CN210061702U - Glass fiber reinforced plastic elbow pipeline mould - Google Patents

Abstract

The utility model relates to a FRP pipe says and makes equipment technical field, especially relates to a FRP bend pipeline mould, including left return bend and the right return bend that appearance bilateral symmetry set up, form the shape of right angle return bend after left return bend and the mutual concatenation of right return bend, the lateral surface of right angle return bend is 1/4 circular-arcly, and the medial surface is the right angle form, and the looks remote site of left return bend and right return bend is inner port, and the back of the body end mutually of left return bend and right return bend is outer port, and left return bend and right return bend pass through the bolt and can dismantle the connection. The utility model discloses a glass steel elbow pipe mold adopts two half return bends of bilateral symmetry, forms the tubulose glass steel elbow pipe mold of quarter bend after the concatenation, then carries out the winding and the preparation of glass steel pipeline on glass steel elbow pipe mold, forms glass steel elbow pipe after the solidification, demolishs the bolt at last, separately takes out finished product both ends mouth respectively with the mould, dismantles convenient and fast, guarantees product quality.

Description

Glass fiber reinforced plastic elbow pipeline mould

Technical Field

The utility model relates to a FRP pipe says and makes equipment technical field, especially relates to a FRP elbow pipe mould.

Background

The glass fiber reinforced plastic is a fiber reinforced composite plastic and is widely used in various industries, and the pipe fitting made of the glass fiber reinforced plastic has the excellent characteristics of no toxicity, no rust, no odor, no secondary pollution to water quality and no corrosion resistance, and can be used for a long time in the range of-50 ℃ to 80 ℃, so the glass fiber reinforced plastic is widely applied to the water supply and drainage industry; the existing glass fiber reinforced plastic pipeline is generally formed by winding glass fiber on a mould and then curing and demoulding, but when the elbow glass fiber reinforced plastic pipeline is produced, if the glass fiber is wound on the integrally bent mould, the demoulding is difficult or even impossible after the glass fiber reinforced plastic pipeline is formed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the inconvenient technical problem of drawing of patterns in the crooked FRP pipe way production process, the utility model provides a FRP elbow pipe mould adopts split type mould, and the drawing of patterns is convenient, swift.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a glass steel elbow pipe mold, includes left return bend and the right return bend that appearance bilateral symmetry set up, forms the shape of right angle return bend after left return bend and the mutual concatenation of right return bend, and the lateral surface of right angle return bend is 1/4 circular-arcly, and the medial surface is the right angle form, and the looks remote site of left return bend and right return bend is interior port, and the looks back end of left return bend and right return bend is the outer port, and left return bend and right return bend pass through the bolt detachable connection.

Further, specifically, for the convenience of installation and dismantlement, the inside of left return bend is fixed and is set up left base plate, has seted up the bolt mounting hole on the left base plate, the inside fixed right base plate that is provided with of right return bend, the outer side that is close to the right angle return bend on the right return bend inner wall just is close to the fixed connecting block that is provided with of inner port department of right return bend, the threaded blind hole has been seted up on the side of connecting block orientation left base plate, the bolt passes bolt mounting hole and threaded blind hole threaded connection to with left return bend and right return bend zonulae.

In order to facilitate the assembly of the bolt, the bolt insertion direction is consistent with the central axis direction of the outer port of the left elbow pipe, and the direction of the threaded blind hole is matched with the bolt insertion direction.

In order to support the outer end of the glass pipeline, the outer periphery of the outer port of the left elbow is fixedly connected with a left flange edge, and the outer periphery of the outer port of the right elbow is fixedly connected with a right flange edge.

In order to facilitate pre-positioning and quick assembly, a positioning lug is arranged on the inner port of the left elbow, a positioning groove is arranged on the inner port of the right elbow, and the positioning lug and the positioning groove are matched with each other.

In order to facilitate the rotation of the drive elbow pipeline mould, the centre of the left base plate and the one end fixed connection of the left connecting block of L shape, the other end of the left connecting block of L shape is located the outside and fixed connection of left return bend and has the horizontally left pivot, the centre of the right base plate and the one end fixed connection of the right connecting block of L shape, the other end of the right connecting block of L shape is located the outside and fixed connection of right return bend and has the horizontally right pivot, left connecting block of L shape and the setting of the right connecting block bilateral symmetry of L shape, left pivot and right pivot bilateral symmetry set up.

The beneficial effects of the utility model are that, the utility model discloses a glass steel elbow pipeline mould adopts two half return bends of bilateral symmetry, forms the tubulose glass steel elbow pipeline mould of quarter bend after the concatenation, then carries out the winding and the preparation of glass steel pipeline on glass steel elbow pipeline mould, forms glass steel elbow pipeline after the solidification, demolishs the bolt at last, separately takes out finished product both ends mouth from respectively with the mould, dismantles convenient and fast, guarantees product quality.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the glass fiber reinforced plastic elbow pipe mold of the present invention.

Fig. 2 is a schematic view of the three-dimensional structure of the glass fiber reinforced plastic elbow pipe mold of the present invention.

In the figure: 1. the left bent pipe, 11, a left base plate, 12, a left flange edge, 13, a positioning lug, 2, a right bent pipe, 21, a right base plate, 22, a connecting block, 23, a right flange edge, 24, a positioning groove, 3, a bolt, 4, an L-shaped left connecting block and 5, an L-shaped right connecting block.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1 and 2, it is the utility model discloses the preferred embodiment, use visual angle in fig. 1 as an example, but not limited to this, a glass steel elbow pipe mold, left return bend 1 and right return bend 2 including appearance bilateral symmetry setting, form the shape of right angle return bend after left return bend 1 and the mutual concatenation of right return bend 2, the lateral surface of right angle return bend is 1/4 circular-arcly, the medial surface is the right angle form, the looks remote site of left return bend 1 and right return bend 2 is interior port, the looks back end of left return bend 1 and right return bend 2 is the outer port, left return bend 1 and right return bend 2 can dismantle the connection through bolt 3.

