CN210820513U - Epoxy sleeve pouring die turnover device - Google Patents

Abstract

The utility model discloses an epoxy sleeve pouring mould turning device, including support body, the fixture that is used for centre gripping pouring mould cylinder on the support body of setting and the hold-down mechanism who is connected with fixture and is used for compressing tightly the pouring mould flange, fixture include fixed centre gripping subassembly of fixed mounting on the support body and with fixed centre gripping subassembly matched with activity centre gripping subassembly, hold-down mechanism includes that two set up the clamp plate subassembly on first V type grip block top and second V type grip block top respectively. The utility model discloses simple structure can the centre gripping on the outer disc of casting die cylinder through clamping mechanism, can compress tightly on the top surface of casting die flange through hold-down mechanism, and the support body can support epoxy sleeve pipe casting die, and when the manual upset epoxy sleeve pipe casting die of operating personnel, epoxy sleeve pipe casting die can rotate round first pivot and second pivot, and labour saving and time saving does not need many people to move upset epoxy sleeve pipe casting die jointly.

Description

Epoxy sleeve pouring die turnover device

Technical Field

The utility model belongs to the technical field of the epoxy sleeve pipe is made, concretely relates to epoxy sleeve pipe casting die turning device.

Background

Due to the rapid global climate change, severe climate is also increasing, especially for epoxy bushings, which are temperature sensitive and brittle material parts in cable systems. The epoxy sleeve is one of cable accessories, plays the roles of fixing, connecting, homogenizing an electric field and protecting the broken end of an internal cable, mostly runs under the open air condition, and is very easily influenced by external climate change. Therefore, if the epoxy bushing has a slight quality problem, it will have a serious influence on the entire power system. The structure of the epoxy sleeve sequentially comprises a metal insert and an epoxy body from inside to outside, wherein the metal insert comprises an upper electrode insert and a lower electrode insert. Along with the development of the mold manufacturing technology, a mixture of epoxy filler and a curing agent is usually poured into a mold, so that an epoxy body and a metal insert are integrally formed, when an epoxy sleeve is manufactured by using an epoxy sleeve pouring mold, an operator needs to use lifting equipment to overturn the epoxy sleeve pouring mold for many times, the labor intensity is very high, the efficiency is low, the safety is poor, and the safety accident that the operator is injured by smashing is easy to happen.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that not enough among the above-mentioned prior art is directed against, an epoxy casing pouring mould turning device is provided, a structure is simple, and reasonable design, can the centre gripping on the outer disc of pouring mould cylinder through clamping mechanism, can compress tightly on the top surface of pouring mould flange through hold-down mechanism, the support body can support epoxy casing pouring mould, the bottom that makes epoxy casing pouring mould breaks away from ground, when the manual upset epoxy casing pouring mould of operating personnel, epoxy casing pouring mould can round first pivot and second pivot rotation, time saving and labor saving, do not need many people to move upset epoxy casing pouring mould jointly, and the labor cost is saved, and the use effect is good.

In order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides an epoxy sleeve pours mould turning device which characterized in that: including support body, setting be in be used for on the support body centre gripping casting die cylinder fixture and with fixture connects be used for compressing tightly the hold-down mechanism of casting die flange, fixture includes fixed mounting fixed centre gripping subassembly on the support body and with fixed centre gripping subassembly matched with activity centre gripping subassembly, the support body includes support frame and horizontal installation in the first fixed plate and the second fixed plate on support frame top, fixed centre gripping subassembly includes that two symmetries are laid first bearing on the first fixed plate, rotate and install two first pivot on the first bearing and fixed mounting in the first V type grip block of first pivot one end, activity centre gripping subassembly includes that fixed mounting is in lead screw moving platform on the second fixed plate, two symmetries are laid second bearing on the lead screw moving platform, The pressing mechanism comprises two pressing plate assemblies which are respectively arranged at the top end of the first V-shaped clamping plate and the top end of the second V-shaped clamping plate.

