CN214889696U - Multi-pipeline supporting structure - Google Patents

Abstract

The utility model relates to a pipeline supports technical field, especially relates to a multi-channel supporting structure. The multi-channel support structure includes: the mounting panel, shock-absorbing structure, the layer board, auxiliary structure and splint, install shock-absorbing structure on two symmetric distribution's the mounting panel, auxiliary structure's the layer board that passes through is installed between two mounting panels, the layer board is by the semicircle section, little head section and major part section are constituteed, little head section passes through screw fixed mounting on the mounting panel, seted up the recess in the major part section, the little head section of another layer board is equipped with in the recess, and the recess passes through screw fixed connection with the little head section of another layer board, the major part section of last layer board passes through the mounting screw and is on auxiliary structure, there is splint through the mounting screw on the layer board, and the screw is inserted and is established in the screw hole of seting up on layer board and splint. The utility model provides a multi-channel bearing structure can both shorten the time limit for a project with current material equipment, has practiced thrift the cost again, can also avoid the wasting of resources.

Description

Multi-pipeline supporting structure

Technical Field

The utility model belongs to the technical field of the pipeline supports, concretely relates to multi-pipeline bearing structure.

Background

Along with the development of technology, the building is built more and more highly, and the resident family of single building becomes more, and the corresponding increase of pipeline just needs to use multi-pipeline bearing structure to support the pipeline when laying the pipeline, and current multi-pipeline bearing structure is the integrated into one piece mostly on the fixed structure of pipeline, needs to customize exclusive fixed knot structure according to pipeline quantity and volume, can't assemble according to current material, and is more troublesome, probably causes the time limit for a project to lengthen.

Therefore, in view of the above technical problems, it is necessary to provide a multi-pipe support structure.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-pipe supporting structure to need remove customization bearing structure according to the quantity and the size of pipeline among the solution prior art, and lead to the time limit for a project to elongate, the extravagant problem of resource.

The utility model provides a multi-channel supporting structure includes: the two symmetrically distributed mounting plates are provided with damping structures for supporting the pipeline and avoiding the pipeline from vibrating; the auxiliary structure is arranged between the two mounting plates through the supporting plate, the supporting plate is provided with a clamping plate through a screw for fixing the pipeline, and the screw is inserted into threaded holes formed in the supporting plate and the clamping plate.

Preferably, shock-absorbing structure includes connecting rod, slide bar, sliding sleeve, first spring, pull rod, second spring and elastic sheet, two symmetric distributions the one end fixed mounting of connecting rod is on the mounting panel, and the other end of connecting rod concatenate on the slide bar and with slide bar sliding connection, the equal fixed mounting in both ends of slide bar is on the sliding sleeve, and has concatenated the first spring of sliding connection on the slide bar, the one end fixed mounting of first spring is on the connecting rod, and the other end fixed mounting of first spring is on the sliding sleeve, two the sliding sleeve concatenates the both ends of pull rod, and the middle part of pull rod has concatenated two second springs, two the equal fixed mounting in one end of second spring is on the sliding sleeve, and the equal fixed mounting of the other end of two second springs is on the pull rod, the both ends of pull rod all have the elastic sheet through screw fixed mounting.

Preferably, the supporting plate is composed of a semicircular section, a small head section and a large head section, the small head section is fixedly installed on the installation plate through screws, a groove is formed in the large head section, the small head section of another supporting plate is inserted into the groove, the groove is fixedly connected with the small head section of another supporting plate through screws, and the large head section of the last supporting plate is installed on the auxiliary structure through screws.

Preferably, the auxiliary structure comprises a T rod, a tension spring and a mounting block, the bottom of the T rod is fixedly connected with the large head section on the supporting plate through a screw, and the top of the T rod is fixedly provided with the mounting block through the tension spring.

Preferably, the splint are by segmental arc, single-end section and double-end section are located the both ends of segmental arc respectively, single-end section passes through on the tip section of screw fixed mounting on the layer board, double-end section passes through on the big head section of screw fixed mounting on the layer board.

