CN216201137U - Heavy pipeline bracket that multiple spot supported - Google Patents

Abstract

The utility model discloses a heavy pipeline bracket supported at multiple points, which comprises: the upper end of the upper fixing plate is provided with a fastening screw in a penetrating mode, the fastening screw and the protective gasket are mutually attached, and the lower end of the upper fixing plate is attached with the protective gasket made of rubber; the fixed reeds are symmetrically arranged on the upper fixed plate, 2 fixed reeds are symmetrically arranged on the center of the connecting rod, and the connecting rod is connected with the connecting plate in a welding mode; the bearing plate is arranged at the lower end of the upper fixing plate, and a limiting plate is attached to the bearing plate. This heavy pipeline bracket that multiple spot supported is through setting up this heavy pipeline bracket into detachable construction to be convenient for transport and place heavy pipeline bracket, and only need use the screwdriver, no longer need use extra instrument to install, convenient and fast more, and set up first backup pad, second backup pad and third backup pad into adjustable mode, thereby be convenient for better and the pipeline laminating.

Description

Heavy pipeline bracket that multiple spot supported

Technical Field

The utility model relates to the technical field of pipeline supports, in particular to a heavy pipeline support supported at multiple points.

Background

The pipeline bracket is used for supporting and fixing the pipeline, different brackets are selected for use due to different purposes of the pipeline, common pipeline brackets are divided into steel structures, brick-wood structures and reinforced concrete structures, the steel structures are used more in life, and problems also exist in the process of using the pipeline bracket of the steel structures.

For example, publication numbers are: CN 208221768U's a heavy pipeline bracket, its simple structure, the cross-section of double-pin channel-section steel is great, the atress is reliable, bending-resistant shear behavior is good, and each parameter of U type channel-section steel is clear and definite, through the atress analysis, can provide safe and reliable effective support to heavy pipeline of heavy bore, the scene only needs the cutting, the concatenation, do not need to adopt welding process, nevertheless when using it, it is fixed to be difficult to realize laminating to the heavy pipeline that the footpath has the difference, and easy only lower extreme and pipeline bracket laminating because of the pipeline diameter is less, thereby influence pipeline bracket's atress.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a heavy pipeline support with multi-point support, which aims to solve the problems that the heavy pipelines with different diameters are difficult to fix and the stress of the pipeline support is easily influenced due to the small diameters of the pipelines in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a multi-point supported heavy duty pipeline rack comprising:

the upper end of the upper fixing plate is provided with a fastening screw in a penetrating mode, the fastening screw and the protective gasket are mutually attached, and the lower end of the upper fixing plate is attached with the protective gasket made of rubber;

the fixed reeds are symmetrically arranged on the upper fixed plate, 2 fixed reeds are symmetrically arranged on the center of the connecting rod, and the connecting rod is connected with the connecting plate in a welding mode;

the bearing plates are arranged at the lower ends of the upper fixing plates, limiting plates are attached to the bearing plates, a lower fixing plate is attached between the two bearing plates, the limiting plates are mounted on the lower fixing plate, and limiting screws are mounted on the limiting plates and the bearing plates through threaded holes;

the movable rod is connected with the fixed sleeve in a sliding manner through a movable sliding block and a groove formed in the fixed sleeve, and a second supporting plate is arranged at the lower end of the movable rod;

preferably, the inside of the receiving plate is further provided with:

the guide rod is mutually attached to the bearing plate through a hole formed in the bearing plate;

the adjusting screw is connected with the bearing plate through a threaded hole formed in the bearing plate and a threaded structure arranged at the upper end of the adjusting screw;

the first supporting plate is symmetrically provided with 2 guide rods about the center, the first supporting plate is connected with the adjusting screw rod through a bearing arranged on the first supporting plate, and the first supporting plate is in sliding connection with the bearing plate through a groove arranged on the bearing plate;

preferably, the lower fixing plate and the rotating screw form a rotating mechanism through a bearing arranged on the lower fixing plate, the right end of the rotating screw is connected with a rotating handle in a welding mode, and the rotating screw is provided with 2 sections of anisotropic thread structures.

