CN220784556U - Epoxy glass fiber tube mold - Google Patents

Abstract

The utility model relates to the technical field of epoxy glass fiber tube dies and discloses an epoxy glass fiber tube die which comprises a vacuumizing pipeline interface, a gum pipeline interface arranged on one side of the vacuumizing pipeline interface and a connecting component arranged between the vacuumizing pipeline interface and the gum pipeline interface, wherein the connecting component comprises a glass fiber tube die component arranged on one side of the vacuumizing pipeline interface, one side of the vacuumizing pipeline interface is provided with a dismounting mechanism, the vacuumizing pipeline interface is connected with a connecting flange through threads, the outer wall of the glass fiber tube is attached to the inner wall of the connecting flange, the outer wall of the glass fiber tube is arranged with the connecting flange in a sealing manner through a rubber sealing ring, and the second connecting block is fixedly connected with a fixing plate. The utility model solves the problems that most of the existing metal molds are heavy in weight, the inner and outer surfaces of the metal molds are rough, and secondary processing is needed.

Description

Epoxy glass fiber tube mold

Technical Field

The utility model relates to the technical field of epoxy glass fiber tube molds, in particular to an epoxy glass fiber tube mold.

Background

The epoxy glass fiber tube is formed by immersing electrical alkali-free glass fiber cloth in epoxy resin, baking and hot-pressing in a forming die, and the cross section of the epoxy glass fiber cloth is in a shape of a round rod, and the round rod has high mechanical property, dielectric property and good mechanical processability, is not only suitable for being used as an insulating structural part in electrical equipment, can be used under the humid environment condition and in transformer oil, but also has the characteristics of ageing resistance, high temperature resistance, corrosion resistance and the like, so that the epoxy glass fiber tube has wide application in industries such as petroleum, electric power, chemical industry, papermaking, urban water supply and drainage, factory sewage treatment, sea water desalination, gas transportation and the like.

Most of existing art products need to be used in the manufacturing process, but most of existing metal molds are heavy in weight, and the inner and outer surfaces of the metal molds are rough and need to be processed for the second time.

For this purpose, we propose an epoxy fiberglass tube mold to solve the problem.

Disclosure of Invention

The utility model aims to provide an epoxy glass fiber tube die which solves the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an epoxy glass fiber tube mold comprises a vacuumizing pipeline interface;

the gum pipeline interface is arranged at one side of the vacuumizing pipeline interface;

and the connecting component is arranged between the vacuumizing pipeline interface and the gum pipeline interface and comprises a glass fiber tube die component arranged at one side of the vacuumizing pipeline interface, and a disassembly and assembly mechanism is arranged at one side of the vacuumizing pipeline interface.

Preferably, the glass fiber tube mold assembly comprises a connecting flange which is communicated with one side of a vacuumizing pipeline interface, a glass fiber tube is arranged on one side of the connecting flange, a rubber sealing ring is arranged on the inner wall of the connecting flange, a first fixing block is fixedly connected to the outer wall of the connecting flange, a bidirectional threaded rod is connected to the first fixing block through rotation of a bearing, a first connecting block is connected to the outer wall of the bidirectional threaded rod in a threaded manner, a fixing plate is fixedly connected to the outer wall of the first connecting block, an anti-skid pad is fixedly connected to the inner wall of the fixing plate, a rotating rod is fixedly connected to one end of the bidirectional threaded rod, a second fixing block is fixedly connected to one side of the connecting flange, a limiting rod is fixedly connected to the second fixing block, and a second connecting block is connected to the outer wall of the limiting rod in a sliding manner.

Preferably, the dismounting mechanism comprises a chute arranged on the outer wall of the connecting flange, the inner wall of the chute is fixedly connected with a sliding rod, the outer wall of the sliding rod is slidably connected with a mounting block, the mounting block is slidably connected with a clamping rod, the top end of the clamping rod is fixedly connected with a spring, a first clamping groove is arranged on the outer wall of the rubber sealing ring, the inner wall of the first clamping groove is fixedly connected with a magnet, and the inner wall of the chute is provided with a second clamping groove.

