CN216009976U - Electromechanical pipeline antidetonation suspends bracket component in midair - Google Patents

Abstract

The utility model discloses an electromechanical pipeline antidetonation suspends bracket component in midair, including channel steel section bar, first connecting piece, second connecting piece, U-shaped staple bolt, hoist and mount frame, first pipeline staple bolt, second pipeline staple bolt, U-shaped connecting plate and connecting rod, the one end of first connecting piece can install and connect in channel steel section bar, the other end of first connecting piece can connect in second connecting piece, first pipeline staple bolt, the second connecting piece can install and connect in hoist and mount frame, channel steel section bar, hoist and mount frame can install and connect in U-shaped staple bolt, the second pipeline staple bolt can clamp in channel steel section bar, U-shaped connecting plate can be buckled in channel steel section bar and fasten with the connecting rod and be connected; the hoisting device has the characteristics that the corresponding support can be formed by selecting, combining and installing according to the type of the pipeline, and the components corresponding to the selection and combination can be suitable for hoisting pipelines with four different structural forms, namely a single pipe, a double pipe, a ventilation pipe and a cable bridge, and are beneficial to production standardization and reduction of the inventory cost of production materials.

Description

Electromechanical pipeline antidetonation suspends bracket component in midair

Technical Field

The utility model belongs to the technical field of the pipe bracket, concretely relates to electromechanical pipeline antidetonation suspension bracket subassembly that can select the combination according to actual installation needs.

Background

When the electromechanical pipeline is installed in a hanging mode, the corresponding structural form of the hanging bracket needs to be selected according to the type of the pipeline, for example, the assembly structure of the hanging bracket adopted in the specific installation is different due to different structural forms of a single pipe, a double pipe, a ventilation pipe and a cable bridge. In actual production, in order to realize that the suspension bracket suitable for various types of pipelines can be selected and combined in a modular manner in installation and assembly, so that the raw material inventory cost of a production enterprise is reduced and standardized production is facilitated, a set of suspension bracket assembly capable of realizing selection and combination needs to be developed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can select the electromechanical pipeline antidetonation that the built-up mounting formed corresponding support, helped the production standardization and reduce production material inventory cost to suspend bracket component in midair according to the pipeline type.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an electromechanical pipeline antidetonation suspends support subassembly in midair, including the channel-section steel section bar, first connecting piece, the second connecting piece, the U-shaped staple bolt, hoist and mount frame, first pipeline staple bolt, the second pipeline staple bolt, U-shaped connecting plate and connecting rod, the one end of first connecting piece can install connection in the channel-section steel section bar, the other end of first connecting piece can be connected in the second connecting piece, first pipeline staple bolt, the second connecting piece can install connection in hoist and mount frame, the channel-section steel section bar, hoist and mount frame can install connection in the U-shaped staple bolt, the second pipeline staple bolt can clamp in the channel-section steel section bar, the U-shaped connecting plate can the spiral-lock in the channel-section steel section bar and with connecting rod fastening connection.

As the preferred scheme, one end of the first connecting piece is provided with a U-shaped connecting end which is connected with the channel steel section in an installing mode, the U-shaped connecting end is provided with a first fastening hole, the other end of the first connecting piece is provided with a first connecting plate, the first connecting plate is provided with a second fastening hole, and the U-shaped connecting end and the first connecting plate are connected through a first connecting wall in an integrated mode and are perpendicular to the U-shaped connecting end.

According to the preferable scheme, one end of the second connecting piece is provided with a second connecting plate, the second connecting plate is provided with a third fastening hole, the other end of the second connecting piece is provided with a third connecting plate, the third connecting plate is provided with a fourth fastening hole, the second connecting plate and the third connecting plate are integrally connected through a second connecting wall, and the second connecting plate is perpendicular to the third connecting plate.

Preferably, fifth fastening holes are respectively formed in the foot walls on two sides of the opening end of the U-shaped hoop.

Preferably, the hoisting frame comprises a frame top wall and frame side walls bent downwards and extending to two sides of the frame top wall, the frame side walls can be arranged on the outer walls of the foot walls in a matched mode, sixth fastening holes are formed in the frame side walls corresponding to the fifth fastening holes, and seventh fastening holes are formed in the frame top wall.

As preferred scheme, first pipeline staple bolt includes the semicircle hoop body that two symmetries set up, and the both ends of semicircle hoop body extend respectively and are equipped with fourth connecting plate and fifth connecting plate.

