CN220763008U - Die assembly for producing electric porcelain of transformer - Google Patents

Abstract

The utility model discloses a mould subassembly is used in transformer electroceramics production relates to transformer electroceramics production technical field, and its technical scheme main points are including the main part, including last mould and bed die, the surface fixedly connected with bed die of going up the mould, oscillating mechanism, including the frame support case groove, the frame support case groove is connected with the surface fixed of side mount, the interior surface fixed mounting of frame support case groove has cooling body, cooling body includes the inlet tube mouth. This scheme is through fixed ring plate and the setting of supporting the position flange, and then its in-process that rotates meet the butt between the atress flange, and then promote the oscillating plate and move about, thereby utilize the striking between oscillating plate and the side mount to make the bed die vibrate, thereby utilize the oscillating force to shake out the inside bubble of porcelain thick liquid at the in-process of moulding plastics, and then form good effect of moulding plastics.

Description

Die assembly for producing electric porcelain of transformer

Technical Field

The utility model relates to a transformer electroceramics production technical field, more specifically say, it relates to a transformer electroceramics production is with mould subassembly.

Background

The mould component for producing the transformer electroceramics is an industrial mould part for producing the transformer electroceramics.

The electric porcelain for transformer is an insulating and supporting element for power equipment such as transformer, and is usually formed by a mould, and the accurate size and shape of the electric porcelain are ensured in the forming process.

Therefore, in order to solve the technical problems, the application provides a die assembly for producing the transformer electroceramics.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a die assembly for producing the electric porcelain of the transformer.

In order to achieve the above purpose, the present utility model provides a mold assembly for producing electric porcelain of a transformer, comprising:

the main body comprises an upper die and a lower die, wherein the outer surface of the upper die is fixedly connected with the lower die, the outer surface of the upper die is fixedly connected with an injection nozzle, the outer surface of the upper die is connected with a driving assembly, and the outer surface of the lower die is fixedly connected with a side fixing frame;

the oscillating mechanism comprises a frame supporting box groove, the outer surface fixed connection of frame supporting box groove and side fixing frame, the outer end of frame supporting box groove is provided with driving motor, driving motor's surface swing joint has the drive shaft, the fixed ring board of surface fixedly connected with of drive shaft, the surface fixedly connected with of fixed ring board supports the position flange, the internal surface fixedly connected with spacing cardboard of frame supporting box groove, the internal surface swing joint of spacing cardboard has a slip axostylus axostyle, the surface fixedly connected with atress flange of slip axostylus axostyle, the surface fixedly connected with oscillating plate of slip axostylus axostyle, the internal surface fixedly connected with first limiting plate of frame supporting box groove, one side that the oscillating plate kept away from first limiting plate is provided with the second limiting plate.

Preferably, the inner surface fixed mounting of frame support case groove has cooling body, cooling body includes the mouth of pipe of intaking, the orificial external surface fixedly connected with frame basin of intaking, the orificial lower surface fixedly connected with of intaking lower water tank plate, the external surface fixedly connected with of lower water tank plate is violently sent the frid, the one end fixedly connected with flow box of the frid of violently sending of downwater tank plate, the external surface fixedly connected with mouth of pipe of flow box, the external surface fixedly connected with screw plate of drive shaft.

Preferably, the lower die is fixedly connected with the frame supporting box groove through a side fixing frame, the driving motors are two groups, the two groups of the driving motors are positioned at two sides of the lower die, and the driving shaft is fixedly connected with the supporting convex plate through a fixing ring plate.

Preferably, the upper end of the limiting clamping plate is provided with a sliding groove, the sliding shaft rod is in sliding connection with the sliding groove part of the limiting clamping plate, the limiting clamping plate is arranged at two ends of the sliding shaft rod, and the stressed convex plate can be propped against and slide between the stressed convex plates.

Preferably, the oscillating plate is arranged at one side of the sliding shaft rod away from the abutting convex plate, the first limiting plate is in abutting sliding with the outer surface of the oscillating plate, and the oscillating plate can be in abutting connection with the lower surface of the side fixing frame.