Foretell epoxy sleeve pouring mould turning device, its characterized in that: the lead screw moving platform comprises a horizontal mounting plate fixedly mounted on the second fixing plate, vertical mounting plates vertically mounted at two ends of the horizontal mounting plate, lead screws respectively rotatably mounted on the two vertical mounting plates at two ends of the horizontal mounting plate, and a moving platform matched with the lead screws, wherein the bottom of the moving platform is provided with a nut seat matched with the lead screws.

Foretell epoxy sleeve pouring mould turning device, its characterized in that: fixed mounting has on the horizontal installation board with moving platform matched with forked tail guide rail, forked tail guide rail includes that bottom plate and two symmetries are laid at the half forked tail guide rail of bottom plate.

Foretell epoxy sleeve pouring mould turning device, its characterized in that: the pressing plate assembly comprises a fixing rod fixedly mounted at the top end of the first V-shaped clamping plate or the top end of the second V-shaped clamping plate, a U-shaped pressing plate fixedly mounted at the top end of the fixing rod through a first bolt, a pressing block hinged to the front end of the U-shaped pressing plate and a cushion block supported to the rear end of the U-shaped pressing plate.

Foretell epoxy sleeve pouring mould turning device, its characterized in that: the structure of first V type grip block with the structure of second V type grip block is the same, the mounting height of first V type grip block with the mounting height of second V type grip block is unanimous, the below of first bearing frame is provided with a plurality of backing plates of increaseing.

Foretell epoxy sleeve pouring mould turning device, its characterized in that: the support frame includes bottom rectangular frame, sets up perpendicularly the first trapezoidal support and the second trapezoidal support of bottom rectangular frame both sides to and fixed mounting be in the first L shape auxiliary stand and the first L shape auxiliary stand of bottom rectangular frame both sides, first fixed plate horizontal overlap joint first trapezoidal support's top with the top of first L shape auxiliary stand, second fixed plate horizontal overlap joint second trapezoidal support's top with the top of second L shape auxiliary stand.

Compared with the prior art, the utility model has the following advantage:

1. the utility model discloses a set up the fixture that is used for centre gripping the casting die cylinder on the support body, and set up the hold-down mechanism that is connected with fixture and is used for compressing tightly the casting die flange, and fixture includes fixed centre gripping subassembly and the activity centre gripping subassembly that cooperatees with fixed centre gripping subassembly that fixedly installed on the support body, fixed centre gripping subassembly includes two first bearing frames, first pivot and first V type grip block, the activity centre gripping subassembly includes lead screw moving platform, two second bearing frames, second pivot and second V type grip block, in actual use, when first V type grip block and second V type grip block centre gripping are on the outer disc of casting die cylinder, and when utilizing hold-down mechanism to compress tightly on the top surface of casting die flange, can realize the centre gripping to the epoxy sleeve casting die, because the support body can support the epoxy sleeve casting die, make epoxy sleeve casting die's bottom break away from ground, consequently, when the manual upset epoxy sleeve casting die of operating personnel, epoxy sleeve casting die can rotate round first pivot and second pivot, and labour saving and time saving does not need many people to move upset epoxy sleeve casting die jointly, practices thrift the human cost, excellent in use effect.

2. The utility model discloses a hold-down mechanism includes that two set up the clamp plate assembly on first V type grip block top and second V type grip block top respectively, through setting up two clamp plate assemblies respectively on the top of first V type grip block and the top of second V type grip block, when utilizing clamp plate assembly to compress tightly the casting die flange, the bottom surface of casting die flange is hugged closely on first V type grip block and second V type grip block, at this moment, first V type grip block and second V type grip block can play the effect of supporting the casting die flange, the operation of being convenient for, safety and reliability.