As preferred scheme, the second pipeline staple bolt includes the half U-shaped hoop body that two symmetries set up, and the upper end of half U-shaped hoop body is buckled up and is extended and be equipped with the sixth connecting plate, and the lower extreme of half U-shaped hoop body is equipped with the foot that clamps, and the both sides that clamp the foot are equipped with and clamp the groove.

The utility model discloses following beneficial effect has:

the utility model discloses electromechanical pipeline antidetonation suspends bracket component in midair has and can select the composite erection to form corresponding support according to the pipeline type, helps the characteristics of production standardization and reduction production material inventory cost.

Drawings

FIG. 1 is a single tube suspension bracket structure diagram formed by the anti-seismic suspension bracket assembly of the electromechanical pipeline of the present invention;

FIG. 2 is a structural diagram of a double-tube suspension bracket formed by the anti-seismic suspension bracket assembly of the electromechanical pipeline of the present invention;

FIG. 3 is a view showing the installation structure of the second pipe hoop of the electromechanical pipe anti-seismic suspension bracket assembly of the present invention;

FIG. 4 is a drawing of a ventilation pipe suspension bracket structure formed by the electromechanical pipe anti-seismic suspension bracket assembly of the present invention;

FIG. 5 is a view showing the installation structure of the channel steel section, the U-shaped connecting plate and the connecting rod of the electromechanical pipe anti-seismic suspension bracket assembly of the present invention;

FIG. 6 is a structural diagram of a cable tray suspension bracket formed by the electromechanical pipe anti-seismic suspension bracket assembly of the present invention;

FIG. 7 is a structural diagram of a first connecting member of the electromechanical pipe seismic suspension support assembly of the present invention;

FIG. 8 is a structural diagram of a second connecting member of the electromechanical pipe seismic suspension bracket assembly of the present invention;

FIG. 9 is a structural diagram of the U-shaped hoop of the anti-seismic suspension bracket assembly for electromechanical pipelines of the present invention;

FIG. 10 is a structural diagram of a hoisting frame of the electromechanical pipe anti-seismic suspension bracket assembly of the present invention;

fig. 11 is a structural diagram of the first pipe hoop of the electromechanical pipe anti-seismic suspension bracket assembly of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the invention.

The electromechanical pipeline anti-seismic suspension support assembly shown in fig. 1-6 comprises a channel steel section bar 1, a first connecting piece 2, a second connecting piece 3, a U-shaped hoop 4, a hoisting frame 5, a first pipeline hoop 6, a second pipeline hoop 7, a U-shaped connecting plate 8 and a connecting rod 9, wherein one end of the first connecting piece 2 can be installed and connected to the channel steel section bar 1, the other end of the first connecting piece 2 can be connected to the second connecting piece 3 and the first pipeline hoop 6, the second connecting piece 3 can be installed and connected to the hoisting frame 5 and the channel steel section bar 1, the hoisting frame 5 can be installed and connected to the U-shaped hoop 4, the second pipeline hoop 7 can be clamped to the channel steel section bar 1, and the U-shaped connecting plate 8 can be buckled to the channel steel section bar 1 and fastened and connected with the connecting rod 9.

The concrete structure of the first connecting piece 2 is as shown in fig. 7, one end of the first connecting piece 2 is provided with a U-shaped connecting end 21 which is connected with the channel steel section bar 1 in an installing manner, the U-shaped connecting end 21 is provided with a first fastening hole 24, the other end of the first connecting piece 2 is provided with a first connecting plate 22, the first connecting plate 22 is provided with a second fastening hole 25, the U-shaped connecting end 21 and the first connecting plate 22 are connected with each other integrally through a first connecting wall 23, and the first connecting plate 22 is perpendicular to the U-shaped connecting end 21.

The second connector 3 has a specific structure as shown in fig. 8, one end of the second connector is provided with a second connecting plate 31, the second connecting plate 31 is provided with a third fastening hole 34, the other end of the second connector 3 is provided with a third connecting plate 32, the third connecting plate 32 is provided with a fourth fastening hole 35, the second connecting plate 31 and the third connecting plate 32 are integrally connected through a second connecting wall 33, and the second connecting plate 31 is perpendicular to the third connecting plate 32.