Preferably, the water inlet pipe orifice is located the lower extreme position of bed die, the inside intercommunication of water inlet pipe orifice and lower flume board, the internal intercommunication of lower flume board and horizontal flume board, horizontal flume board and flow box's inside intercommunication, the spiral plate sets up the surface that the drive shaft is located flow box's inside part, second limiting plate fixed connection is in the outside surface both sides position of water inlet pipe orifice, the surface butt of second limiting plate and oscillating plate slides.

Compared with the prior art, the utility model has the following beneficial effects: the device is through fixed ring plate and support setting of position flange, and then it meets the butt between the atress flange at rotatory in-process, and then promote the oscillating plate and move about, thereby utilize the striking between oscillating plate and the side mount to make the bed die vibrate, thereby utilize oscillating force to shake out the inside bubble of porcelain thick liquid at the in-process of moulding plastics, and then form good effect of moulding plastics, utilize the setting of inlet tube mouth and screw plate simultaneously, and then can lead to at the lower extreme of bed die and establish the cooling water, and utilize the rotation of screw plate to make the cooling water be at uniform velocity directional mode activity, and then make the cooling water slow circulation, thereby be convenient for cool off the porcelain thick liquid of moulding plastics.

Drawings

FIG. 1 is a schematic perspective view of the structure of the present utility model;

FIG. 2 is a schematic perspective view showing the internal structure of the box supporting groove of FIG. 1 according to the present utility model;

FIG. 3 is a partial perspective view of the water inlet nozzle of FIG. 2 according to the present utility model;

fig. 4 is a perspective view showing an internal structure of the flow box of fig. 2 according to the present utility model.

1. An upper die; 11. a lower die; 12. injection molding a pipe orifice; 13. an exhaust pipe orifice; 14. a side fixing frame; 2. a frame supporting box groove; 21. a driving motor; 22. a drive shaft; 23. a fixed ring plate; 24. a butt convex plate; 25. a limiting clamping plate; 26. a sliding shaft lever; 27. a stress convex plate; 28. an oscillating plate; 29. a first limiting plate; 210. a second limiting plate; 3. a water inlet pipe orifice; 31. a water tank; 32. a lower water tank plate; 33. transverse feeding groove plates; 34. a flow box; 35. a water outlet pipe orifice; 36. a spiral plate.

Detailed Description

An embodiment of a mold assembly for producing electric porcelain for a transformer according to the present utility model will be further described with reference to fig. 1 to 4.

A mold assembly for transformer electroceramics production, comprising:

the main part, including last mould 1 and bed die 11, the surface fixedly connected with bed die 11 of last mould 1, the surface fixedly connected with mouth of pipe 12 of moulding plastics of last mould 1, the surface and the drive assembly of last mould 1 are connected, the surface fixedly connected with side mount 14 of bed die 11, the device makes between last mould 1 and the bed die 11 to involution the back through drive assembly, and then carries out porcelain thick liquid injection moulding through the mouth of pipe 12 of moulding plastics to utilize exhaust mouth of pipe 13 to discharge the gas of inside, thereby realize the work of moulding plastics.

The vibration mechanism comprises a frame support box groove 2, the outer surface of the frame support box groove 2 is fixedly connected with a side fixing frame 14, a driving motor 21 is arranged at the outer end of the frame support box groove 2, a driving shaft 22 is movably connected to the outer surface of the driving motor 21, a fixed ring plate 23 is fixedly connected to the outer surface of the driving shaft 22, a butting convex plate 24 is fixedly connected to the outer surface of the fixed ring plate 23, a limiting clamping plate 25 is fixedly connected to the inner surface of the frame support box groove 2, a sliding shaft rod 26 is movably connected to the inner surface of the limiting clamping plate 25, a stressed convex plate 27 is fixedly connected to the outer surface of the sliding shaft rod 26, a vibrating plate 28 is fixedly connected to the inner surface of the frame support box groove 2, a first limiting plate 29 is arranged on one side, which is far away from the first limiting plate 29, of the vibrating plate 28, a second limiting plate 210 is arranged through the setting of the vibration mechanism, and then the device can transfer bubbles inside ceramic slurry to the upper end of the ceramic slurry by using vibration force.