Preferably, the vacuumizing pipeline interface is in threaded connection with the connecting flange, the outer wall of the glass fiber tube is attached to the inner wall of the connecting flange, the outer wall of the glass fiber tube is in sealing arrangement with the connecting flange through the rubber sealing ring, and the weight of the vacuumizing pipeline interface is reduced by matching of the connecting flange, the glass fiber tube and the rubber sealing ring compared with that of a conventionally used metal die, the inner surface and the outer surface of the die are smooth, secondary machining is not needed, and machining cost and machining time are saved.

Preferably, the second connecting block is fixedly connected with the fixed plate, and through the cooperation of two-way threaded rod, first connecting block, second connecting block, fixed plate, gag lever post, can make the connection relation of evacuation pipeline interface and flange more stable, the difficult smooth silk phenomenon that appears can make the evacuation pipeline interface be difficult for taking place to slide after fixed through setting up the slipmat to can make the fixed effect of evacuation pipeline interface better.

Preferably, the spring is close to flange one end and installation piece fixed connection, the joint pole activity runs through in flange and first draw-in groove joint setting, through the cooperation of spring, first draw-in groove, slide bar, joint pole, installation piece, is convenient for the manual work dismantles rubber seal to make things convenient for the manual work to change rubber seal, and then make the sealed effect of mould better.

Preferably, the clamping rod is matched with the second clamping groove, the clamping rod is made of an iron material, the clamping rod can be fixed at a position far away from the first clamping groove through the second clamping groove, so that a user can make the hand free, the assembly and disassembly operations can be more conveniently carried out manually, the clamping effect of the clamping rod and the first clamping groove is better under the action of the attraction force through the magnet, and the fixing effect of the rubber sealing ring is better.

The utility model provides an epoxy glass fiber tube mold. The epoxy glass fiber tube die has the following beneficial effects:

(1) According to the epoxy glass fiber tube mold, by arranging the glass fiber tube mold assembly, under the action of the connecting flange, the glass fiber tube and the rubber sealing ring, the weight of the epoxy glass fiber tube mold is reduced greatly compared with that of a conventionally used metal mold, the inner surface and the outer surface of the mold are smooth, secondary machining is not needed, the machining cost and the machining time are saved, and under the action of the bidirectional threaded rod, the first connecting block, the second connecting block, the fixing plate and the limiting rod, the connection relation between the vacuumizing pipeline interface and the connecting flange is more stable, and the phenomenon of sliding wires is not easy to occur;

(2) This epoxy glass fiber tube mould through setting up dismouting mechanism, under the effect of spring, first draw-in groove, slide bar, clamping pole, installation piece, is convenient for the manual work dismantles rubber seal, thereby makes things convenient for the manual work to change rubber seal, and then makes the sealed effect of mould better.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a glass fiber tube mold assembly according to the present utility model;

FIG. 3 is a schematic view of a part of a glass fiber tube mold assembly according to the present utility model;

FIG. 4 is a schematic view of the assembly and disassembly mechanism of the present utility model;

in the figure: 1. a vacuumizing pipeline connector; 2. a gum line interface; 3. a connection assembly; 31. a glass fiber tube mold assembly; 311. a connecting flange; 312. a glass fiber tube; 313. a rubber seal ring; 314. a first fixed block; 315. a two-way threaded rod; 316. a first connection block; 317. a rotating rod; 318. a fixing plate; 319. an anti-slip pad; 3110. a second fixed block; 3111. a limit rod; 3112. a second connection block; 32. a disassembly and assembly mechanism; 321. a chute; 322. a slide bar; 323. a mounting block; 324. a clamping rod; 325. a spring; 326. a first clamping groove; 327. a second clamping groove; 328. and (3) a magnet.

Detailed Description

For a clearer understanding of technical features, objects, and effects of the present utility model, a specific embodiment of the present utility model will be described with reference to the accompanying drawings.