3. The utility model discloses a lead screw moving platform includes horizontal mounting board, vertical mounting board, lead screw and moving platform, and set up and lead screw matched with nut seat through the bottom at moving platform, the lead screw cooperatees with the nut seat, when the one end fixed connection of motor and lead screw, because the both ends of lead screw rotate respectively and install on two vertical mounting boards, therefore, when the motor rotates, can drive the lead screw and rotate, the lead screw can drive moving platform and remove along the length direction of lead screw, thereby can drive two secondary shaft bearings and second V type grip block of fixed mounting on moving platform and be close to or keep away from to one side of first V type grip block, and then realize pressing from both sides tightly and loosen the casting die cylinder.

4. The utility model has the advantages of simple structure and reasonable design, low in manufacturing cost, facilitate promotion is used.

To sum up, the utility model has the advantages of simple structure and reasonable design, can the centre gripping on the outer disc of casting die cylinder through clamping mechanism, can compress tightly on the top surface of casting die flange through hold-down mechanism, the support body can support epoxy sleeve pipe casting die, make epoxy sleeve pipe casting die's bottom break away from ground, when the manual upset epoxy sleeve pipe casting die of operating personnel, epoxy sleeve pipe casting die can rotate round first pivot and second pivot, and labour saving and time saving does not need many people to move upset epoxy sleeve pipe casting die jointly, practices thrift the human cost, excellent in use effect.

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Drawings

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

Fig. 2 is a usage state diagram of the present invention.

Fig. 3 is a schematic structural diagram of the mobile platform of the present invention.

Fig. 4 is a schematic structural view of the dovetail guide rail of the present invention.

Description of reference numerals:

1-bottom rectangular frame; 1-2 — a first ladder support; 1-3-a first ladder support;

1-4-a second L-shaped auxiliary support; 1-5-a second L-shaped auxiliary support;

2-a first fixing plate; 3-a second fixing plate; 4-1 — a first bearing block;

4-1 — a second bearing block; 5-1 — a first shaft; 5-2-a second rotating shaft;

6-1-a first V-shaped clamping plate; 6-2-a second V-shaped clamping plate; 7, fixing a rod;

8, inserting a pin; 9-U-shaped pressing plate; 10, a compression block;

11-cushion block; 12-heightening the base plate; 13-horizontal mounting plate;

14-dovetail rail; 15-moving the platform; 15-1-nut seat;

16-a vertical mounting plate; 17-a motor; 18-a screw rod;

19-1, casting a mould cylinder; 19-2-casting the mould flange.

Detailed Description

As shown in figures 1 and 2, the utility model comprises a frame body, a clamping mechanism arranged on the frame body for clamping a casting mold cylinder 19-1 and a pressing mechanism connected with the clamping mechanism for pressing a casting mold flange 19-2, wherein the clamping mechanism comprises a fixed clamping component fixedly arranged on the frame body and a movable clamping component matched with the fixed clamping component, the frame body comprises a support frame, a first fixing plate 2 and a second fixing plate 3 which are horizontally arranged at the top end of the support frame, the fixed clamping component comprises two first bearing seats 4-1 symmetrically arranged on the first fixing plate 2, a first rotating shaft 5-1 rotatably arranged on the two first bearing seats 4-1 and a first V-shaped clamping plate 6-1 fixedly arranged at one end of the first rotating shaft 5-1, the movable clamping assembly comprises a screw rod moving platform fixedly mounted on the second fixing plate 3, two second bearing seats 4-2 symmetrically arranged on the screw rod moving platform, a second rotating shaft 5-2 rotatably mounted on the two second bearing seats 4-2, and a second V-shaped clamping plate 6-2 fixedly mounted at one end of the second rotating shaft 5-2, and the pressing mechanism comprises two pressing plate assemblies respectively arranged at the top end of the first V-shaped clamping plate 6-1 and the top end of the second V-shaped clamping plate 6-2.