As shown in fig. 9, the U-shaped anchor ear 4 has fifth fastening holes 42 respectively formed in the leg walls 41 at both sides of the open end thereof. As shown in fig. 10, the hanger 5 specifically includes a top wall 53 and side walls 51 bent downward and extending to two sides of the top wall 53, the side walls 51 can be matched with the outer wall of the leg wall 41, the side walls 51 have sixth fastening holes 52 corresponding to the fifth fastening holes 42, and the top wall 53 has seventh fastening holes 54. The first pipe hoop 6 specifically includes two symmetrically arranged semicircular hoop bodies 61 as shown in fig. 11, and a fourth connecting plate 62 and a fifth connecting plate 63 are respectively extended from two ends of the semicircular hoop body 61. The second pipe hoop 7 specifically includes two half U-shaped hoop bodies 71 symmetrically arranged as shown in fig. 3, a sixth connecting plate 72 is disposed at the upper end of the half U-shaped hoop body 71 and extends upwards in a bending manner, a clamping foot portion 73 is disposed at the lower end of the half U-shaped hoop body 71, and clamping grooves 74 are disposed on two sides of the clamping foot portion 73.

The electromechanical pipeline anti-seismic suspension bracket component of the utility model can be selected, combined and installed to form a corresponding bracket according to the pipeline type, is beneficial to the production standardization and the reduction of the production material inventory cost, as shown in fig. 1, a channel steel section bar 1, a first connecting piece 2, a second connecting piece 3, a U-shaped hoop 4, a hoisting frame 5 and a first pipeline hoop 6 are selected to be combined to form a single pipe suspension bracket, the first connecting piece 2 is fixedly arranged at two ends of the channel steel section bar 1 through a U-shaped connecting end 21, the first pipeline hoop 6 is arranged in a pipeline in a embracing mode, a fourth connecting plate 62 and a fifth connecting plate 63 corresponding to two semicircular hoop bodies 61 are respectively and fixedly connected through bolts as shown in fig. 11, the first connecting piece 2 at one end of the channel steel section bar 1 is connected with the second connecting piece 3 and is fixedly connected to a ceiling through the second connecting piece 3, and the first connecting piece 2 at the other end of the channel steel section bar 1 is connected with the fourth connecting plate 62 of the first pipeline hoop 6; the U-shaped hoop 4 is opened upwards to be embraced in the pipeline, the hoisting frame 5 is installed on the U-shaped hoop 4 through the sixth fastening hole 52 of the frame side wall 51 of the hoisting frame and the fifth fastening hole 42 of the foot wall 41 of the U-shaped hoop 4 in a bolt fastening mode, the seventh fastening hole 54 of the frame top wall 53 of the hoisting frame 5 is further provided with a longitudinal hoisting rod, the two ends of the other channel steel section bar 1 are respectively provided with a first connecting piece 2, the first connecting piece 2 at one end of the channel steel section bar 1 is connected with a second connecting piece 3 and is fastened to a ceiling through the second connecting piece 3, and the first connecting piece 2 at the other end of the channel steel section bar 1 is connected to the hoisting frame 5 through the second connecting piece 3.

As shown in fig. 2 and 3, a channel steel section bar 1, a first connecting piece 2, a second connecting piece 3 and a second pipeline hoop 7 are selected to be combined to form a double-pipe suspension bracket, the second pipeline hoop 7 is clamped on a notch side wall 11 of the channel steel section bar 1 through a clamping groove 74, sixth connecting plates 72 of two half U-shaped hoop bodies 71 of the second pipeline hoop 7 are fixedly connected through bolts, two ends of the channel steel section bar 1 are fixedly connected with the first connecting piece 2, the first connecting piece 2 at one end of the channel steel section bar 1 is fixedly connected to the channel steel section bar 1 through the second connecting piece 3, and the first connecting piece 2 at the other end of the channel steel section bar 1 is fastened to a ceiling through the second connecting piece 3.

