CN211250017U

CN211250017U - Movable suspension insulator placing frame structure

Info

Publication number: CN211250017U
Application number: CN201922465218.5U
Authority: CN
Inventors: 何林; 张旭; 唐俊辉; 刘俊林; 谭礼雄; 王炜; 张柳青
Original assignee: PowerChina Guizhou Electric Power Engineering Co Ltd
Current assignee: PowerChina Guizhou Electric Power Engineering Co Ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-08-14
Anticipated expiration: 2029-12-31

Abstract

The utility model discloses a mobilizable suspension insulator puts a structure, it includes the insulator body, the insulator includes the insulator to and set up flange gold utensil and the wire clamping groove at the insulator both ends, the end of flange gold utensil is the flange structure that expands outward, the flange gold utensil of insulator one end hangs the insulator on putting the frame through the connector, and the wire clamping groove of the insulator other end is fixed on the base of putting the frame. The placing frame is composed of a base, a stand column, a fixed beam and a suspension beam, a wire clamping groove is fixed on the base, an inverted T-shaped chute is arranged at the bottom of the suspension beam, a connector is fixed in the chute, and the connector is fixed by a U-shaped bolt. The bottom of base is provided with the gyro wheel, conveniently transports the insulator to the installation place from placing the place at the construction place. The stand and the fixed beam use the industry aluminum product of indent on four sides for put the demand that the frame can be applicable to the insulator of different specifications size and place.

Description

Movable suspension insulator placing frame structure

Technical Field

The utility model belongs to put the frame field, especially, relate to a frame structure is put to mobilizable suspension insulator.

Background

The suspension insulator is an important device for suspending a wire and insulating an iron tower, and is an important guarantee for the safe operation of a power transmission line. Suspension insulators are generally made of insulating elements (such as porcelain elements, glass elements) and metal accessories (such as steel feet, iron caps, flanges, etc.) glued with glue or mechanically clamped. The insulating piece is made of ceramic or glass materials, belongs to fragile articles and is easy to damage during carrying or stacking. The current method for protecting the insulator of the suspension insulator is as follows: the surface of the insulator is wrapped by soft materials, and then the suspension insulator is placed in a pallet or a basket for transportation. On the construction site, the suspension insulator is directly placed on the ground and stacked, and the suspension insulator can easily fall off when being taken, so that the insulator is damaged. When the suspension insulator is needed to be used, workers are needed to carry the suspension insulator to the erection site one by one, time and labor are wasted, and the transportation process is easy to damage.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the utility model provides a frame structure is put to mobilizable suspension insulator to solve current suspension insulator and put and cause the insulator to damage easily in construction site, when carrying moreover, waste time and energy, and the problem of breaking suspension insulator easily.

The technical scheme of the utility model is that:

a movable suspension insulator placing frame structure comprises an insulator body, wherein the insulator body comprises an insulator, a flange fitting and a wire clamping groove, the flange fitting and the wire clamping groove are arranged at two ends of the insulator body, the end head of the flange fitting is of an outward-expanding flange structure, the flange fitting at one end of the insulator suspends the insulator on a placing frame through a connector, and the wire clamping groove at the other end of the insulator is fixed at the bottom of the placing frame; the placing frame comprises a base, an upright post, a fixed beam and a suspension beam; the wire clamping groove is fixed on the base; the base is of a rectangular structure, and four upright posts are vertically fixed at the vertex angles of the base; a fixed beam is fixedly connected between the two upright posts positioned on the short edge of the base; suspension beams are fixedly connected between the fixed beams at the two ends of the base; the bottom of hanging beam is provided with the spout of type of falling T, and the spout internal fixation has the connector.

When the wire clamping and hanging bracket is used, the connector is clamped on a flange hardware fitting of an insulator, the connector is hung in a sliding groove in the bottom of a hanging beam, and a wire clamping groove of the insulator is fixed on a base of the placing bracket.

The connector is of a U-shaped groove structure; a boss structure with a wide upper part and a narrow lower part is arranged on the inner surface of the U-shaped groove along the axial direction of the connector and used for clamping the flange hardware fitting; the top of connector is provided with the joint spare of T font, and the joint spare is installed in the spout of suspension beam bottom.

A door lock is arranged at the opening of the U-shaped groove of the connector; when the flange hardware is clamped in the U-shaped groove, the opening of the U-shaped groove is blocked by the door lock.

The upright posts and the fixed beams are made of industrial aluminum materials with concave four sides.

Bolt holes are formed in the side edges of the suspension beams, and U-shaped bolts penetrate through the bolt holes to fix the flange hardware fittings in the sliding grooves in the bottoms of the suspension beams.

The distance between two adjacent bolt holes on the suspension beam is larger than the outer diameter of the insulator.

The bottom of the base is provided with rollers.

And the top of the suspension beam is provided with a groove corresponding to the position of the bolt hole.