As shown in fig. 2, in this embodiment, a frame body is provided with a clamping mechanism for clamping a casting mold cylinder 19-1, and a pressing mechanism connected to the clamping mechanism for pressing a casting mold flange 19-2, and the clamping mechanism includes a fixed clamping assembly fixedly mounted on the frame body and a movable clamping assembly matched with the fixed clamping assembly, the fixed clamping assembly includes two first bearing seats 4-1, a first rotating shaft 5-1 and a first V-shaped clamping plate 6-1, the movable clamping assembly includes a lead screw moving platform, two second bearing seats 4-2, a second rotating shaft 5-2 and a second V-shaped clamping plate 6-2, when in actual use, when the first V-shaped clamping plate 6-1 and the second V-shaped clamping plate 6-2 are clamped on an outer circumferential surface of the casting mold cylinder 19-1, when the pressing mechanism is pressed on the top surface of the casting mold flange 19-2, the epoxy sleeve casting mold can be clamped, and the frame body can support the epoxy sleeve casting mold to enable the bottom of the epoxy sleeve casting mold to be separated from the ground, so that when an operator manually turns over the epoxy sleeve casting mold, the epoxy sleeve casting mold can rotate around the first rotating shaft 5-1 and the second rotating shaft 5-2, time and labor are saved, the epoxy sleeve casting mold does not need to be turned over by multiple persons, the labor cost is saved, and the using effect is good.

In this embodiment, bearings are disposed between the first rotating shaft 5-1 and the first bearing seat 4-1 and between the second rotating shaft 5-2 and the second bearing seat 4-2, so that the flexibility of rotation of the first rotating shaft 5-1 and the second rotating shaft 5-2 can be improved, and time and labor are saved.

As shown in fig. 2, in this embodiment, the pressing mechanism includes two pressing plate assemblies respectively disposed at the top end of the first V-shaped clamping plate 6-1 and the top end of the second V-shaped clamping plate 6-2, and by respectively disposing the two pressing plate assemblies at the top end of the first V-shaped clamping plate 6-1 and the top end of the second V-shaped clamping plate 6-2, when the pressing plate assembly presses the casting mold flange 19-2, the bottom surface of the casting mold flange 19-2 is tightly attached to the first V-shaped clamping plate 6-1 and the second V-shaped clamping plate 6-2, and at this time, the first V-shaped clamping plate 6-1 and the second V-shaped clamping plate 6-2 can play a role of supporting the casting mold flange 19-2, so that the operation is convenient, and safe and reliable.

As shown in fig. 1, 2 and 3, in this embodiment, the lead screw moving platform includes a horizontal mounting plate 13 fixedly mounted on the second fixing plate 3, vertical mounting plates 16 vertically mounted at two ends of the horizontal mounting plate 13, a lead screw 18 rotatably mounted on the two vertical mounting plates 16 at two ends, and a moving platform 15 matched with the lead screw 18, and a nut seat 15-1 matched with the lead screw 18 is disposed at the bottom of the moving platform 15.

In this embodiment, the lead screw moving platform comprises a horizontal mounting plate 13, a vertical mounting plate 16, a lead screw 18 and a moving platform 15, and a nut seat 15-1 matched with the screw rod 18 is arranged at the bottom of the moving platform 15, the screw rod 18 is matched with the nut seat 15-1, when the motor 17 is fixedly connected with one end of the screw rod 18, since the two ends of the screw rod 18 are rotatably mounted on the two vertical mounting plates 16, respectively, when the motor 17 is rotated, the screw rod 18 can be driven to rotate, the screw rod 18 can drive the moving platform 15 to move along the length direction of the screw rod 18, therefore, the two second bearing seats 4-2 and the second V-shaped clamping plate 6-2 which are fixedly arranged on the moving platform 15 can be driven to be close to or far away from one side of the first V-shaped clamping plate 6-1, and the cylinder 19-1 of the pouring mold can be clamped and loosened.

In the present embodiment, as shown in fig. 4, a dovetail rail 14 matched with the moving platform 15 is fixedly installed on the horizontal installation plate 13, and the dovetail rail 14 includes a bottom plate 14-1 and two half dovetail rails 14-2 symmetrically arranged on the bottom plate 14-1.

In this embodiment, a dovetail rail 14 that is engaged with the moving platform 15 is fixedly installed on the horizontal installation plate 13, and the purpose thereof is as follows: through the matching between the dovetail guide rail 14 and the moving platform 15, the moving stability of the moving platform 15 can be improved, and the matching precision between the first V-shaped clamping plate 6-1 and the second V-shaped clamping plate 6-2 can be improved.

