CN218948220U - Deburring and blowing structure for transformer framework - Google Patents

Abstract

The utility model relates to a deburring and blowing structure of a transformer framework, which comprises a frame; a burr rolling device is arranged in the frame, and a first cylinder is arranged on the burr rolling device; a blanking groove is arranged right below the burr rolling device; the bottom of the blanking groove is communicated with a product slideway and a burr slideway, and a guide assembly is arranged at the intersection of the product slideway and the burr slideway; the square frame is horizontally provided with first air ejector pipes, and the two first air ejector pipes are fixed through a quick fixing assembly; the first air jet pipe is provided with a plurality of nozzles; according to the utility model, the first air ejector tube is arranged, so that splashed burrs can be effectively blown off, adhesion is prevented, cleaning pressure is lightened, and the first air ejector tube can be quickly replaced through the quick fixing assembly, so that the efficiency is improved.

Description

Deburring and blowing structure for transformer framework

Technical Field

The utility model relates to the field of deburring and tightening of transformer frameworks, in particular to a deburring and blowing structure of a transformer framework.

Background

At present, after injection molding of the transformer framework is finished, injection molding waste is manually stripped and then conveyed to a burr rolling device for burr rolling treatment, and the mode is low in working efficiency and high in labor intensity; although automatic stripping and burr rolling equipment also appears in the market, the separating structure of the automatic stripping machine for the transformer framework disclosed in the prior art solves the problems, but stripped burrs are thrown back to the racks on two sides of the burr rolling device under the action of rotation, so that the cleaning is troublesome.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide a deburring and blowing structure for a transformer framework.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a deburring and blowing structure of a transformer framework comprises a frame; one of the areas in the frame is rotatably provided with a burr rolling device for removing burrs of the product; a blanking groove is arranged right below the burr rolling device; the two ends of the two first air ejector pipes are fixed through quick fixing components; the first air ejector tube is provided with a plurality of nozzles on one surface opposite to the blanking groove, and the nozzles are arranged in a pair-by-pair crossing mode.

Preferably, the plurality of groups of quick-fixing components comprise buckling pieces; one end of the buckle piece is fixed on the frame, and the other end is a movable end; the shape of the bayonet position of the clamping piece is consistent with that of the first air injection pipe; the fixed end of the buckle piece is elastic, and the movable end is provided with a jack; the rack is correspondingly provided with a positioning rod for inserting the jack; a long bar block is arranged at one side of the movable end of the buckle piece, and a latch groove is arranged in the long bar block; a bolt is arranged in the bolt groove, and a spring which always outwards ejects the bolt is arranged between the bolt and the bolt groove; the bolt just presses the movable end of the buckle piece.

Preferably, two sides of the bottom of the blanking groove are communicated with a product slideway and a burr slideway, and a guide assembly for shielding any slideway is arranged at the intersection of the product slideway and the burr slideway; the guide assembly comprises a guide plate and a rotary cylinder; the guide plate is arranged at the intersection of a product slideway at the bottom of the blanking groove and a burr slideway; the rotary cylinder is arranged on one side of the bottom of the blanking groove and is used for driving the guide plate to rotate.

Preferably, rubber pads are arranged at the joint of the elastic clamping pieces of the quick fixing assemblies and the air ejector.

Preferably, two second air ejector pipes are arranged on the top surface of the frame right above the burr rolling device, and the nozzles of the two air ejector pipes are opposite to the upper position of the first air ejector pipe.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

according to the utility model, the first air ejector pipes are arranged at two sides of the burr rolling device, so that splashed burrs can be effectively blown off, adhesion is prevented, cleaning pressure is relieved, and the first air ejector pipes can be quickly replaced through the quick fixing assembly, so that the efficiency is improved.

Drawings

The technical scheme of the utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic diagram of a partial cross-sectional side view of a deburring and blowing structure for a transformer framework according to the present utility model;

fig. 2 is a schematic diagram of a partial enlarged structure at a position a of a deburring blowing structure diagram 1 of a transformer framework according to the utility model;

FIG. 3 is a schematic diagram of a partial cross-sectional structure of an end face of the deburring and blowing structure of the transformer framework;

FIG. 4 is a schematic structural view of a first air jet pipe and a quick fixing component of the deburring and blowing structure of the transformer framework;

fig. 5 is a schematic diagram of a partial enlarged partial cross-sectional structure of a part B of the deburring and blowing structure diagram of the transformer skeleton according to the present utility model.

Wherein: 1. a frame; 2. a burr rolling device; 3. discharging groove; 4. a product slide; 5. a burr slideway; 6. a guide assembly; 7. a first gas lance; 8. a quick-fix assembly; 9. a nozzle; 10. a clip piece; 11. a jack; 12. a positioning rod; 13. a sliver block; 14. a latch slot; 15. a plug pin; 16. a spring; 17. a guide plate; 18. a rotary cylinder; 19. a rubber pad; 20. and a second gas lance.

Detailed Description

The utility model will be described in further detail with reference to the accompanying drawings and specific examples.