An operation method of a movable suspension insulator placing frame structure comprises the following steps:

step 1, clamping a connector on a flange hardware fitting;

step 2, holding the connector by hand, lifting the insulator integrally, hanging the insulator on a hanging beam in a placing frame, and ensuring that a wire clamping groove of the insulator is clamped in a groove of the base;

step 3, a U-shaped bolt penetrates through a bolt hole in the suspension beam, and the flange hardware fitting is fixed in the suspension beam;

and 4, transporting the placing frame with the insulator placed to an installation place, taking out the insulator and carrying out installation operation.

Further, the method for taking out the insulator in the step 4 comprises the following steps:

step 5, taking out the U-shaped bolt from the suspension beam, dragging the connector to take out the insulator from the suspension beam integrally;

and 6, pulling the door lock open, and taking the connector out of the flange hardware fitting.

The utility model has the advantages that:

the utility model discloses a mobilizable suspension insulator puts a structure hangs the insulator on putting the frame through the connector to fix the insulator on putting the frame through base, the U type bolt of putting the frame, reduced the insulator greatly and carried and the damage that the in-process caused. Simultaneously, the insulators can be quickly conveyed to an installation place when the insulators need to be installed on a construction site through the rollers installed at the bottom of the base. Meanwhile, the problem that the insulator is broken when the insulator is carried by a manual carrying team in the traditional method is avoided. Furthermore, the utility model discloses a stand and the fixed beam of putting the frame all use the industry aluminum product of four sides indent, can adjust the height, the width and the insulator of putting the frame according to the size of insulator and put the number of piles for put the demand that the frame can be applicable to the insulator of different specification sizes and put.

Drawings

Fig. 1 is a schematic view of an assembly structure of the present invention;

FIG. 2 is a schematic view of the structure of the connection head of the present invention;

fig. 3 is a schematic view of the assembly of the insulator and the connector of the present invention;

fig. 4 is a schematic structural view of the suspension beam of the present invention;

fig. 5 is a schematic view of the U-shaped plug structure of the present invention.

Detailed Description

As shown in fig. 3, the insulator 4 is suspended in the rack 1, the insulator 4 includes an insulator 42 located in the middle, and a flange fitting 41 and a wire clamping groove 43 disposed at two ends of the insulator 42, wherein the end of the flange fitting 41 is an outward-extending flange structure.

As shown in fig. 1 and 2, the holding frame 1 is composed of a base 11, a column 12, a fixed beam 13 and a suspension beam 14; the base 11 is of a rectangular structure, and four upright posts 12 are vertically fixed at the vertex angles of the base; a fixed beam 13 is fixedly connected between the two upright posts 12 positioned on the short side of the base 11; suspension beams 14 are fixedly connected between the fixed beams 13 at the two ends of the base 11; the bottom of the suspension beam 14 is provided with an inverted T-shaped chute, and a connector 3 is fixed in the chute. The flange hardware 41 at one end of the insulator 4 suspends the insulator 4 on the placing frame 1 through the connector 3; the surface of the base 11 is provided with a groove, and the wire clamping groove 43 at the other end of the insulator 4 is fixed on the base 11.

Further, the upright post 12 and the fixed beam 13 are made of industrial aluminum materials with concave four sides, so that the height of the fixed beam 13 on the upright post 12 can be adjusted, and the placing requirements of insulators 4 of different types and sizes can be met. Meanwhile, the number of the placing layers of the insulators 4 can be increased or reduced according to the height of the insulators 4 and the use requirements, and the practicability of the placing frame 1 is improved.

Preferably, the upright post 12 and the fixed beam 13 are made of industrial aluminum profiles GB5050L-8 provided by Wuxi aluminum profiles Co.

As shown in fig. 2, the connector 3 is a U-shaped groove structure; a boss structure with a wide upper part and a narrow lower part is arranged in the U-shaped groove along the axial direction of the connector and used for clamping the flange hardware 41; the top of connector 3 is provided with the joint 31 of the T font the same with hanging beam bottom spout shape, and joint 31 installs in the spout of hanging beam 14 bottom. Since the ends of the flange fittings 41 of most insulators 4 are located inside the insulators 42, before the insulators 4 are hung on the shelf 1, the flange fittings of the insulators 4 must be clamped by using the connectors, and then the insulators 4 are integrally hung on the shelf 1.

A door lock 32 is arranged at an opening of the U-shaped groove of the connector 3, and the door lock 32 is a spring door lock; when the flange fittings 41 are clamped in the U-shaped groove, the door lock 32 blocks the opening of the U-shaped groove. When the connector 3 is clamped with the flange hardware fitting 41, the door lock 32 is ejected by the flange hardware fitting 41, and the flange hardware fitting 41 enters the U-shaped groove of the connector 3. Subsequently, the door lock 32 returns to the original position to lock the flange hardware 41 in the connector 3, so as to prevent the insulator 4 body from sliding down from the connector 3.