In this embodiment, the dovetail guide rails 14 include a bottom plate 14-1 and two half dovetail guide rails 14-2 symmetrically arranged on the bottom plate 14-1, so that the two half dovetail guide rails 14-2 are jointly matched with the moving platform 15, the screw rod 18 is parallel to the two half dovetail guide rails 14-2, and at this time, a rectangular channel for the nut seat 15-1 to pass through is formed between the two half dovetail guide rails 14-2, so that the structure is compact, the matching precision is high, and the popularization and the application are facilitated.

In this embodiment, the pressing plate assembly includes a fixing rod 7 fixedly installed at the top end of the first V-shaped clamping plate 6-1 or the top end of the second V-shaped clamping plate 6-2, a U-shaped pressing plate 9 fixedly installed at the top end of the fixing rod 7 through a first bolt 8, a pressing block 10 hinged to the front end of the U-shaped pressing plate 9, and a cushion block 11 supported at the rear end of the U-shaped pressing plate 9.

In this embodiment, the structure of the first V-shaped clamping plate 6-1 is the same as the structure of the second V-shaped clamping plate 6-2, the installation height of the first V-shaped clamping plate 6-1 is the same as the installation height of the second V-shaped clamping plate 6-2, and a plurality of height-adjusting base plates 12 are arranged below the first bearing seat 4-1.

In this embodiment, the support frame includes a bottom rectangular frame 1-1, a first trapezoidal bracket 1-2 and a second trapezoidal bracket 1-3 vertically disposed at two sides of the bottom rectangular frame 1-1, and a first L-shaped auxiliary bracket 1-4 and a second L-shaped auxiliary bracket 1-5 fixedly mounted at two sides of the bottom rectangular frame 1-1, the first fixing plate 2 is horizontally lapped on the top end of the first trapezoidal bracket 1-2 and the top end of the first L-shaped auxiliary bracket 1-4, and the second fixing plate 3 is horizontally lapped on the top end of the second trapezoidal bracket 1-3 and the top end of the second L-shaped auxiliary bracket 1-5.

As shown in fig. 2, during practical use, the lifting device is required to be used in cooperation, the epoxy sleeve pouring mold is installed on the turnover device, and the specific installation process is as follows: firstly, the distance between a first V-shaped clamping plate 6-1 and a second V-shaped clamping plate 6-2 needs to be adjusted, so that a casting mold flange 19-2 can be placed on the first V-shaped clamping plate 6-1 and the second V-shaped clamping plate 6-2; secondly, hoisting the epoxy sleeve pouring mould by using hoisting equipment to enable the bottom surface of the flange 19-2 of the pouring mould to be in contact with the first V-shaped clamping plate 6-1 and the second V-shaped clamping plate 6-2; then, starting the motor 17, driving the moving platform 15 to move by the motor 17, so as to drive the second V-shaped clamping plate 6-2 to approach to one side of the first V-shaped clamping plate 6-1, and gradually clamping the casting mold cylinder 19-1; then, the epoxy sleeve casting mold and the hoisting equipment are disconnected, the pressing blocks 10 of the two pressing plate assemblies are pressed on the top surface of the flange 19-2 of the casting mold, the epoxy sleeve casting mold can be clamped and pressed, the operation is simple, safety and reliability are realized, and then, on the turnover device, an operator can manually turn over the epoxy sleeve casting mold, the epoxy sleeve casting mold can rotate around the first rotating shaft 5-1 and the second rotating shaft 5-2, time and labor are saved, the turnover epoxy sleeve casting mold does not need to be moved by multiple persons, the labor cost is saved, and the using effect is good.

The above, only be the utility model discloses a preferred embodiment, it is not right the utility model discloses do any restriction, all according to the utility model discloses the technical entity all still belongs to any simple modification, change and the equivalent structure change of doing above embodiment the utility model discloses technical scheme's within the scope of protection.