Preferably, the sliding plate is externally provided with:

the support rods are arranged at two ends of the sliding plate, the sliding plate is in sliding connection with the lower fixed plate through the strip-shaped grooves formed in the lower fixed plate, the support rods with smooth surfaces are attached to the lower fixed plate, and the sliding plate is connected with the rotating screw rod through the threaded structure formed in the upper end of the sliding plate;

preferably, the support rod is externally provided with:

a third support plate connected to an upper end of the sliding plate, the third support plate being attached to the lower fixing plate;

the protection shield bonds in the upper end of third backup pad, the protection shield sets up to the arc structure of rubber material.

Compared with the prior art, the utility model has the beneficial effects that: according to the heavy pipeline support with the multi-point support, the heavy pipeline support is arranged to be a detachable structure, so that the heavy pipeline support can be conveniently transported and placed, only a screwdriver is needed, no additional tool is needed for installation, the heavy pipeline support is more convenient and faster to use, and the first support plate, the second support plate and the third support plate are arranged to be in an adjustable mode, so that the heavy pipeline support can be better attached to a pipeline;

1. the detachable structure is arranged among the upper fixing plate, the connecting plate and the lower fixing plate, so that the device is convenient to detach and place, space is saved, the device is installed and fixed through the fastening screws, and the installation and detachment processes can be completed only through a screwdriver;

2. realize changing the position of first backup pad through rotating adjusting screw, and through the rotation that rotates the screw rod, change the position of third backup pad and protection shield to make protection shield and first backup pad and the inseparabler laminating of heavy pipeline, carry out the multiple spot support to heavy type pipeline promptly, avoid the local atress of pipe bracket too big.

Drawings

FIG. 1 is a schematic sectional view of a receiving plate according to the present invention;

FIG. 2 is a schematic front view of a third supporting plate according to the present invention;

FIG. 3 is a schematic side view of the cross-sectional structure of FIG. 2 taken along line A-A;

FIG. 4 is a schematic side sectional view of the adjusting screw according to the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 1 according to the present invention.

In the figure: 1. an upper fixing plate; 2. fastening screws; 3. a protective pad; 4. fixing the reed; 5. a connecting rod; 6. a bearing plate; 601. a guide bar; 602. adjusting the screw rod; 603. a first support plate; 7. a limiting plate; 8. a limit screw; 9. a lower fixing plate; 10. fixing the sleeve; 11. a push spring; 12. a travel bar; 13. moving the slide block; 14. a second support plate; 15. a connecting plate; 16. rotating the screw; 17. rotating the handle; 18. a sliding plate; 19. a support bar; 20. a third support plate; 21. and (5) protecting the board.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a multi-point supported heavy duty pipeline rack comprising:

the upper end of the upper fixing plate 1 is provided with a fastening screw 2 in a penetrating manner, the fastening screw 2 and the protective gasket 3 are mutually attached, and the lower end of the upper fixing plate 1 is attached with the protective gasket 3 made of rubber;

the fixed reeds 4 are symmetrically arranged on the upper fixed plate 1, 2 fixed reeds 4 are symmetrically arranged around the center of the connecting rod 5, and the connecting rod 5 is connected with the connecting plate 15 in a welding mode;

the bearing plates 6 are arranged at the lower ends of the upper fixing plates 1, limiting plates 7 are attached to the bearing plates 6, a lower fixing plate 9 is attached between the two bearing plates 6, the limiting plates 7 are mounted on the lower fixing plate 9, and limiting screws 8 are mounted on the limiting plates 7 and the bearing plates 6 through threaded holes;

the fixed sleeves 10 and 2 are symmetrically arranged at the lower end of the connecting plate 15, the pushing springs 11 are arranged in the fixed sleeves 10, the pushing springs 11 are connected with the upper ends of the moving rods 12, the moving rods 12 are in sliding connection with the fixed sleeves 10 through the moving sliding blocks 13 and grooves formed in the fixed sleeves 10, and the second supporting plates 14 are arranged at the lower ends of the moving rods 12;