Example 1

As shown in fig. 1-4, the present utility model provides a technical solution: the utility model provides an epoxy glass fiber tube mould, including evacuation pipeline interface 1, the gum pipeline interface 2 of setting in evacuation pipeline interface 1 one side, and set up the coupling assembling 3 between evacuation pipeline interface 1 and gum pipeline interface 2, coupling assembling 3 is including setting up the glass fiber tube mould subassembly 31 in evacuation pipeline interface 1 one side, evacuation pipeline interface 1 one side is provided with dismouting mechanism 32, glass fiber tube mould subassembly 31 is including the intercommunication setting at the flange 311 in evacuation pipeline interface 1 one side, flange 311 one side is provided with glass fiber tube 312, flange 311 inner wall is provided with rubber seal 313, flange 311 outer wall fixedly connected with first fixed block 314, first fixed block 314 is connected with bi-directional threaded rod 315 through the bearing rotation, bi-directional threaded rod 315 outer wall threaded connection has first connecting block 316, first connecting block 316 outer wall fixedly connected with fixed plate 318, fixed plate 318 inner wall fixedly connected with slipmat 319, bi-directional threaded rod 315 one end fixedly connected with bull stick 317, flange 311 one side fixedly connected with second fixed block 3110, second fixed block 3110 fixedly connected with spacing rod 3111, spacing rod 3111 outer wall 3112 slidingly connected with second connecting block 3112.

In this embodiment, the vacuumizing pipe interface 1 is in threaded connection with the connecting flange 311, the outer wall of the glass fiber pipe 312 is attached to the inner wall of the connecting flange 311, the outer wall of the glass fiber pipe 312 is in sealing arrangement with the connecting flange 311 through the rubber sealing rings 313, the number of the connecting flanges 311 is two, the connecting flanges are symmetrically distributed on two sides of the glass fiber pipe 312, and the weight of the vacuumizing pipe interface is greatly reduced compared with that of a conventionally used metal mold through the cooperation of the connecting flange 311, the glass fiber pipe 312 and the rubber sealing rings 313, the inner surface and the outer surface of the mold are smooth, secondary machining is not needed, and the machining cost and the machining man-hour are saved.

Further, the second connecting block 3112 is fixedly connected with the fixing plate 318, and through the cooperation of the bidirectional threaded rod 315, the first connecting block 316, the second connecting block 3112, the fixing plate 318 and the limiting rod 3111, the connection relationship between the vacuumizing pipeline interface 1 and the connecting flange 311 is more stable, the phenomenon of sliding wire is not easy to occur, and the vacuumizing pipeline interface 1 is not easy to slide after being fixed through the anti-sliding pad 319, so that the fixing effect of the vacuumizing pipeline interface 1 is better.

After the vacuumizing pipeline interface 1 and the gum pipeline interface 2 are respectively in threaded connection with the connecting flange 311, the rotating rod 317 is rotated clockwise by manpower to drive the bidirectional threaded rod 315 to rotate, under the cooperation of the limiting rod 3111 and the second connecting block 3112, the limiting effect can be achieved, and the first connecting block 316 is in threaded connection with the outer wall of the bidirectional threaded rod 315, so that the fixing plate 318 can move towards the middle, and the vacuumizing pipeline interface 1 and the gum pipeline interface 2 can be further fixed, so that the connection relation among the vacuumizing pipeline interface 1, the gum pipeline interface 2 and the connecting flange 311 is more stable, and meanwhile, the equipment is lighter than the existing metal mold.

Example 2

On the basis of embodiment 1, a preferred embodiment of an epoxy glass fiber tube mold provided by the utility model is shown in fig. 1 to 4: the dismounting mechanism 32 comprises a sliding groove 321 formed in the outer wall of the connecting flange 311, the inner wall of the groove is fixedly connected with a sliding rod 322, the outer wall of the sliding rod 322 is slidably connected with a mounting block 323, the mounting block 323 is slidably connected with a clamping rod 324, the top end of the clamping rod 324 is fixedly connected with a spring 325, a first clamping groove 326 is formed in the outer wall of the rubber sealing ring 313, the inner wall of the first clamping groove 326 is fixedly connected with a magnet 328, and a second clamping groove 327 is formed in the inner wall of the sliding groove 321.

In this embodiment, the spring 325 is close to one end of the connection flange 311 and fixedly connected with the mounting block 323, the clamping rod 324 movably penetrates through the connection flange 311 and is clamped with the first clamping groove 326, and the rubber sealing ring 313 is convenient to be disassembled manually through the cooperation of the spring 325, the first clamping groove 326, the sliding rod 322, the clamping rod 324 and the mounting block 323, so that the rubber sealing ring 313 is convenient to be replaced manually, and the sealing effect of the die is better.

