CN217519354U - Novel pipeline mounting bracket of multi-specification suspender - Google Patents

Abstract

The utility model discloses a novel pipeline installing support of many specifications jib, include: the steel plate frame comprises a plurality of fixing mechanisms, a plurality of first screw rods, a plurality of first conversion channel steel, a plurality of second screw rods, a plurality of second conversion channel steel, a first angle steel cross arm, a plurality of third screw rods and a second angle steel cross arm. One end of each fixing mechanism is vertically fixedly connected with the roof. One end of each first screw rod is vertically fixedly connected with the other end of each fixing mechanism. The tops of the first conversion channel steels are respectively in threaded connection with the other ends of the first screw rods. One end of each second screw rod is respectively in threaded connection with the bottoms of the first conversion channel steels. The tops of the second conversion channel steels are respectively in threaded connection with the other ends of the second screw rods. Therefore, the utility model discloses a novel piping erection support of many specifications jib, simple structure is reasonable, can reduce the material extravagant, has reduced construction cost, and when the design change appears in the scene, can furthest remain the reuse of lead screw.

Description

Novel pipeline mounting bracket of multi-specification suspender

Technical Field

The utility model relates to an electromechanical pipe installation technical field especially is about a novel pipe mounting support of many specifications jib.

Background

The electromechanical pipeline support is used for a structural member for supporting an electromechanical pipeline in an overhead laying mode on the ground, and the pipeline support is used in any place where the pipeline is laid and is also called a pipeline support, a pipe part and the like. The pipe expansion bolt type support is a support mounting form for fixing the support to the wall, the roof and the ground through expansion bolts.

The traditional expansion bolt type support is mainly made of angle steel and a screw rod, the specification and the length of the screw rod and the angle steel are standard sectional materials, the screw rod and the angle steel meeting the length of the support need to be cut on site when the support is manufactured, and when the length of the screw rod and the angle steel which are cut at last does not meet the requirement on site, the screw rod and the angle steel become waste materials.

When the design changes due to the actual requirements of the engineering, the original installed pipeline can only be dismantled and reinstalled, the pipeline can be reused, but the original support cannot be used on site due to the adjustment of the elevation and the position of the pipeline, and can only be treated as waste.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information constitutes prior art already known to a person skilled in the art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel pipe mounting support of many specifications jib, simple structure is reasonable, can reduce the material extravagant, has reduced construction cost, and when the design change appears in the scene, can furthest remain the reuse of lead screw.

In order to achieve the above object, the utility model provides a novel pipe mounting support of many specifications jib, include: the steel plate frame comprises a plurality of fixing mechanisms, a plurality of first screw rods, a plurality of first conversion channel steel, a plurality of second screw rods, a plurality of second conversion channel steel, a first angle steel cross arm, a plurality of third screw rods and a second angle steel cross arm. One end of each fixing mechanism is vertically fixedly connected with the roof. One end of each of the first screw rods is vertically fixedly connected with the other end of each of the fixing mechanisms. The tops of the first conversion channel steels are respectively in threaded connection with the other ends of the first screw rods. One end of each second screw rod is in threaded connection with the bottom of each first conversion channel steel. The tops of the second conversion channel steels are respectively in threaded connection with the other ends of the second screw rods. And two ends of the first angle steel cross arm are respectively and fixedly connected with the plurality of second screw rods. One end of each third screw rod is in threaded connection with the bottom of each second conversion channel steel. And two ends of the second angle iron cross arm are respectively fixedly connected with the other ends of the third screw rods. The specifications of the first screw rods, the second screw rods and the third screw rods are different. The specifications of the first conversion channel steels and the second conversion channel steels are different.

In one or more embodiments, the first angle cross arm and the second angle cross arm are each configured to provide for an electromechanical conduit.

In one or more embodiments, the specifications of the plurality of first lead screws and the plurality of second lead screws are the same, and the specifications of the plurality of first lead screws and the plurality of second lead screws are different from the specifications of the plurality of third lead screws. The specifications of the first lead screws and the second lead screws are selected according to the weight of the electromechanical pipelines on the first angle steel cross arm and the second angle steel cross arm.

