, in use simultaneously easily takes place to incline to one side, lead to the range of processing too big, the problem of the condition of wastrel appears.

In order to achieve the above object, the utility model provides a following technical scheme: a turnover processing mechanism for a power generation fan component comprises a machine body, a connecting column and a sliding block, wherein a mounting groove is formed in the middle of the upper end of the machine body, a first speed reduction motor is arranged in the middle of the mounting groove, the connecting column is arranged at the top of the first speed reduction motor, a placing platform is connected to the top end of the connecting column, the sliding block is arranged on the outer wall of the placing platform, sliding rails are distributed on the outer wall of the sliding block, hydraulic rods are distributed on two sides of the upper end of the placing platform, a supporting plate is fixed to the top end of each hydraulic rod, a soft cushion layer is distributed on the top end of each supporting plate, a support is arranged on two sides of the upper end of the placing platform, a second speed reduction motor is distributed on the top of one side of each support in a penetrating mode, a clamping arm is arranged at the tail end of each second, and one side of the top end of the adjusting vertical rod is distributed with an adjusting cross rod, and the middle part of the adjusting cross rod is distributed with a milling head in a sliding way.

Preferably, the machine body and the adjusting vertical rod are distributed in a horizontal and vertical manner, and the machine body and the adjusting vertical rod are in a welding integrated structure.

Preferably, the placing platform axially rotates along the inner wall of the sliding rail through the first speed reduction motor and the sliding block, and the first speed reduction motor is distributed along the circular position of the placing platform.

Preferably, the support plate and the cushion layer are mutually attached, and the support plate and the mould are distributed in a parallel manner.

Preferably, the second speed reduction motor forms a transmission structure with the mold through the clamping arm, and the clamping arm and the non-slip mat are attached to each other.

Preferably, the tail ends of the clamping arms are in an I-shaped structure, and the clamping arms are distributed along two sides of the central axis of the mold.

Compared with the prior art, the beneficial effects of the utility model are that: the overturning machining mechanism for the power generation fan component is provided with the machine body, the machine body and the adjusting vertical rod are of a welding integrated structure, the connecting part between the machine body and the adjusting vertical rod is fixed together in a welding mode, the connecting strength is high, collapse is not easy to occur, meanwhile, the whole equipment is distributed in a horizontal and vertical shape, the horizontal and vertical shape in the machining process can be effectively guaranteed, and normal machining is guaranteed;

the first speed reducing motors are distributed along the circular position of the placing platform, when a user needs to rotate the placing platform, the user can drive the placing platform to rotate by starting the first speed reducing motors, the sliding blocks rotate along the inner wall of the sliding rail, and the sliding blocks are used as limiting sliding structures, so that the sliding blocks can effectively guarantee uniform-speed smooth sliding in the sliding process, and the stability of the structure in the machining process is guaranteed;

be the parallel form between backup pad and the mould and distribute, add man-hour when the cutter head adds the mould, exert pressure to the mould, the user can be through opening the hydraulic stem, the hydraulic stem upwards ejecting, backup pad and mould are laminated each other, because the top laminating of backup pad has the cushion layer, the cushion layer laminates each other with the mould, can effectively reduce the backup pad and the condition that hard damage appears in the mould, through the backup pad supporting power of upwards applying, can effectively reduce the tight arm of clamp and appear bending fracture's the condition.

Drawings

FIG. 1 is a schematic front view of the present invention;

fig. 2 is a schematic view of the top view structure of the placing platform of the present invention;

fig. 3 is a schematic view of a part of an enlarged structure at a in fig. 1 according to the present invention.

