CN210764971U - Calibration adjusting device for insulator forming die - Google Patents

Abstract

The utility model provides an insulator forming die calibration adjusting device, which comprises an upper die structure, wherein the upper die structure comprises a four-station rotating structure, a portal frame and a top screw rod, the rotating shaft of the four-station rotating structure is connected with the lower end of the portal frame through an adjusting lantern ring, the outer side of the portal frame is connected with a driving structure corresponding to the rotating shaft, the top of the portal frame is provided with a translation adjusting structure, the translation adjusting structure comprises a translation plate, a rigid supporting plate and a locking panel, the translation plate is fixed on the lower surface of the rigid supporting plate, the lower part of the translation plate is connected with the upper end of the portal frame, the upper end edge of the portal frame is laterally convexly formed to be provided with a gap which is arranged as a convex block, a plurality of approaching blocks are convexly formed on the locking plate at intervals, the approaching blocks are inserted into the gap between the convex blocks at intervals, the precision of the die assembly is improved, the precision of products is improved, defective products are reduced, and the pressure of the die is ensured.

Description

Calibration adjusting device for insulator forming die

Technical Field

The utility model relates to a processing apparatus for producing of glass insulator specifically is an insulator forming die calibration adjusting device.

Background

The glass insulator is a device for supporting and insulating a wire, is made of glass and is called as a glass insulator, the insulator is generally made of glass and porcelain, the toughened glass insulator is widely applied to a line at present, particularly an extra-high voltage transmission line, the mechanical strength of the surface layer of the glass insulator is high, cracks are not prone to occur on the surface, the electrical strength of the glass is generally kept unchanged in the whole operation period, and the aging process of the glass is much slower than that of the porcelain.

The glass insulator comprises a glass annular structure and a metal connecting piece, wherein the metal connecting piece is used for assisting the glass annular structure to be mutually connected in series to realize the connection effect, the metal connecting piece and the glass annular structure are connected in a cement curing mode, namely, a convex head of the glass annular structure is embedded into the metal connecting piece, the metal connecting piece is of a cup-shaped structure, cement is filled in the metal connecting piece, the fixing effect is realized after the cement is cured, the glass piece is made of toughened glass, softened glass is pressed and formed by adopting a mould and then fixed, the mould is of a structure matched up and down, the upper moulds generally rotate four upper moulds rotating in four directions in turn, the lower moulds rotate and operate a plurality of lower moulds arranged on a turntable to realize streamlined sequential processing, and the four-direction rotating structures of the upper moulds are connected to a portal frame, the four upper dies rotate with transverse axes to replace stations, the lower dies replace the stations with turntables as the axes, the rotating axes of the four upper dies are different, the closing dies of the dies need to be just opposite to the pressing fit, pressure insufficiency can be avoided, defectives of deflection and distortion are avoided, and a conventional portal frame is of a fixed solid structure and is positioned at a high position and does not have an adjusting function, so that the accurate position can only be assembled in the installation process, the later adjustment cannot be carried out, complex repair is needed after long-time processing, and the production efficiency is reduced.

Disclosure of Invention

An object of the utility model is to overcome the above-mentioned not enough that exists among the prior art, and provide an insulator forming die calibration adjusting device.

The utility model provides a technical scheme that above-mentioned problem adopted is: the device comprises an upper die structure, wherein the upper die structure comprises a four-station rotating structure, a portal frame and a top screw rod, a rotating shaft of the four-station rotating structure is connected to the lower end of the portal frame through an adjusting lantern ring, a driving structure is connected to the outer side of the portal frame corresponding to the rotating shaft, a translation adjusting structure is arranged at the top of the portal frame and comprises a translation plate, a rigid supporting plate and a locking panel, the translation plate is fixed on the lower surface of the rigid supporting plate, the lower part of the translation plate is connected with the upper end of the portal frame, a plurality of approaching blocks are arranged on the upper end edge of the portal frame in a protruding mode at intervals, the approaching blocks are inserted into gaps among the protruding blocks at intervals, locking screws penetrate through opposite sides of the approaching blocks and are fixed with the locking screws, the locking screws penetrate through the locking plates, the intervals among the protruding blocks and the translation plate, and long round holes are formed, the length direction of the long round hole is vertical to the axial direction of the rotating shaft, the upper part of the rigid supporting plate is provided with a top screw rod, and the top screw rod is connected with an external machine frame.