In one or more embodiments, the novel pipe mounting bracket of a multi-gauge boom further comprises: a plurality of first nuts and a plurality of second nuts. A plurality of first nuts are screwed on the other ends of the first screw rods, and the first nuts are located below the tops of the first conversion channel steel. And the second nuts are screwed on one ends of the second screw rods and are positioned above the bottoms of the first conversion channel steel.

In one or more embodiments, the novel pipe mounting bracket of a multi-gauge boom further comprises: a plurality of third nuts and a plurality of fourth nuts. And the plurality of third nuts are screwed on the other ends of the plurality of second screw rods and are positioned below the tops of the plurality of second conversion channel steel. And the fourth nuts are screwed on one ends of the third screw rods, and the third nuts are positioned above the bottoms of the second conversion channel steel.

In one or more embodiments, the number of the plurality of fixing mechanisms, the plurality of first screws, the plurality of first conversion channels, the plurality of second screws, the plurality of second conversion channels, the plurality of third screws, the plurality of first nuts, the plurality of second nuts, the plurality of third nuts, and the plurality of fourth nuts is two.

In one or more embodiments, a first spring washer and a first flat washer are arranged between the first nut and the lower portion of the top of the first conversion channel steel, and the first spring washer and the first flat washer are sleeved on the other end of the first screw rod. A second elastic cushion and a second flat cushion are arranged between the second nut and the upper portion of the bottom of the first conversion channel steel, and the second elastic cushion and the second flat cushion are both sleeved on one end of the second screw rod.

In one or more embodiments, a third elastic cushion and a third flat cushion are arranged between the third nut and the lower portion of the top of the second conversion channel steel, and the third elastic cushion and the third flat cushion are sleeved on the other end of the second screw rod. A fourth elastic cushion and a fourth flat cushion are arranged between the fourth nut and the upper portion of the bottom of the second conversion channel steel, and the fourth elastic cushion and the fourth flat cushion are both sleeved on one end of the third screw rod.

In one or more embodiments, the securing mechanism comprises: expansion bolts and hexagon socket head bolts. One end of the expansion bolt is vertically and fixedly connected with the roof. And one end of the inner hexagon bolt is vertically fixedly connected with the other end of the expansion bolt, and one end of the first screw rod is vertically screwed in the other end of the inner hexagon bolt.

In one or more embodiments, the size of the plurality of third lead screws is selected according to the weight of the electromechanical conduits on the second angle iron cross arm.

Compared with the prior art, according to the utility model discloses a novel pipeline installing support of many specifications jib has following beneficial effect:

1. the structure is simple and reasonable;

2. the pipeline bracket is not limited by the length of the screw rod by converting the channel steel, so that the pipeline bracket has great flexibility in installation;

3. the material to be discarded can be reused, so that the material loss is greatly saved, and the construction cost is reduced;

4. because the specifications of a plurality of lead screws and a plurality of conversion channel-section steels can not be the same, further practiced thrift the material, and the cost is reduced.

Drawings

Fig. 1 is a schematic front view of a novel pipe mounting bracket of a multi-specification boom according to an embodiment of the present invention.

Fig. 2 is a schematic side view of a first conversion channel steel of the novel pipe mounting bracket according to an embodiment of the present invention.

Fig. 3 is a schematic front view of an example of a novel pipe mounting bracket for a multi-specification boom according to an embodiment of the present invention.

Description of the main reference numerals:

1-fixing mechanism, 2-first screw rod, 3-first conversion channel steel, 4-second screw rod, 5-second conversion channel steel, 6-first angle steel cross arm, 7-third screw rod, 8-second angle steel cross arm, 9-first nut, 10-second nut, 11-first spring washer, 12-first flat washer, 13-second spring washer, 14-second flat washer, 15-expansion bolt, 16-inner hexagon bolt, 17-roof, 18-third conversion channel steel, 19-fourth screw rod and 20-third angle steel cross arm.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited by the following detailed description.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Fig. 1 is a schematic front view of a novel pipe mounting bracket of a multi-specification boom according to an embodiment of the present invention. Fig. 2 is a schematic side view of a first conversion channel steel 3 of the novel pipe mounting bracket according to an embodiment of the present invention.