Further, the inner surface fixed mounting of frame props case groove 2 has cooling body, cooling body includes water inlet pipe mouth 3, water inlet pipe mouth 3's surface fixed connection has frame basin 31, water inlet pipe mouth 3's lower surface fixed connection has lower water tank plate 32, lower water tank plate 32's surface fixed connection has horizontal groove plate 33, the one end fixedly connected with flow box 34 of horizontal groove plate 33 keeping away from lower water tank plate 32, flow box 34's surface fixed connection has water outlet pipe mouth 35, drive shaft 22's surface fixed connection has screw plate 36, through cooling body's setting, and then make ceramic slurry can accelerate the cooling after moulding plastics, and then improve injection molding efficiency, specific embodiment is at the in-process of moulding plastics, water inlet pipe mouth 3's inside through frame basin 31 case pours into cooling water, make cooling water and the laminating of lower surface of lower mould 11, and then cool down mould 1 and the inside ceramic slurry of lower mould 11, simultaneously because driving motor 21's work activity, make driving shaft 22 drive screw plate 36 of its upper end rotate, and then can make cooling water through lower water tank plate 32 and screw plate 36 of lower end and the inside of box 33, and the cooling body is realized to the cooling water through the cooling body's 3 and the inside cooling body is flowed into the inside through the cooling body through the screw plate 33, and then the cooling body is cooled down at uniform speed, and the cooling body is carried out to the inside 3 through the cooling body is discharged through the cooling body 3.

Further, the lower die 11 is fixedly connected with the frame supporting box groove 2 through the side fixing frame 14, the driving motors 21 are two groups, the two groups of driving motors 21 are located at two sides of the lower die 11, the driving shaft 22 is fixedly connected with the supporting protruding plate 24 through the fixing ring plate 23, and the fixing ring plate 23 can continuously support against the stress protruding plate 27 in the rotating structure through the supporting protruding plate 24, so that the stress protruding plate 27 is pushed to move up and down.

Further, the upper end of spacing cardboard 25 is provided with the spout, and slip axostylus axostyle 26 and the partly sliding connection of spout of spacing cardboard 25, and spacing cardboard 25 sets up in the both ends position of slip axostylus axostyle 26, and atress flange 27 can with support to prop between the position flange 24 and slide, through the setting of spacing cardboard 25, and then carry out the activity spacing to slip axostylus axostyle 26.

Further, the oscillating plate 28 is disposed at a side position of the sliding shaft 26 away from the abutment convex plate 24, the first limiting plate 29 abuts against the outer surface of the oscillating plate 28 to slide, the oscillating plate 28 may abut against the lower surface of the side fixing frame 14, and the side end of the oscillating plate 28 is further limited by the arrangement of the first limiting plate 29, so that only up-down movement can be realized.

Further, the water inlet pipe orifice 3 is located at the lower end of the lower die 11, the water inlet pipe orifice 3 is communicated with the inside of the lower water trough plate 32, the lower water trough plate 32 is communicated with the inside of the transverse conveying trough plate 33, the transverse conveying trough plate 33 is communicated with the inside of the flow box 34, the spiral plate 36 is arranged on the outer surface of the inner part of the driving shaft 22 located in the flow box 34, the second limiting plates 210 are fixedly connected to the two sides of the outer surface of the water inlet pipe orifice 3, the second limiting plates 210 are in abutting sliding with the outer surface of the oscillating plate 28, and the arrangement of the second limiting plates 210 is matched with the first limiting plates 29 to perform abutting limiting on the other side of the oscillating plate 28, so that the oscillating plate 28 can only perform up-down movement work.