in this example, the receiving plate 6 is provided with:

the guide rod 601 is mutually attached to the bearing plate 6 through a hole formed in the bearing plate 6;

the adjusting screw 602 is connected with the bearing plate 6 through a threaded structure arranged at the upper end of the adjusting screw and a threaded hole formed in the bearing plate 6;

the first support plate 603 is symmetrically provided with 2 guide rods 601 about the center thereof, the first support plate 603 is connected with the adjusting screw 602 through a bearing arranged on the first support plate 603, the first support plate 603 is in sliding connection with the bearing plate 6 through a groove arranged on the bearing plate 6, and the movement range of the first support plate 603 is conveniently limited through the guide rods 601 through the structure;

the lower fixing plate 9 and the rotating screw 16 form a rotating mechanism through a bearing arranged on the lower fixing plate, the right end of the rotating screw 16 is connected with a rotating handle 17 in a welding mode, and the rotating screw 16 is provided with a 2-section anisotropic thread structure, so that the position of the sliding plate 18 can be changed left and right through the rotation of the rotating screw 16;

the sliding plate 18 is externally provided with:

the support rods 19 are arranged at two ends of the sliding plate 18, the sliding plate 18 is in sliding connection with the lower fixing plate 9 through the strip-shaped grooves formed in the lower fixing plate 9, the support rods 19 with smooth surfaces are attached to the lower fixing plate 9, the sliding plate 18 is mutually connected with the rotating screw 16 through the thread structure formed in the upper end of the sliding plate, and through the structure, the friction force between the lower fixing plate 9 and the support rods 19 can be effectively reduced;

the support rod 19 is also externally provided with:

a third support plate 20 connected to the upper end of the sliding plate 18, the third support plate 20 being attached to the lower fixing plate 9;

the protection shield 21 bonds in the upper end of third backup pad 20, and protection shield 21 sets up the arc structure for the rubber material, through above-mentioned structure, is convenient for make protection shield 21 and the inseparabler laminating of heavy pipeline.

The working principle is as follows: when the device needs to be spliced and installed, as can be seen from fig. 1, 2 and 5, the connecting plate 15 and the lower fixing plate 9 are placed between the two bearing plates 6, then the bearing plates 6 are pushed to move the bearing plates 6 towards the direction close to the connecting plate 15 and the lower fixing plate 9, at this time, the upper-mounted limiting plate 7 mounted on the lower fixing plate 9 is attached to the groove formed on the bearing plate 6, then the limiting screw 8 is rotated to connect the limiting screw 8 with the limiting plate 7 and the threaded hole formed on the bearing plate 6, i.e. the lower fixing plate 9 is fixed on the bearing plate 6, at the same time, the connecting rod 5 is mounted on the connecting plate 15, the fixing spring leaf 4 is mounted on the connecting rod 5, at this time, the fixing spring leaf 4 mounted on the connecting rod 5 and the upper fixing plate 1 mounted on the upper fixing plate 1 are mutually extruded and deformed, i.e. the connecting plate 15 is fixed on the bearing plate 6, then, the fastening screws 2 are rotated to enable the fastening screws 2 to be mutually connected with the wall surface, namely, the upper fixing plate 1 is fixed on the wall surface through the fastening screws 2, and then the heavy pipeline penetrates through the bearing plates 6;