As shown in fig. 1 to 2, the novel pipe mounting bracket for a multi-specification boom according to an embodiment of the present invention includes: the steel plate frame comprises a plurality of fixing mechanisms 1, a plurality of first screw rods 2, a plurality of first conversion channel steel 3, a plurality of second screw rods 4, a plurality of second conversion channel steel 5, a first angle steel cross arm 6, a plurality of third screw rods 7 and a second angle steel cross arm 8. One end of each of the plurality of fixing mechanisms 1 is vertically and fixedly connected with the roof 17. One end of each of the first lead screws 2 is vertically fixedly connected with the other end of each of the fixing mechanisms 1. The tops of the first conversion channel steels 3 are respectively in threaded connection with the other ends of the first screw rods 2. One end of each of the second lead screws 4 is in threaded connection with the bottom of each of the first conversion channel steels 3. The tops of the second conversion channel steels 5 are respectively in threaded connection with the other ends of the second screw rods 4. Two ends of the first angle steel cross arm 6 are respectively and fixedly connected with the plurality of second screw rods 4. One end of each of the third lead screws 7 is in threaded connection with the bottom of each of the second conversion channel steels 5. And two ends of the second angle iron cross arm 8 are respectively fixedly connected with the other ends of the third screw rods 7. The specifications of the first screw rods 2, the second screw rods 4 and the third screw rods 7 are different. The specifications of the first conversion channel steels 3 and the second conversion channel steels 5 are different.

In one or more embodiments, first angle cross arm 6 and second angle cross arm 8 are each used to provide for an electromechanical plumbing installation.

In one or more embodiments, the specifications of the first lead screws 2 and the second lead screws 4 are the same, and the specifications of the first lead screws 2 and the second lead screws 4 are different from the specifications of the third lead screws 7. Wherein the specifications of the first and second screws 2, 4 are selected according to the weights of the electromechanical conduits on the first and second angle iron cross arms 6, 8.

In one or more embodiments, the novel pipe mounting bracket of a multi-gauge boom further comprises: a plurality of first nuts 9 and a plurality of second nuts 10. The plurality of first nuts 9 are screwed on the other ends of the plurality of first screw rods 2, and the plurality of first nuts 9 are located below the tops of the plurality of first conversion channel steel 3. And a plurality of second nuts 10 screwed on one end of the plurality of second lead screws 4, and the plurality of second nuts 10 are all located above the bottoms of the plurality of first conversion channel steels 3.

In one or more embodiments, the novel pipe mounting bracket of a multi-gauge boom further comprises: a plurality of third nuts and a plurality of fourth nuts. A plurality of third nuts are screwed on the other ends of the second screw rods 4, and the third nuts are all located below the tops of the second conversion channel steels 5. And a plurality of fourth nuts are screwed on one ends of the plurality of third lead screws 7, and the plurality of third nuts are positioned above the bottoms of the plurality of second conversion channel steels 5.

In one or more embodiments, the number of the plurality of fixing mechanisms 1, the plurality of first screws 2, the plurality of first conversion channels 3, the plurality of second screws 4, the plurality of second conversion channels 5, the plurality of third screws 7, the plurality of first nuts 9, the plurality of second nuts 10, the plurality of third nuts, and the plurality of fourth nuts is two.

In one or more embodiments, a first spring washer 11 and a first flat washer 12 are disposed between the first nut 9 and the lower portion of the top of the first conversion channel steel 3, and the first spring washer 11 and the first flat washer 12 are both sleeved on the other end of the first lead screw 2. A second elastic cushion 13 and a second flat cushion 14 are arranged between the second nut 10 and the upper part of the bottom of the first conversion channel steel 3, and the second elastic cushion 13 and the second flat cushion 14 are both sleeved on one end of the second screw rod 4.

In one or more embodiments, a third elastic cushion and a third flat cushion are arranged between the third nut and the lower portion of the top of the second conversion channel steel 5, and the third elastic cushion and the third flat cushion are both sleeved on the other end of the second lead screw 4. A fourth spring washer and a fourth flat washer are arranged between the fourth nut and the upper portion of the bottom of the second conversion channel steel 5, and the fourth spring washer and the fourth flat washer are both sleeved on one end of the third screw rod 7.

In one or more embodiments, the fixing mechanism 1 comprises: an expansion bolt 15 and a hexagon socket bolt 16. One end of the expansion bolt 15 is vertically and fixedly connected with the roof 17. And one end of the inner hexagon bolt 16 is vertically and fixedly connected with the other end of the expansion bolt 15, and one end of the first screw rod 2 is vertically screwed in the other end of the inner hexagon bolt 16.