Fig. 1-5 are diagrams showing a deburring and blowing structure of a transformer framework, which comprises a frame 1; one area in the frame 1 is rotatably provided with a burr rolling device 2 for removing burrs of a product; a blanking groove 3 is arranged right below the burr rolling device 2; the machine frame 1 below the two sides of the burr rolling device 2 is horizontally provided with first air ejector pipes 7 for blowing burrs attached to the inner wall of the machine frame 1, and two ends of the two first air ejector pipes 7 are fixed through quick fixing components 8; the first air ejector pipe 7 is provided with a plurality of nozzles 9 on the surface opposite to the blanking groove 3, and the nozzles 9 are arranged in a pair-by-pair crossing manner; the quick-fixing assemblies 8 comprise a plurality of groups of snap-fit tabs 10; one end of the buckle piece 10 is fixed on the frame 1, and the other end is a movable end; the shape of the bayonet position of the clamping piece 10 is consistent with that of the first air injection pipe 7; the fixed end of the buckle piece 10 is elastic, and the movable end is provided with a jack 11; the frame 1 is correspondingly provided with a positioning rod 12 for inserting the jack 11; a long bar 13 is arranged at one side of the movable end of the buckle piece 10, and a bolt 15 groove 14 is arranged in the long bar 13; a bolt 15 is arranged in the bolt 15 groove 14, and a spring 16 which always outwards springs the bolt 15 is arranged between the bolt 15 and the bolt 15 groove 14; the latch 15 just presses the movable end of the catch piece 10.

Further, two sides of the bottom of the blanking groove 3 are communicated with a product slideway 4 and a burr slideway 5, and a guide component 6 for shielding any slideway is arranged at the intersection of the product slideway 4 and the burr slideway 5; the guide assembly 6 comprises a guide plate 17 and a rotary cylinder 18; the guide plate 17 is arranged at the intersection of the product slideway 4 and the burr slideway 5 at the bottom of the blanking groove 3; the rotary cylinder 18 is arranged at one side of the bottom of the blanking groove 3 and is used for driving the guide plate 17 to rotate so that burrs and products are separately collected.

Further, the elastic cards of the quick fixing assemblies 8 are provided with rubber pads 19 at the joint positions of the air ejector, so that the air ejector is fastened more tightly and damage to the air ejector is avoided.

Further, two second air ejector pipes 20 are arranged on the top surface of the frame 1 right above the burr rolling device 2, and the nozzles 9 of the two air ejector pipes are opposite to the upper position of the first air ejector pipe 7, so that the blowing area is more comprehensive.

When in use, the utility model is characterized in that: when the product burrs need to be removed, firstly, the product falls into the channel sliding tray through transmission, then a first air cylinder on the burr rolling device 2 is started to drive a flip to open, then a second air cylinder is started to drive the burr rolling device 2 to incline towards the direction of the burr rolling device, so that the product is scratched into the channel burr rolling device 2, then a driving motor is started to drive the burr rolling device 2 to rotate to remove burrs of the product, the removed burrs are thrown out through holes on the burr rolling device 2, then the first air cylinder and the second air cylinder are started to blow up the inner wall of the frame 1, so that the attached burrs fall into the channel blanking groove 3, in the later period, at the moment, the guide plate 17 blocks a feeding hole of the product slideway 4, burrs fall into the burr collecting box 21 along the burr slideway 5, after the burrs are completely clear, the burr rolling device 2 rotationally pours the product into the burr blanking groove 3, at the moment, the guide plate 17 blocks the feeding hole of the burr rolling device 5, and the product falls into the channel product slideway 4.

The foregoing is merely a specific application example of the present utility model, and the protection scope of the present utility model is not limited in any way. All technical schemes formed by equivalent transformation or equivalent substitution fall within the protection scope of the utility model.

Claims (5)

1. A transformer skeleton burring blowing structure, its characterized in that: comprises a frame; one of the areas in the frame is rotatably provided with a burr rolling device for removing burrs of the product; a blanking groove is arranged right below the burr rolling device; the two ends of the two first air ejector pipes are fixed through quick fixing components; the first air ejector tube is provided with a plurality of nozzles on one surface opposite to the blanking groove, and the nozzles are arranged in a pair-by-pair crossing mode.

2. The transformer armature deburring air blowing structure of claim 1, wherein: the quick fixing assemblies comprise clamping pieces; one end of the buckle piece is fixed on the frame, and the other end is a movable end; the shape of the bayonet position of the clamping piece is consistent with that of the first air injection pipe; the fixed end of the buckle piece is elastic, and the movable end is provided with a jack; the rack is correspondingly provided with a positioning rod for inserting the jack; a long bar block is arranged at one side of the movable end of the buckle piece, and a latch groove is arranged in the long bar block; a bolt is arranged in the bolt groove, and a spring which always outwards ejects the bolt is arranged between the bolt and the bolt groove; the bolt just presses the movable end of the buckle piece.

3. The transformer armature deburring air blowing structure of claim 1, wherein: the two sides of the bottom of the blanking groove are communicated with a product slideway and a burr slideway, and a guide assembly for shielding any slideway is arranged at the intersection of the product slideway and the burr slideway; the guide assembly comprises a guide plate and a rotary cylinder; the guide plate is arranged at the intersection of a product slideway at the bottom of the blanking groove and a burr slideway; the rotary cylinder is arranged on one side of the bottom of the blanking groove and is used for driving the guide plate to rotate.

4. The transformer armature deburring air blowing structure of claim 1, wherein: and rubber pads are arranged at the joint positions of the elastic clamping pieces of the quick fixing assemblies and the air spraying pipes.

5. The transformer armature deburring air blowing structure of claim 1, wherein: two second air ejector pipes are arranged on the top surface of the frame right above the burr rolling device, and the nozzles of the two air ejector pipes are respectively right opposite to the upper position of the first air ejector pipe.

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