Claims (6)

1. The utility model provides an epoxy sleeve pours mould turning device which characterized in that: comprises a frame body, a clamping mechanism arranged on the frame body and used for clamping a casting die cylinder (19-1) and a pressing mechanism connected with the clamping mechanism and used for pressing a casting die flange (19-2), wherein the clamping mechanism comprises a fixed clamping component fixedly arranged on the frame body and a movable clamping component matched with the fixed clamping component, the frame body comprises a support frame, a first fixing plate (2) and a second fixing plate (3) which are horizontally arranged at the top end of the support frame, the fixed clamping component comprises two first bearing seats (4-1) symmetrically arranged on the first fixing plate (2), a first rotating shaft (5-1) rotatably arranged on the two first bearing seats (4-1) and a first V-shaped clamping plate (6-1) fixedly arranged at one end of the first rotating shaft (5-1), the movable clamping assembly comprises a screw rod moving platform fixedly mounted on the second fixing plate (3), two second bearing seats (4-2) symmetrically arranged on the screw rod moving platform, a second rotating shaft (5-2) rotatably mounted on the two second bearing seats (4-2), and a second V-shaped clamping plate (6-2) fixedly mounted at one end of the second rotating shaft (5-2), and the pressing mechanism comprises two pressing plate assemblies respectively arranged at the top end of the first V-shaped clamping plate (6-1) and the top end of the second V-shaped clamping plate (6-2).

2. The epoxy sleeve pouring mold turnover device of claim 1, wherein: the lead screw moving platform comprises a horizontal mounting plate (13) fixedly mounted on the second fixing plate (3), vertical mounting plates (16) vertically mounted at two ends of the horizontal mounting plate (13), a lead screw (18) with two ends respectively rotatably mounted on the two vertical mounting plates (16) and a moving platform (15) matched with the lead screw (18), wherein a nut seat (15-1) matched with the lead screw (18) is arranged at the bottom of the moving platform (15).

3. The epoxy sleeve pouring mold turnover device of claim 2, wherein: fixed mounting is gone up in horizontal installation board (13) have with moving platform (15) matched with forked tail guide rail (14), forked tail guide rail (14) include bottom plate (14-1) and two symmetries lay half forked tail guide rail (14-2) at bottom plate (14-1).

4. The epoxy sleeve pouring mold turnover device of claim 1, wherein: the pressing plate assembly comprises a fixing rod (7) fixedly mounted at the top end of the first V-shaped clamping plate (6-1) or the top end of the second V-shaped clamping plate (6-2), a U-shaped pressing plate (9) fixedly mounted at the top end of the fixing rod (7) through a first bolt (8), a pressing block (10) hinged to the front end of the U-shaped pressing plate (9) and a cushion block (11) arranged at the rear end of the U-shaped pressing plate (9).

5. The epoxy sleeve pouring mold turnover device of claim 1, wherein: the structure of the first V-shaped clamping plate (6-1) is the same as that of the second V-shaped clamping plate (6-2), the installation height of the first V-shaped clamping plate (6-1) is consistent with that of the second V-shaped clamping plate (6-2), and a plurality of height-adjusting base plates (12) are arranged below the first bearing seat (4-1).

6. The epoxy sleeve pouring mold turnover device of claim 1, wherein: the support frame comprises a bottom rectangular frame (1-1), a first trapezoidal support (1-2) and a second trapezoidal support (1-3) which are vertically arranged on two sides of the bottom rectangular frame (1-1), and a first L-shaped auxiliary support (1-4) and a second L-shaped auxiliary support (1-5) which are fixedly arranged on two sides of the bottom rectangular frame (1-1), wherein a first fixing plate (2) is horizontally lapped on the top end of the first trapezoidal support (1-2) and the top end of the first L-shaped auxiliary support (1-4), and a second fixing plate (3) is horizontally lapped on the top end of the second trapezoidal support (1-3) and the top end of the second L-shaped auxiliary support (1-5).

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