In one or more embodiments, the size of the third lead screws is selected according to the weight of the electromechanical pipes on the second angle iron cross arm 8, such as the a section, the B section and the C section shown in fig. 1, and the sizes of the a section lead screw, the B section lead screw and the conversion channel steel can be the same or different, but the size selection of the two is determined according to the weight of the electromechanical pipes on the first angle iron cross arm 6 and the second angle iron cross arm 8. The specification of the C section screw rod is different from the specification of the A section screw rod and the B section screw rod, and the specification of the C section screw rod and the specification selection of the third conversion channel steel 18 are determined according to the weight of the electromechanical pipeline on the second angle iron cross arm 8.

Fig. 3 is a schematic front view of an example of a novel pipe mounting bracket for a multi-specification boom according to an embodiment of the present invention. As shown in fig. 3, the three-layer cross arm of the three-conversion channel steel only differs from the embodiment of fig. 1 to 2 in that the three-layer cross arm of the three-conversion channel steel further includes a third conversion channel steel 18, a fourth lead screw 19 and a third angle steel cross arm 20, two ends of the second angle steel cross arm 8 are fixedly connected with the middle portions of the plurality of third lead screws 7, the second angle steel cross arm 8 is located between the second conversion channel steel 5 and the third conversion channel steel 18, and the bottom of the third lead screw 7 is fixedly connected with the top of the third conversion channel steel 18. The top of the fourth lead screw 19 is fixedly connected with the bottom of the third conversion channel steel 18, and two ends of the third angle steel cross arm 20 are fixedly connected with the bottom of the fourth lead screw 19, and other connecting and fixing manners are the same as those in the embodiment of fig. 1, and are not described again. The specifications of the a and B lead screws and the transition channel can be the same or different, but the selection of the specifications of the two is determined by the weight of the electromechanical conduits on the first 6, second 8 and third 20 angle steel cross arms, as shown in fig. 3 for sections a, B, C and D. The specification of the screw rods of the C section and the D section is different from that of the screw rods of the A section and the B section, and the specification selection of the screw rods of the C section and the D section and the specification selection of the conversion channel steel are determined according to the weight of the electromechanical pipelines on the second angle steel cross arm 8 and the third angle steel cross arm 20. The specification of the D-section screw is selected according to the weight of the motor pipeline on the third angle steel cross arm 20.

In practical application, the utility model discloses a novel pipeline installing support of many specifications jib through the conversion channel-section steel with the lead screw combination of two or more than two, forms the lead screw sub-assembly, is connected through lead screw sub-assembly and expansion bolts 15, angle steel cross arm, finally forms the novel pipeline installing support of this kind of many specifications jib. The positions of the channel steel of the screw rod assembly can be freely combined according to the length of the screw rod, and the screw rod is not limited and can be recycled to the maximum extent. The harness cord suspension rod (lead screw), the angle steel cross arm and the expansion bolt 15 are selected according to the weight of the pipeline supported by the bracket.

The utility model discloses a use, concrete step is as follows:

step 1: selecting a harness cord suspender, an angle steel cross arm and an expansion bolt 15 according to the weight of the electromechanical pipeline;

and 2, step: selecting the length of the harness cord suspender according to the distance between the electromechanical pipeline and the top plate;

and step 3: for harness cord suspenders which do not meet the length, two or more than two short harness cord suspenders are connected through conversion channel steel, and a nut, an elastic cushion and a flat cushion are connected, so that the elastic cushion and the flat cushion can prevent the nut from falling off to form a lead screw assembly;

and 4, step 4: connecting the screw rod assembly with the angle iron nut to complete the manufacture of the bracket;

and 5: mounting the expansion bolts 15 to the structural plate above the electromechanical pipe (on the roof 17) according to the electromechanical pipe position;

step 6: connecting the bracket with an expansion bolt 15 through an inner hexagon bolt 16, so that the bracket is fixed on the structural plate;

and 7: and (6) installing an electric pipeline.