In the figure: 1. a body; 2. mounting grooves; 3. a first reduction motor; 4. connecting columns; 5. placing a platform; 6. a slider; 7. a slide rail; 8. a hydraulic lever; 9. a support plate; 10. a soft cushion layer; 11. a support; 12. a second reduction motor; 13. a clamp arm; 14. a non-slip mat; 15. adjusting the vertical rod; 16. adjusting the cross bar; 17. a milling head; 18. and (5) molding.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a turnover processing mechanism for a power generation fan component comprises a machine body 1, a mounting groove 2, a first speed reduction motor 3, a connecting column 4, a placing platform 5, a slide block 6, a slide rail 7, a hydraulic rod 8, a supporting plate 9, a cushion layer 10, a support 11, a second speed reduction motor 12, a clamping arm 13, an anti-slip pad 14, an adjusting vertical rod 15, an adjusting horizontal rod 16, a milling head 17 and a mold 18, wherein the mounting groove 2 is formed in the middle of the upper end of the machine body 1, the first speed reduction motor 3 is arranged in the middle of the mounting groove 2, the machine body 1 and the adjusting vertical rod 15 are horizontally and vertically distributed, a welding integrated structure is formed between the machine body 1 and the adjusting vertical rod 15, the connecting part between the machine body 1 and the adjusting vertical rod 15 is fixed together in a welding mode, the connecting strength is high, collapse situation is not easy to occur, meanwhile, the whole equipment is horizontally and, the glass is horizontally and vertically arranged, so that normal processing is guaranteed;

the connecting column 4 is arranged at the top of the first speed reducing motor 3, the top end of the connecting column 4 is connected with the placing platform 5, the placing platform 5 rotates along the axial direction of the inner wall of the sliding rail 7 through the first speed reducing motor 3 and the sliding block 6, the first speed reducing motor 3 is distributed along the circular part of the placing platform 5, when a user needs to rotate the placing platform 5, the user can start the first speed reducing motor 3, the first speed reducing motor 3 drives the placing platform 5 to rotate, the sliding block 6 rotates along the inner wall of the sliding rail 7, the sliding block 6 is used as a limiting sliding structure, the sliding in a uniform-speed smooth state in the sliding process can be effectively guaranteed, and the stability of the structure in the machining process is guaranteed;

the slide block 6 is arranged on the outer wall of the placing platform 5, the slide rail 7 is distributed on the outer wall of the slide block 6, the hydraulic rods 8 are distributed on the two sides of the upper end of the placing platform 5, and the top end of the hydraulic rod 8 is fixed with a supporting plate 9, the top end of the supporting plate 9 is distributed with a soft cushion layer 10, the supporting plate 9 and the soft cushion layer 10 are mutually jointed, and the support plate 9 and the die 18 are distributed in parallel, when the milling head 17 processes the die 18, the pressure is applied to the mould 18, a user can open the hydraulic rod 8, the hydraulic rod 8 is ejected upwards, the supporting plate 9 is attached to the mould 18, because the cushion layer 10 is attached to the top of the supporting plate 9, the cushion layer 10 and the mould 18 are attached to each other, the situation that the supporting plate 9 and the mould 18 are hard to damage can be effectively reduced, the supporting force exerted upwards by the supporting plate 9 can effectively reduce the bending and breaking of the clamping arm 13;

the two sides of the upper end of the placing platform 5 are provided with the brackets 11, the top of one side of each bracket 11 is provided with the second speed reducing motor 12 in a penetrating and distributing manner, the tail end of each second speed reducing motor 12 is provided with the clamping arm 13, the inner wall of each clamping arm 13 is attached with the corresponding anti-slip mat 14, the second speed reducing motors 12 and the dies 18 form a transmission structure through the clamping arms 13, the clamping arms 13 and the anti-slip mats 14 are attached to each other, the tail ends of the clamping arms 13 are in an I-shaped structure, the clamping arms 13 are distributed along the two sides of the central axis of the dies 18, when a user needs to rotate the dies 18, the user can drive the dies 18 in the clamping arms 13 to axially rotate by opening the second speed reducing motors 12, the second speed reducing motors 12 drive the dies 18 in the clamping arms 13, the clamping arms 13 at the other ends axially rotate synchronously, the work, meanwhile, the anti-skid mat 14 has good fixing and anti-skid functions, and can effectively prevent the mold 18 from shaking in the placing process;

a mould 18 is arranged on the inner side of the non-slip mat 14, an adjusting vertical rod 15 is distributed on one side of the upper end of the machine body 1, an adjusting cross rod 16 is distributed on one side of the top end of the adjusting vertical rod 15, and a milling head 17 is distributed in the middle of the adjusting cross rod 16 in a sliding mode.