Further, the clamping rod 324 is matched with the second clamping groove 327, the clamping rod 324 is made of an iron material, the clamping rod 324 can be fixed at a position far away from the first clamping groove 326 through the second clamping groove 327, so that a user can free hands, the assembly and disassembly operations can be conveniently performed manually, the clamping rod 324 and the first clamping groove 326 can be better in clamping effect under the action of the attraction force through the magnet 328, and the fixing effect of the rubber sealing ring 313 is better.

When dismantling rubber seal 313, at first through the manual work with evacuation pipeline interface 1, gum pipeline interface 2 respectively with flange 311 separation, later through artifical upwards pulling clamping rod 324, when clamping rod 324 upwards moves into inside the installation piece 323, through artifical pushing right clamping rod 324, because clamping rod 324 and installation piece 323 sliding connection, thereby can make installation piece 323 and clamping rod 324 synchronous movement, when installation piece 323 moves to the end to the right, through artifical unclamping clamping rod 324, under the effect of elasticity through spring 325, can make clamping rod 324 and second draw-in groove 327 joint setting, later alright outwards take out rubber seal 313 through the manual work, the simple operation is convenient.

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

Claims (7)

1. An epoxy glass fiber tube mold comprises a vacuumizing pipeline interface (1);

a gum pipeline interface (2) arranged at one side of the vacuumizing pipeline interface (1);

and a connecting component (3) arranged between the vacuumizing pipeline interface (1) and the gum pipeline interface (2), and is characterized in that: the connecting assembly (3) comprises a glass fiber tube die assembly (31) arranged on one side of the vacuumizing pipeline interface (1), and a disassembling and assembling mechanism (32) is arranged on one side of the vacuumizing pipeline interface (1).

2. An epoxy fiberglass tube mold as in claim 1, wherein: the glass fiber tube mold assembly (31) comprises a connecting flange (311) which is communicated with one side of a vacuumizing pipeline interface (1), a glass fiber tube (312) is arranged on one side of the connecting flange (311), a rubber sealing ring (313) is arranged on the inner wall of the connecting flange (311), a first fixing block (314) is fixedly connected to the outer wall of the connecting flange (311), a bidirectional threaded rod (315) is rotatably connected to the first fixing block (314) through a bearing, a first connecting block (316) is connected to the outer wall of the bidirectional threaded rod (315) through threads, a fixing plate (318) is fixedly connected to the outer wall of the first connecting block (316), an anti-slip pad (319) is fixedly connected to the inner wall of the fixing plate (318), a rotating rod (317) is fixedly connected to one end of the bidirectional threaded rod (315), a second fixing block (3110) is fixedly connected to one side of the connecting flange (311), a limiting rod (3111) is fixedly connected to the second connecting block (3110), and the outer wall of the limiting rod (3111) is slidably connected to the second connecting block (3112).

3. An epoxy fiberglass tube mold as in claim 2, wherein: disassembly and assembly mechanism (32) are including seting up spout (321) at flange (311) outer wall, this inslot wall fixedly connected with slide bar (322), slide bar (322) outer wall sliding connection has installation piece (323), installation piece (323) sliding connection has clamping rod (324), clamping rod (324) top fixedly connected with spring (325), and outer wall at rubber seal (313) is seted up in first draw-in groove (326), first draw-in groove (326) inner wall fixedly connected with magnet (328), second draw-in groove (327) have been seted up to spout (321) inner wall.

4. An epoxy fiberglass tube mold as in claim 2, wherein: the vacuum pumping pipeline connector (1) is connected with the connecting flange (311) through threads, the outer wall of the glass fiber pipe (312) is attached to the inner wall of the connecting flange (311), and the outer wall of the glass fiber pipe (312) is arranged in a sealing mode with the connecting flange (311) through a rubber sealing ring (313).

5. An epoxy fiberglass tube mold as in claim 2, wherein: the second connecting block (3112) is fixedly connected with the fixing plate (318).

6. An epoxy fiberglass tube mold as in claim 3 wherein: one end of the spring (325) close to the connecting flange (311) is fixedly connected with the mounting block (323), and the clamping rod (324) movably penetrates through the connecting flange (311) and is clamped with the first clamping groove (326).

7. An epoxy fiberglass tube mold as in claim 3 wherein: the clamping rod (324) is matched with the second clamping groove (327), and the clamping rod (324) is made of iron material.