as the heavy pipeline is placed between the bearing plates 6 in fig. 1, the second supporting plate 14 drives the moving rod 12 to move upwards, i.e. the spring 11 is pushed to be compressed and deformed, i.e. the second supporting plate 14 is tightly attached to the upper end of the heavy pipeline, then the rotating handle 17 is rotated, because the rotating handle 17 is connected to the rotating screw 16, the bearing mounted on the lower fixing plate 9 of the rotating screw 16 and the lower fixing plate 9 form a rotating mechanism, so the rotating screw 16 starts to rotate, and because the rotating screw 16 is connected to the sliding plate 18 through the threaded hole formed on the sliding plate 18 and 2 segments of different-direction threads are arranged on the rotating screw 16, as the rotating screw 16 rotates, the sliding plate 18 starts to move in the direction of approaching each other, i.e. the third supporting plate 20 and the protecting plate 21 at both ends move in the direction of approaching each other, i.e. the protecting plate 21 is attached to the lower end of the heavy pipeline, then, the adjusting screw 602 is rotated, because the adjusting screw 602 forms a rotating mechanism with the first supporting plate 603 through a bearing installed on the first supporting plate 603, and the adjusting screw 602 is connected with the receiving plate 6 through a threaded hole formed in the receiving plate 6, at this time, along with the rotation of the adjusting screw 602, the adjusting screw 602 starts to move in a direction close to the receiving plate 6, at this time, the first supporting plate 603 installed on the adjusting screw 602 starts to move in a direction away from the receiving plate 6 until the first supporting plate 603 is attached and fixed to the left and right ends of the heavy pipeline, that is, the heavy pipeline is supported from top to bottom and from left to right, and damage caused by local stress of the device is avoided, which is the working principle of the heavy pipeline support supported at multiple points.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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 (5)

1. A multi-point supported heavy duty pipeline bracket, comprising:

the upper end of the upper fixing plate is provided with a fastening screw in a penetrating mode, the fastening screw and the protective gasket are mutually attached, and the lower end of the upper fixing plate is attached with the protective gasket made of rubber;

the fixed reeds are symmetrically arranged on the upper fixed plate, 2 fixed reeds are symmetrically arranged on the center of the connecting rod, and the connecting rod is connected with the connecting plate in a welding mode;

the bearing plates are arranged at the lower ends of the upper fixing plates, limiting plates are attached to the bearing plates, a lower fixing plate is attached between the two bearing plates, the limiting plates are mounted on the lower fixing plate, and limiting screws are mounted on the limiting plates and the bearing plates through threaded holes;

the movable rod is connected with the fixed sleeve in a sliding mode through a movable sliding block and a groove formed in the fixed sleeve, and a second supporting plate is mounted at the lower end of the movable rod.

2. The multi-point supported heavy duty pipeline bracket of claim 1, wherein said adaptor plate further has disposed therein:

the guide rod is mutually attached to the bearing plate through a hole formed in the bearing plate;

the adjusting screw is connected with the bearing plate through a threaded hole formed in the bearing plate and a threaded structure arranged at the upper end of the adjusting screw;

the first supporting plate is symmetrically provided with 2 guide rods about the center, the first supporting plate is connected with the adjusting screw rod through a bearing arranged on the first supporting plate, and the first supporting plate is connected with the bearing plate in a sliding mode through a groove formed in the bearing plate.

3. The multi-point supported heavy pipeline bracket as claimed in claim 1, wherein the lower fixing plate forms a rotating mechanism with a rotating screw rod through a bearing arranged thereon, a rotating handle is welded to the right end of the rotating screw rod, and the rotating screw rod is provided with 2 sections of different-direction thread structures.

4. The multi-point supported heavy pipeline bracket as claimed in claim 3, further comprising a sliding plate slidably connected to the lower fixing plate through elongated grooves formed in the lower fixing plate, wherein the lower fixing plate is attached with smooth-surfaced support rods, the sliding plate is connected to the rotating screw through a threaded structure formed in the upper end of the sliding plate, and the sliding plate is externally provided with support rods installed at both ends of the sliding plate.

5. The multi-point supported heavy duty pipeline bracket of claim 4, wherein: the bracing piece outside still sets up:

a third support plate connected to an upper end of the sliding plate, the third support plate being attached to the lower fixing plate;

the protection shield bonds in the upper end of third backup pad, the protection shield sets up to the arc structure of rubber material.

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