The working principle is as follows: for the turnover processing mechanism for the power generation fan component, firstly, a mold 18 is placed in a clamping arm 13 to be mutually attached to an anti-slip pad 14, and a bolt is inserted to fix the clamping arm 13 and the mold 18;

at the moment, a user can adjust the adjusting vertical rods 15 and the adjusting transverse rods 16, after the adjustment is finished, the user can open the hydraulic rods 8, the hydraulic rods 8 are ejected upwards, the supporting plate 9 and the die 18 are mutually attached, and the soft cushion layer 10 is attached to the top of the supporting plate 9 and the soft cushion layer 10 is mutually attached to the die 18, so that the situation that the supporting plate 9 and the die 18 are hard to damage can be effectively reduced;

then, a user can start the second speed reducing motor 12, the second speed reducing motor 12 drives the mold 18 in the clamping arm 13 to axially rotate, the clamping arm 13 at the other end axially synchronously rotates, the workpiece can be effectively processed in all directions in the processing process, the integrity of the processing technology is ensured, meanwhile, the user can start the first speed reducing motor 3, the first speed reducing motor 3 drives the placing platform 5 to rotate, and the sliding block 6 rotates along the inner wall of the sliding rail 7;

finally, after the mold 18 is machined, the user takes the mold 18 out, and the whole using process of the turnover machining mechanism for the power generation fan component is completed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a upset processing agency for electricity generation fan part, includes organism (1), spliced pole (4) and slider (6), its characterized in that: the machine body (1) is provided with an installation groove (2) in the middle of the upper end, a first speed reducing motor (3) is arranged in the middle of the installation groove (2), a connecting column (4) is arranged at the top of the first speed reducing motor (3), a placing platform (5) is connected to the top end of the connecting column (4), a sliding block (6) is arranged on the outer wall of the placing platform (5), sliding rails (7) are distributed on the outer wall of the sliding block (6), hydraulic rods (8) are distributed on two sides of the upper end of the placing platform (5), a supporting plate (9) is fixed on the top end of each hydraulic rod (8), a cushion layer (10) is distributed on the top end of each supporting plate (9), brackets (11) are arranged on two sides of the upper end of the placing platform (5), a second speed reducing motor (12) penetrates through the top of one side of each bracket (11), and a clamping arm, and the inner wall of the clamping arm (13) is attached with an anti-slip pad (14), the inner side of the anti-slip pad (14) is provided with a mold (18), one side of the upper end of the machine body (1) is provided with an adjusting vertical rod (15), one side of the top end of the adjusting vertical rod (15) is provided with an adjusting cross rod (16), and the middle part of the adjusting cross rod (16) is provided with a milling head (17) in a sliding manner.

2. The reverse machining mechanism for a power generating fan assembly of claim 1, further comprising: the machine body (1) and the adjusting vertical rod (15) are distributed in a horizontal and vertical manner, and the machine body (1) and the adjusting vertical rod (15) are of a welding integrated structure.

3. The reverse machining mechanism for a power generating fan assembly of claim 1, further comprising: the placing platform (5) rotates along the axial direction of the inner wall of the sliding rail (7) through the first speed reducing motor (3) and the sliding block (6), and the first speed reducing motor (3) is distributed along the circular position of the placing platform (5).

4. The reverse machining mechanism for a power generating fan assembly of claim 1, further comprising: the supporting plate (9) and the soft cushion layer (10) are mutually attached, and the supporting plate (9) and the mould (18) are distributed in a parallel manner.

5. The reverse machining mechanism for a power generating fan assembly of claim 1, further comprising: the second speed reducing motor (12) and the die (18) form a transmission structure through the clamping arm (13), and the clamping arm (13) and the anti-skid pad (14) are mutually attached.

6. The reverse machining mechanism for a power generating fan assembly of claim 1, further comprising: the tail end of the clamping arm (13) is of an I-shaped structure, and the clamping arm (13) is distributed along two sides of the central axis of the mold (18).

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