In a word, the utility model discloses a novel pipeline installing support of many specifications jib has following beneficial effect:

1. the structure is simple and reasonable;

2. the pipeline bracket is not limited by the length of the screw rod by converting the channel steel, so that the pipeline bracket has great flexibility in installation;

3. the material to be discarded can be reused, so that the material loss is greatly saved, and the construction cost is reduced;

4. because the specifications of a plurality of lead screws and a plurality of conversion channel-section steels can not be the same, further practiced thrift the material, and the cost is reduced.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (10)

1. The utility model provides a novel pipeline installing support of many specifications jib which characterized in that includes:

one ends of the fixing mechanisms are vertically and fixedly connected with the roof respectively;

one end of each first screw rod is vertically and fixedly connected with the other end of each fixing mechanism;

the tops of the first conversion channel steels are respectively in threaded connection with the other ends of the first screw rods;

one end of each second screw rod is in threaded connection with the bottom of each first conversion channel steel;

the tops of the second conversion channel steels are respectively in threaded connection with the other ends of the second screw rods;

the two ends of the first angle steel cross arm are respectively and fixedly connected with the plurality of second screw rods;

one end of each third screw rod is in threaded connection with the bottom of each second conversion channel steel; and

two ends of the second angle steel cross arm are fixedly connected with the other ends of the plurality of third screw rods respectively;

the specifications of the first screw rods, the second screw rods and the third screw rods are different;

the specifications of the first conversion channel steels and the second conversion channel steels are different.

2. The novel pipe mounting bracket of multi-gauge boom of claim 1, wherein said first angle cross arm and said second angle cross arm are each used for electromechanical pipe setup.

3. The novel pipe mounting bracket of a multi-gauge boom of claim 2, wherein said plurality of first lead screws and said plurality of second lead screws are of the same gauge and said plurality of first lead screws and said plurality of second lead screws are of a different gauge than said plurality of third lead screws;

wherein specifications of the first and second plurality of lead screws are selected according to weights of the electromechanical conduits on the first and second angle iron cross arms.

4. A novel pipe mounting bracket for a multi-gauge boom of claim 3, further comprising:

the first nuts are screwed on the other ends of the first screw rods and are all positioned below the tops of the first conversion channel steels; and

and the second nuts are screwed on one ends of the second screw rods and are positioned above the bottoms of the first conversion channel steel.

5. The novel pipe mounting bracket of a multi-gauge boom of claim 4, further comprising:

the third nuts are screwed on the other ends of the second screw rods and are all positioned below the tops of the second conversion channel steels; and

and the fourth nuts are screwed on one ends of the third screw rods, and the third nuts are positioned above the bottoms of the second conversion channel steels.

6. The novel pipe mounting bracket of multi-gauge boom of claim 5, wherein the number of securing mechanisms, said first plurality of lead screws, said first plurality of conversion channels, said second plurality of lead screws, said second plurality of conversion channels, said third plurality of lead screws, said first plurality of nuts, said second plurality of nuts, said third plurality of nuts, and said fourth plurality of nuts are all two.

7. The novel pipe mounting bracket of a multi-gauge boom of claim 5,

a first elastic cushion and a first flat cushion are arranged between the first nut and the lower portion of the top of the first conversion channel steel, and the first elastic cushion and the first flat cushion are both sleeved on the other end of the first screw rod;

a second elastic cushion and a second flat cushion are arranged between the second nut and the upper portion of the bottom of the first conversion channel steel, and the second elastic cushion and the second flat cushion are both sleeved on one end of the second screw rod.

8. The novel pipe mounting bracket of a multi-gauge boom of claim 5,

a third elastic cushion and a third flat cushion are arranged between the third nut and the lower portion of the top of the second conversion channel steel, and the third elastic cushion and the third flat cushion are both sleeved on the other end of the second screw rod;

a fourth spring washer and a fourth flat washer are arranged between the fourth nut and the top of the bottom of the second conversion channel steel, and the fourth spring washer and the fourth flat washer are all sleeved on one end of the third screw rod.

9. The novel pipe mounting bracket of a multi-gauge boom of claim 1, wherein said securing mechanism comprises:

one end of the expansion bolt is vertically and fixedly connected with the roof; and

the first screw rod is vertically screwed in the other end of the inner hexagon bolt.

10. A novel pipe mounting bracket for a multi-gauge boom of claim 3, wherein the gauge of said plurality of third lead screws is selected based on the weight of said electromechanical pipe on said second angle cross-arm.

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