CN219994742U - Variable spring hanging bracket with galvanized structure - Google Patents

Abstract

The utility model provides a variable spring hanger bracket with a galvanized structure, which comprises a bottom plate and a shell fixed on the bottom plate; a spring is arranged in the shell; one end of the load column is inserted into the spring, and the top of the load column is connected with the load plate; the upper part of the spring is contacted with an indication plate positioned in the shell; a top plate is fixedly arranged at the top of the cylinder body through locking; one end boss of the indicating plate extends out of the shell, and the upper locking block and the lower locking block are clamped at the upper part and the lower part of the boss of the indicating plate and are fixed by strapping with steel belts; the locking block can be removed only after installation and before use. According to the utility model, the pipeline supporting force is provided by the load plate, and the load column is matched with the spring, so that when the supporting point generates displacement in the vertical direction, the compression value of the spring is changed, the load in the supporting middle frame is changed, and the load moment and the spring moment are always balanced within the load displacement range of the track, so that the stability is improved.

Description

Variable spring hanging bracket with galvanized structure

Technical Field

The utility model relates to the field of spring hanging brackets, in particular to a variable spring hanging bracket with a galvanized structure.

Background

When the supporting point of the pipeline has thermal displacement in the vertical direction, if a rigid supporting and hanging bracket is adopted, the thermal state load of the supporting and hanging point of the upward thermal displacement can be greatly reduced, and even the supporting and hanging point is not suspended forcefully; the downward thermal displacement support point not only bears the transfer load of the upper displacement support hanger, but also bears the pipeline thermal expansion thrust or moment generated by the larger limiting function. At this time, the supporting and hanging frame and the pipeline stress (including the dead weight primary stress and the thermal expansion secondary stress) have corresponding harmful effects. Therefore, a supporting point with vertical thermal displacement is generally selected from a spring supporting and hanging frame except a specially arranged limiting rigid hanging frame.

When the traditional variable spring hanging bracket supports a pipeline, the surface is corrosion-resistant due to the adoption of paint, the corrosion-resistant life of the paint is less, the marine atmosphere resistance and the corrosion environment capability are poor, and meanwhile, the structure adopts a welding and fixing mode, so that the maintenance is not easy, the service life is short, and the engineering progress is influenced.

Disclosure of Invention

In order to solve the problems, the utility model discloses a variable spring hanging bracket with a galvanized structure, which has strong corrosion resistance and environmental capacity, and adopts flange type fixation to improve stability.

A variable spring hanger bracket with a galvanized structure comprises a bottom plate and a shell fixed on the bottom plate; a spring is arranged in the shell; one end of the load column is inserted into the spring, and the top of the load column is connected with the load plate; the upper part of the spring is contacted with an indication plate positioned in the shell; a top plate is fixedly arranged at the top of the shell through locking; one end boss of the indicating plate extends out of the shell, and the upper locking block and the lower locking block are clamped at the upper part and the lower part of the boss of the indicating plate and are fixed by strapping with steel belts; the locking block can be removed only after installation and before use.

The bottom plate, the shell, the spring, the load column, the upper locking block, the lower locking block and the indicating plate are coated with galvanized layers, corrosion resistance is achieved, and the service life is prolonged.

A spring positioning ring is arranged at the bottom of the inner cavity of the shell; the lower end of the spring is sleeved on the spring positioning ring, so that the spring positioning ring is convenient to install and position and provides supporting force for the spring.

Each end of the bottom plate is provided with a mounting groove, so that the later installation is ensured to be fixed on the field device.

The loading plate adopts a common loading plate or a tetrafluoro loading plate or a roller loading plate; common loading plate: only used as a support, has no axial or radial displacement, and is applied to tetrafluoro load plates such as power plants, chemical plant equipment devices, pipeline supports and the like: the polytetrafluoroethylene plate is added on the loading plate, so that the friction coefficient can be reduced, and the polytetrafluoroethylene plate is applied to power plants, chemical plants, petroleum and natural gas equipment devices, pipeline supports and the like; roller loading plate: the ball sliding is added on the loading plate, so that the friction coefficient can be reduced, and the ball sliding device is applied to power plants, chemical plants, petroleum and natural gas equipment devices, pipeline supports and the like.

The top plate is fastened at the top of the shell through a plurality of locking bolts, so that the installation and locking are facilitated.