As shown in fig. 4 and 5, a bolt hole 15 is formed in a side edge of the suspension beam 14, and the U-shaped bolt 2 penetrates through the bolt hole 15 to fix the flange fitting 41 in the sliding groove at the bottom of the suspension beam 14. Further, the distance between two adjacent pin holes 15 on the suspension beam 14 is greater than the outer diameter of the insulator 42, so that the insulators 4 are prevented from colliding with each other when the insulators 4 are suspended on the placement frame 1, and further the insulators 4 are prevented from being damaged. Meanwhile, the insulator 4 can be prevented from falling off due to the shaking of the placing frame 1 in the carrying process.

The bottom of base 11 is provided with gyro wheel 5, when insulator 4 is installed to needs, only need put frame 1 from place promote the installation place can for the transport of insulator 4 labour saving and time saving more has avoided the condition emergence that traditional insulator 4 that causes using artifical transport breaks moreover.

As shown in fig. 4, the top of the suspension beam 14 is provided with a groove 16 corresponding to the position of the pin hole 15, and when the placement frame 1 needs to increase the number of the insulator 4 placement layers, the suspension beam 14 at the next layer fixes the wire clamping groove 43 of the insulator 4 at the previous layer through the groove 16 at the top.

step 1, clamping the connector 3 on a flange hardware fitting 41;

step 2, holding the connector 3 by hand, lifting the insulator 4 integrally, hanging the insulator on the suspension beam 14 in the placing frame 1, and ensuring that the wire clamping groove 43 of the insulator 4 is clamped in the groove of the base 11;

step 3, the U-shaped bolt 2 penetrates through a bolt hole 15 in the suspension beam 14, and the flange hardware fitting 41 is fixed in the suspension beam 14;

and 4, transporting the placing frame 1 with the insulator 4 placed to an installation place, taking out the insulator 4 and carrying out installation operation.

Further, the method for taking out the insulator 4 in the step 4 comprises the following steps:

step 5, taking out the U-shaped bolt 2 from the suspension beam 14, and dragging the connector 3 to take out the insulator 4 integrally from the suspension beam 14;

and 6, opening the door lock 32, and taking the connector 3 out of the flange hardware fitting 41.

Claims

1. The utility model provides a mobilizable suspension insulator puts frame structure, it includes insulator (4) body, insulator (4) include insulator (42) to and set up flange gold utensil (41) and wire clamping groove (43) at insulator (42) both ends, the end of flange gold utensil (41) is the flange structure that expands outward, its characterized in that: the flange hardware (41) at one end of the insulator (4) suspends the insulator (4) on the placing frame (1) through the connector (3), and the wire clamping groove (43) at the other end of the insulator (4) is fixed at the bottom of the placing frame (1); the placing frame (1) comprises a base (11), a stand column (12), a fixed beam (13) and a suspension beam (14); the wire clamping groove (43) is fixed on the base (11); the base (11) is of a rectangular structure, and four upright posts (12) are vertically fixed at the top corners of the base; a fixed beam (13) is fixedly connected between the two upright posts (12) positioned on the short side of the base (11); suspension beams (14) are fixedly connected between the fixed beams (13) at the two ends of the base (11); the bottom of the suspension beam (14) is provided with an inverted T-shaped chute, and a connector (3) is fixed in the chute.

2. The movable suspension insulator placement frame structure according to claim 1, wherein: the connector (3) is of a U-shaped groove structure; a boss structure with a wide upper part and a narrow lower part is arranged in the U-shaped groove along the axial direction of the connector and used for clamping the flange hardware (41); the top of connector (3) is provided with the joint spare (31) of the T font the same with hanging beam (14) bottom shape, and joint spare (31) are installed in the spout of hanging beam (14) bottom.

3. The movable suspension insulator placement frame structure according to claim 1 or 2, wherein: a door lock (32) is arranged at the opening of the U-shaped groove of the connector (3); when the flange hardware (41) is clamped in the U-shaped groove, the door lock (32) blocks the opening of the U-shaped groove.

4. The movable suspension insulator placement frame structure according to claim 1, wherein: the upright posts (12) and the fixed beams (13) are made of industrial aluminum materials with concave four sides.

5. The movable suspension insulator placement frame structure according to claim 1, wherein: bolt holes (15) are formed in the side edges of the suspension beams (14), and the U-shaped bolts (2) penetrate through the bolt holes (15) to fix the flange fittings (41) in the sliding grooves in the bottoms of the suspension beams (14).

6. The movable suspension insulator placement frame structure according to claim 1 or 5, wherein: the distance between two adjacent bolt holes (15) on the suspension beam (14) is larger than the outer diameter of the insulator (42).

7. The movable suspension insulator placement frame structure according to claim 1, wherein: the bottom of the base (11) is provided with a roller (5).

8. The movable suspension insulator placement frame structure according to claim 1 or 5, wherein: the top of the suspension beam (14) is provided with a groove (16) corresponding to the position of the bolt hole (15).