The above is only a preferred embodiment of the present utility model, and the scope of the present utility model is not limited to the above embodiments, and all technical solutions according to the present utility model belong to the scope of the present utility model. It should be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present utility model are intended to be within the scope of the present utility model.

Claims (6)

1. A mold assembly for transformer electroceramics production, comprising:

the main body comprises an upper die (1) and a lower die (11), wherein the lower die (11) is fixedly connected with the outer surface of the upper die (1), an injection nozzle (12) is fixedly connected with the outer surface of the upper die (1), the outer surface of the upper die (1) is connected with a driving assembly, and a side fixing frame (14) is fixedly connected with the outer surface of the lower die (11);

the utility model provides an oscillating mechanism, includes frame and props case groove (2), the frame props the surface fixed connection of case groove (2) and side mount (14), the outer end of frame props case groove (2) is provided with driving motor (21), the surface swing joint of driving motor (21) has drive shaft (22), the surface fixed connection of drive shaft (22) has fixed ring board (23), the surface fixed connection of fixed ring board (23) supports position flange (24), the internal surface fixed connection of frame props case groove (2) has spacing cardboard (25), the internal surface swing joint of spacing cardboard (25) has slide shaft lever (26), the surface fixed connection of slide shaft lever (26) has atress flange (27), the surface fixed connection of slide shaft lever (26) has oscillating plate (28), the internal surface fixed connection of frame props case groove (2) has first limiting plate (29), one side that oscillating plate (28) kept away from first limiting plate (29) is provided with second limiting plate (210).

2. A die assembly for producing electric porcelain for transformers according to claim 1, wherein: the cooling mechanism comprises a water inlet pipe orifice (3), a water inlet pipe orifice (3) is fixedly connected with a water outlet pipe orifice (31), a lower water outlet groove plate (32) is fixedly connected with the lower surface of the water inlet pipe orifice (3), a transverse conveying groove plate (33) is fixedly connected with the outer surface of the lower water outlet groove plate (32), a flow box (34) is fixedly connected with one end of the transverse conveying groove plate (33) away from the lower water outlet groove plate (32), a water outlet pipe orifice (35) is fixedly connected with the outer surface of the driving shaft (22), and a spiral plate (36) is fixedly connected with the outer surface of the driving shaft.

3. A die assembly for producing electric porcelain for transformers according to claim 1, wherein: the lower die (11) is fixedly connected with the frame supporting box groove (2) through the side fixing frame (14), the driving motors (21) are two groups, the driving motors (21) are located at two sides of the lower die (11), and the driving shaft (22) is fixedly connected with the supporting convex plate (24) through the fixing ring plate (23).

4. A transformer electroceramics production die assembly according to claim 3, wherein: the upper end of the limiting clamping plate (25) is provided with a sliding groove, the sliding shaft rod (26) is in sliding connection with the sliding groove of the limiting clamping plate (25), the limiting clamping plate (25) is arranged at two ends of the sliding shaft rod (26), and the stress convex plate (27) can be propped against the position convex plate (24) to slide.

5. A die assembly for producing electric porcelain for transformers according to claim 2, wherein: the oscillating plate (28) is arranged at one side position of the sliding shaft rod (26) far away from the abutting convex plate (24), the first limiting plate (29) is abutted to the outer surface of the oscillating plate (28) to slide, and the oscillating plate (28) can be abutted to the lower surface of the side fixing frame (14).

6. A die assembly for producing electric porcelain for transformers according to claim 2, wherein: the water inlet pipe orifice (3) is located at the lower end of the lower die (11), the water inlet pipe orifice (3) is communicated with the inside of the lower water trough plate (32), the lower water trough plate (32) is communicated with the inside of the transverse conveying trough plate (33), the transverse conveying trough plate (33) is communicated with the inside of the flow box (34), the spiral plate (36) is arranged on the outer surface of the inner part of the driving shaft (22) located in the flow box (34), the second limiting plates (210) are fixedly connected to the two sides of the outer surface of the water inlet pipe orifice (3), and the second limiting plates (210) are propped against the outer surface of the oscillating plate (28) to slide.