According to the utility model, the pipeline supporting force is provided by the load plate, and the load column is matched with the spring, so that when the supporting point generates displacement in the vertical direction, the compression value of the spring is changed, the load in the supporting middle frame is changed, and the load moment and the spring moment are always balanced within the load displacement range of the track, so that the stability is improved.

The utility model has the beneficial effects that: the galvanized layer has strong corrosion resistance and environmental capacity, and is fixed by adopting a flange, so that the stability is improved.

Drawings

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

FIG. 2, upper half of the present utility model;

FIG. 3, top view of the base plate;

FIG. 4 is a schematic diagram of a structure employing a roller load plate;

list of reference numerals:

wherein 01-loading plate; 02-a load column; 03-top plate; 04-indicating plate; 05-a spring; 06-upper locking blocks; 07-lower locking block; 10-a housing; 11-a spring retainer ring; 12-a bottom plate.

Detailed Description

The present utility model is further illustrated in the following drawings and detailed description, which are to be understood as being merely illustrative of the utility model and not limiting the scope of the utility model. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

As shown in fig. 1 to 3, a variable spring hanger bracket of a galvanized structure of the present embodiment includes a base plate 12 and a housing 10 fixed to the base plate 12; each end of the base plate 12 is provided with a mounting slot.

A spring 05 is arranged in the shell 10; one end of the load column 02 is inserted into the spring 05 and the top is connected with the load plate 01; the upper part of the spring 05 is in contact with an indicator plate 04 positioned in the housing 10; the top of the shell is fixedly provided with a top plate 03 through locking; the top plate 03 is fastened to the top of the housing 10 by a plurality of locking bolts.

One end boss of the indicating plate 04 extends out of the shell 10, and an upper locking block 06 and a lower locking block 07 are clamped at the upper part and the lower part of the boss of the indicating plate 04 and are fixed by strapping with steel belts; the bottom plate 12, the shell 10, the springs 05, the load columns 02, the upper locking blocks 06 and the lower locking blocks 07 and the indication plate 04 are coated with galvanized layers; the galvanized layer has strong corrosion resistance and environmental resistance.

The bottom of the inner cavity of the shell is provided with a spring positioning ring 11; wherein the lower end of the spring 05 is sleeved on the spring positioning ring 11.

As shown in fig. 4, the loading plate 01 in this embodiment adopts a roller loading plate; thereby reducing friction coefficient and being applied to power plants, chemical plants, petroleum and natural gas equipment, pipeline supports and the like.

According to the utility model, the pipeline supporting force is provided by the load plate, and the load column is matched with the spring, so that when the supporting point generates displacement in the vertical direction, the compression value of the spring is changed, the load in the supporting middle frame is changed, and the load moment and the spring moment are always balanced within the load displacement range of the track, so that the stability is improved.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the embodiment, and also comprises the technical scheme formed by any combination of the technical features.

Claims (5)

1. A variable spring hanger bracket with a galvanized structure comprises a bottom plate (12) and a shell (10) fixed on the bottom plate (12); a spring (05) is arranged in the shell (10); one end of the load column (02) is inserted into the spring (05) and the top is connected with the load plate (01); the method is characterized in that: the upper part of the spring (05) is in contact with an indicator plate (04) positioned in the shell (10); a top plate (03) is fixedly arranged at the top of the shell (10) through locking; one end boss of the indicating plate (04) extends out of the shell (10), and the upper locking block (06) and the lower locking block (07) are clamped at the upper part and the lower part of the boss of the indicating plate (04) and are fixed by strapping with steel belts; the bottom plate (12), the shell (10), the spring (05), the load column (02), the upper locking block (06), the lower locking block (07) and the indicator board (04) are coated with galvanized layers.

2. The variable spring hanger bracket of a galvanized structure according to claim 1, characterized in that: a spring positioning ring (11) is arranged at the bottom of the inner cavity of the shell; wherein the lower end part of the spring (05) is sleeved on the spring positioning ring (11).

3. The variable spring hanger bracket of a galvanized structure according to claim 1, characterized in that: each end of the bottom plate (12) is provided with a mounting groove.

4. The variable spring hanger bracket of a galvanized structure according to claim 1, characterized in that: the loading plate (01) adopts a tetrafluoro loading plate or a roller loading plate.

5. The variable spring hanger bracket of a galvanized structure according to claim 1, characterized in that: the top plate (03) is fastened to the top of the shell (10) through a plurality of locking bolts.