As shown in fig. 4 and 5, a channel steel section bar 1, a first connecting piece 2, a second connecting piece 3, a U-shaped connecting plate 8 and a connecting rod 9 are selected to be combined to form a ventilation pipe support, the two channel steel section bars 1 are arranged in parallel, the U-shaped connecting plates 8 are respectively installed at two ends of the channel steel section bar 1, the two channel steel section bars are connected in series with the U-shaped connecting plates 8 through the connecting rod 9 and locked and fixed by nuts, a ventilation pipe is installed between the two parallel channel steel section bars 1, a longitudinal channel steel section bar 1 can be installed on the connecting rod 9 to be hoisted, in addition, the channel steel section bar 1 is selected and connected with the first connecting piece 2 at two ends of the channel steel section bar 1, the first connecting piece 2 at one end of the channel steel section bar 1 is installed and connected with the channel steel section bar 1 above the ventilation pipe through the second connecting piece 3, and the first connecting piece 2 at the other end of the channel steel section bar 1 is fastened to a ceiling through the second connecting piece 3. And a positioning side plate 10 can be further arranged on the side part of the ventilating pipe on the channel steel section bar 1 below the ventilating pipe to position the ventilating pipe.

As shown in fig. 6, a channel steel section bar 1, a first connecting piece 2 and a second connecting piece 3 are selected to be combined to form a cable bridge support, one channel steel section bar 1 is horizontally arranged to support a cable bridge, in addition, the channel steel section bar 1 is selected and the first connecting piece 2 is installed and connected at two ends of the channel steel section bar 1, wherein the first connecting piece 2 at one end of the channel steel section bar 1 is installed and connected to the channel steel section bar 1 below the cable bridge through the second connecting piece 3, and the first connecting piece 2 at the other end of the channel steel section bar 1 is fastened to a ceiling through the second connecting piece 3.

Various other changes and modifications may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such changes and modifications should fall within the scope of the present invention.

Claims (7)

1. The utility model provides an electromechanical pipeline antidetonation suspends support subassembly in midair, its characterized in that includes channel steel section bar, first connecting piece, second connecting piece, U-shaped staple bolt, hoist and mount frame, first pipeline staple bolt, second pipeline staple bolt, U-shaped connecting plate and connecting rod, the one end of first connecting piece can install in the channel steel section bar, the other end of first connecting piece can connect in the second connecting piece first pipeline staple bolt, the second connecting piece can install in hoist and mount frame the channel steel section bar, hoist and mount frame can install in the U-shaped staple bolt, second pipeline staple bolt can clamp in the channel steel section bar, the U-shaped connecting plate can the lock in the channel steel section bar and with connecting rod fastening connection.

2. An electromechanical pipe seismic suspension bracket assembly according to claim 1, wherein one end of the first connector is provided with a U-shaped connection end for mounting connection with the channel steel section bar, the U-shaped connection end is provided with a first fastening hole, the other end of the first connector is provided with a first connection plate, the first connection plate is provided with a second fastening hole, the U-shaped connection end and the first connection plate are integrally connected through a first connection wall, and the first connection plate is perpendicular to the U-shaped connection end.

3. An electromechanical pipe seismic suspension bracket assembly according to claim 2, wherein one end of the second connector is provided with a second connecting plate, the second connecting plate is provided with a third fastening hole, the other end of the second connector is provided with a third connecting plate, the third connecting plate is provided with a fourth fastening hole, the second connecting plate and the third connecting plate are integrally connected through a second connecting wall, and the second connecting plate is perpendicular to the third connecting plate.

4. An electromechanical pipeline seismic suspension bracket assembly according to claim 1, wherein fifth fastening holes are respectively provided in the leg walls on both sides of the open end of the U-shaped hoop.

5. An electromechanical pipe earthquake-resistant suspension bracket assembly as recited in claim 4, wherein said hoisting frame comprises a frame top wall and frame side walls bent downward and extended on two sides of said frame top wall, said frame side walls being fittingly disposed on outer walls of said leg walls, said frame side walls being provided with sixth fastening holes corresponding to said fifth fastening holes, said frame top wall being provided with seventh fastening holes.

6. An electromechanical pipe seismic suspension bracket assembly according to claim 1, wherein the first pipe hoop comprises two symmetrically arranged semicircular hoop bodies, and a fourth connecting plate and a fifth connecting plate extend from two ends of each semicircular hoop body respectively.

7. An electromechanical pipeline earthquake-proof suspension bracket assembly as recited in claim 1, wherein the second pipeline hoop comprises two symmetrically arranged half U-shaped hoop bodies, the upper ends of the half U-shaped hoop bodies are bent upwards to extend to form a sixth connecting plate, the lower ends of the half U-shaped hoop bodies are provided with clamping foot portions, and clamping grooves are formed in two sides of the clamping foot portions.

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