The device is a matching device for forming and processing the glass insulator, and mainly solves the problem that an upper die of a die convenient for forming insulation is convenient to adjust the position, so that the upper die is accurately aligned with the position of a lower die, the die assembly precision is improved, the product precision is improved, defective products are reduced, the die pressure is ensured, and an unsightly die assembly line is avoided. The convenience of adjustment is improved, the working hours for adjustment are reduced, the benefits of enterprises are improved, and the cost is reduced.

Axial removal is realized through the adjusting collar that sets up different thickness and interval quantity about the upper die in this structure, because the axle head of pivot when being connected with the portal frame, can ascending removal in the axial direction, utilize this principle to adjust, it is the eccentric distance in the axle center with the carousel of lower mould mainly to adjust, the deviation can not be too big, it is comparatively stable, do not need too much to adjust, position control in another side of horizontal position is adjusted through the translation board at top, translation board and portal frame separation set up, because the translation board is planar structure can be relative fixed in any position, through slotted hole adjusting position, and lock with locking screw, the effect of locking panel is the increase contact surface, form the connection of face contact, improve the compactness of connecting. The overall height of the upper die structure is adjusted to the upper position and the lower position through the rotation of the top screw rod.

Furthermore, the translation plate is of a rigid structure with each surface being a straight surface, the translation plate is provided with a long round hole, a part penetrating through the translation plate and provided with a locking screw protrudes out of the edge of the rigid support plate, the thickness of the translation plate is smaller than that of the rigid support plate, and the translation plate and the rigid support plate are welded into a whole. The plane of the translation plate ensures that the error of adjustment is reduced during adjustment.

Furthermore, the upper end of the top screw is connected with a rotating host, the rotating host is connected to the external rack, the rotating host drives the top screw to rotate in the corresponding rigid support plate, and the rigid support plate moves up and down in the axial direction of the top screw and drives the upper die structure to move up and down integrally. The top screw rod is used as a high-strength supporting structure, the height is adjusted through the top screw rod, and the integral structure is stabilized.

Furthermore, the whole locking plate is made of cast iron, and hard oxide layers are formed on the end face of the approaching block and the surface of the round hole penetrating through the locking screw.

Furthermore, a knocking block is formed on the rigid surface of the side edge of the portal frame and protrudes out of the corresponding surface of the portal frame, the knocking block is made of hard alloy materials, the hardness of the knocking block is higher than that of the portal frame, an inserting handle is formed on the knocking block, and the inserting handle is inserted into a material structure of the portal frame. The knocking block is used for adjusting the position of the portal frame when the portal frame is adjusted, and deformation of the portal frame body is avoided.

Compared with the prior art, the utility model, have following advantage and effect: the device is a matching device for forming and processing the glass insulator, and mainly solves the problem that an upper die of a die convenient for forming insulation is convenient to adjust the position, so that the upper die is accurately aligned with the position of a lower die, the die assembly precision is improved, the product precision is improved, defective products are reduced, the die pressure is ensured, and an unsightly die assembly line is avoided. The convenience of adjustment is improved, the working hours for adjustment are reduced, the benefits of enterprises are improved, and the cost is reduced.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1. the device comprises a four-station rotating structure, 2, a portal frame, 3, a top screw, 4, an adjusting lantern ring, 5, a translation plate, 6, a rigid supporting plate, 7, a locking panel, 8, a bump, 9, an approaching block, 10 and a locking screw.

Detailed Description

The present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not intended to limit the present invention.

An insulator forming die calibration adjusting device comprises an upper die structure, wherein the upper die structure comprises a four-station rotating structure 1, a portal frame 2 and a top screw rod 3, a rotating shaft of the four-station rotating structure 1 is connected to the lower end of the portal frame 2 through an adjusting lantern ring 4, a driving structure is connected to the outer side of the portal frame 2 corresponding to the rotating shaft, a translation adjusting structure is arranged at the top of the portal frame 2 and comprises a translation plate 5, a rigid supporting plate 6 and a locking panel 7, the translation plate 5 is fixed on the lower surface of the rigid supporting plate 6, the lower part of the translation plate 5 is connected with the upper end of the portal frame 2, lugs 8 are arranged at intervals on the edge lateral bulges at the upper end of the portal frame 2, a plurality of reverse side blocks 9 are formed on the locking plate at intervals, the reverse side blocks 9 are inserted into gaps between the lugs 8 at intervals, locking screws 10 are fixed on the opposite side faces of the adjacent blocks 9, the locking screws 10 penetrate through the locking plates, the intervals among the lugs 8 and the translation plate 5, oblong holes are formed in the translation plate 5 corresponding to the locking screws 10, the length direction of the oblong holes is perpendicular to the axial direction of the rotating shaft, the top screw rods 3 are arranged on the upper portion of the rigid supporting plate 6, and the top screw rods 3 are connected with an external machine frame.