The fixed left base plate 11 that sets up in inside of left return bend 1, the bolt mounting hole has been seted up on the left base plate 11, the fixed right base plate 21 that is provided with in 2 inside of right return bend, the outer side that is close to the right angle return bend on the 2 inner walls of right return bend and the fixed connecting block 22 that is provided with of inner port department that is close to right return bend 2, threaded blind hole has been seted up on connecting block 22 towards the side of left base plate 11, bolt 3 passes bolt mounting hole and threaded blind hole threaded connection to with left return bend 1 and 2 zonulae occludens of right. The inserting direction of the bolt 3 is consistent with the central axis direction of the outer port of the left elbow 1, and the direction of the threaded blind hole is matched with the inserting direction of the bolt 3.

The outer periphery of the outer port of the left elbow 1 is fixedly connected with a left flange 12, and the outer periphery of the outer port of the right elbow 2 is fixedly connected with a right flange 23. The inner port of the left elbow 1 is provided with a positioning lug 13, the inner port of the right elbow 2 is provided with a positioning groove 24, and the positioning lug 13 and the positioning groove 24 are matched with each other. The centre of left base plate 11 and the one end fixed connection of L shape left connecting block 4, the other end of L shape left connecting block 4 is located 1 outside of left return bend and fixed connection has the horizontally axle of turning left, the centre of right base plate 21 and the one end fixed connection of L shape right connecting block 5, the other end of L shape right connecting block 5 is located 2 outside of right return bend and fixed connection has the horizontally right pivot, L shape left connecting block 4 and the setting of L shape right connecting block 5 bilateral symmetry, left side pivot and right pivot bilateral symmetry set up.

When in use, the inner ports of the left elbow 1 and the right elbow 2 are spliced oppositely, the positioning lug 13 is inserted into the positioning groove 24, the positioning is rapid and accurate, the bolt 3 passes through the bolt mounting hole and the threaded blind hole for threaded connection (the bolt 3 is tightened), so that the right elbow is formed after the left elbow 1 and the right elbow 2 are fixedly connected, the joint of the left elbow 1 and the right elbow 2 is just a half of the division of the right elbow, the left rotating shaft and the right rotating shaft are arranged in bilateral symmetry and are coaxial and are horizontally arranged, the left rotating shaft and the right rotating shaft are respectively connected to a mechanism (an external synchronous driving mechanism) which synchronously rotates to drive the right elbow mold to rotate for winding the glass fiber, after the winding is finished, the glass fiber outside the mold is cured and molded, finally, the bolt 3 is loosened, the left elbow 1 and the right elbow 2 are separated and are respectively taken out from two ports of a finished product, the disassembly is convenient and quick, and the product quality is ensured.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides a glass steel elbow pipe mold which characterized in that: including left return bend (1) and right return bend (2) that appearance bilateral symmetry set up, form the shape of right angle return bend after left return bend (1) and right return bend (2) splice each other, the lateral surface of right angle return bend is 1/4 circular-arcly, the medial surface is the right angle form, the looks remote site of left return bend (1) and right return bend (2) is interior port, the end of carrying on the back mutually of left return bend (1) and right return bend (2) is outer port, left return bend (1) and right return bend (2) can dismantle the connection through bolt (3).

2. The glass reinforced plastic elbow conduit die of claim 1, wherein: the fixed left base plate (11) that sets up in inside of left side return bend (1), the bolt mounting hole has been seted up on left base plate (11), right side return bend (2) inside fixed right base plate (21) that is provided with, the fixed connecting block (22) that is provided with of inner port department that is close to right bend (2) and is close to right bend (2) on right return bend (2) inner wall, threaded blind hole has been seted up on connecting block (22) the side towards left base plate (11), bolt (3) pass bolt mounting hole and threaded blind hole threaded connection, and with left return bend (1) and right return bend (2) zonulae occludens.

3. The glass reinforced plastic elbow conduit die of claim 2, wherein: the bolt (3) inserting direction is consistent with the central axis direction of the outer port of the left elbow (1), and the direction of the threaded blind hole is matched with the bolt (3) inserting direction.

4. The glass reinforced plastic elbow conduit die of claim 1, wherein: the outer port periphery fixedly connected with left flange limit (12) of left return bend (1), the outer port periphery fixedly connected with right flange limit (23) of right return bend (2).

5. The glass reinforced plastic elbow conduit die of claim 1, wherein: the inner port of the left elbow (1) is provided with a positioning lug (13), the inner port of the right elbow (2) is provided with a positioning groove (24), and the positioning lug (13) and the positioning groove (24) are matched with each other.

6. The glass reinforced plastic elbow conduit die of claim 2, wherein: the centre of left side base plate (11) and the one end fixed connection of L shape left connecting block (4), the other end of L shape left connecting block (4) is located left return bend (1) outside and fixed connection has horizontally left pivot, the centre of right side base plate (21) and the one end fixed connection of L shape right connecting block (5), the other end of L shape right connecting block (5) is located right return bend (2) outside and fixed connection has horizontally right pivot, L shape left connecting block (4) and L shape right connecting block (5) bilateral symmetry set up, left pivot and right pivot bilateral symmetry set up.

Images