The translation plate 5 is of a rigid structure with flat surfaces on all surfaces, the translation plate 5 is provided with a long round hole, the part penetrating through the translation plate 5 and provided with the locking screw 10 protrudes out of the edge of the rigid support plate 6, the thickness of the translation plate 5 is smaller than that of the rigid support plate 6, and the translation plate 5 and the rigid support plate 6 are welded into a whole.

The upper end of the top screw rod 3 is connected with a rotating host, the rotating host is connected to an external machine frame, the rotating host drives the top screw rod 3 to rotate in the corresponding rigid support plate 6, and the rigid support plate 6 moves up and down in the axial direction of the top screw rod 3 and drives the upper die structure to move up and down integrally.

The whole locking plate is made of cast iron materials, and hard oxide layers are formed on the end face of the locking plate close to the block 9 and the surface of a round hole penetrating through the locking screw 10.

The drilling tool is characterized in that a knocking block is formed on the rigid surface of the side edge of the portal frame 2, the knocking block protrudes out of the surface corresponding to the portal frame 2, the knocking block is made of hard alloy materials, the hardness of the knocking block is higher than that of the portal frame 2, an inserting handle is formed on the knocking block, and the inserting handle is inserted into a material structure of the portal frame 2.

It is obvious to a person skilled in the art that the invention is not limited to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention, and that the embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The utility model provides an insulator forming die calibration adjusting device, includes the mode structure, its characterized in that: the upper die structure comprises a four-station rotating structure (1), a portal frame (2) and a top screw rod (3), wherein a rotating shaft of the four-station rotating structure (1) is connected to the lower end of the portal frame (2) through an adjusting lantern ring (4), a driving structure is connected to the outer side of the portal frame (2) corresponding to the rotating shaft, a translation adjusting structure is arranged at the top of the portal frame (2) and comprises a translation plate (5), a rigid supporting plate (6) and a locking panel (7), the translation plate (5) is fixed on the lower surface of the rigid supporting plate (6), the lower part of the translation plate (5) is connected with the upper end of the portal frame (2), a plurality of approaching blocks (9) are formed on the locking plate in a protruding mode at intervals, the approaching blocks (9) are inserted into gaps among the protruding blocks (8) at intervals, opposite sides of the approaching blocks (9) are oppositely fixed with locking screws (10), the locking screws (10) penetrate through the locking plates, intervals among the convex blocks (8) and the translation plate (5), long round holes are formed in the positions, corresponding to the locking screws (10), of the translation plate (5), the length directions of the long round holes are perpendicular to the axial direction of the rotating shaft, top screw rods (3) are arranged on the upper portions of the rigid supporting plates (6), and the top screw rods (3) are connected with an external machine frame.

2. The insulator forming mold calibration adjusting device according to claim 1, wherein: the translation plate (5) is of a rigid structure with flat surfaces on all surfaces, the translation plate (5) is provided with a long round hole, the part, provided with the locking screw (10), in a penetrating mode protrudes out of the edge of the rigid support plate (6), the thickness of the translation plate (5) is smaller than that of the rigid support plate (6), and the translation plate (5) and the rigid support plate (6) are welded into a whole.

3. The insulator forming mold calibration adjusting device according to claim 1, wherein: the upper end of the top screw rod (3) is connected with a rotating host, the rotating host is connected to an external rack, the rotating host drives the top screw rod (3) to rotate in a corresponding rigid support plate (6), and the rigid support plate (6) moves up and down in the axial direction of the top screw rod (3) and drives the upper die structure to move up and down integrally.

4. The insulator forming mold calibration adjusting device according to claim 1, wherein: the whole locking plate is made of cast iron materials, and hard oxide layers are formed on the end face of the approaching block (9) and the surface of a round hole penetrating through the locking screw (10).

5. The insulator forming mold calibration adjusting device according to claim 1, wherein: the portal frame is characterized in that a knocking block is formed on the rigid surface of the side edge of the portal frame (2), the knocking block protrudes out of the surface corresponding to the portal frame (2), the knocking block is made of hard alloy materials, the hardness of the knocking block is higher than that of the portal frame (2), an inserting handle is formed on the knocking block, and the inserting handle is inserted into a material structure of the portal frame (2).

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