Preferably, the volume of the small head section is the same as that of the groove formed in the large head section.

Preferably, the notch on the double-head section is matched with the groove formed on the big-head section, and the shape and size of the notch on the double-head section are the same as those of the single-head section.

Compared with the prior art, the utility model provides a bill anchor clamps that economic management used have following beneficial effect:

1. when the utility model is used, the support structure does not need to be customized according to the actual situation, the use is convenient and fast, the construction period is shortened, meanwhile, the redundant materials can be transferred as soon as possible without the limitation of fixed structure, the cost is reduced, and the resource waste is avoided;

2. the auxiliary structure arranged in the utility model plays the role of auxiliary support, reduces the pressure born on the supporting plate, avoids the deformation of the supporting plate, and when the pipeline is shocked by external force, the tension spring 42 on the auxiliary structure plays the role of buffering and damping;

3. the utility model discloses in the shock-absorbing structure who sets up, receive external shock and when taking place vibrations at the pipeline, play absorbing effect, avoided the pipeline to receive the exogenic action and make bearing structure not hard up so that the condition emergence that breaks away from the wall top.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic diagram of a preferred structure in an embodiment of the present application;

FIG. 2 is a schematic structural view of the shock-absorbing structure shown in FIG. 1;

FIG. 3 is a schematic structural view of a portion of the structure shown in FIG. 1;

FIG. 4 is a schematic view of the construction of the pallet shown in FIG. 1;

fig. 5 is a schematic view of the structure of the splint shown in fig. 1.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. However, the present invention is not limited to the embodiments, and the structural, method, or functional changes made by those skilled in the art according to the embodiments are all included in the scope of the present invention.

Referring to fig. 1 to 5 in combination, a multi-channel supporting structure includes:

the mounting plates 1 are provided with damping structures 2, and the damping structures 2 are arranged on the two symmetrically distributed mounting plates 1 and are used for supporting pipelines and avoiding the vibration of the pipelines;

auxiliary structure 4, auxiliary structure 4 installs between two mounting panels 1 through layer board 3, has splint 5 through the mounting screw on the layer board 3, and layer board 3 uses with the cooperation of splint 5 to fix the pipeline, and the screw is inserted and is established in the screw hole 6 of seting up on layer board 3 and the splint 5, and when the pipeline is more, layer board 3 that uses increases along with it, in order to prevent that layer board 3 warp, adds auxiliary structure 4 and shares pressure for layer board 3.

The utility model discloses an in the embodiment, at first as required during the use, with the internal diameter with installing mounting panel 1 and auxiliary structure 4 in proper order with layer board 3 that the external diameter of pipe is the same, aim at the pipeline with layer board 3, arrange the pipeline below in, use the screw to fix splint 5 on layer board 3, fix the pipeline, install on the wall top with auxiliary structure 4 and shock-absorbing structure 2 again.

In an embodiment of the present invention, referring to fig. 1, fig. 3 and fig. 4, the supporting plate 3 is composed of a semicircular section 31, a small head section 32 and a large head section 33, the small head section 32 is fixed on the mounting plate 1 by screws, a groove 34 is provided on the large head section 33, the small head section 32 of another supporting plate 3 is inserted in the groove 34, the groove 34 is fixedly connected with the small head section 32 of another supporting plate 3 by screws, and the large head section 33 of the last supporting plate 3 is mounted on the auxiliary structure 4 by screws. The volume of the small head section 32 is the same as that of the groove 34 formed on the large head section 33; the auxiliary structure 4 comprises a T-bar 41, a tension spring 42 and a mounting block 43, the bottom of the T-bar 41 is fixedly connected with the big head section 33 on the supporting plate 3 through a screw, and the top of the T-bar 41 is fixedly provided with the mounting block 43 through the tension spring 42

It should be noted that: during assembly, the small head sections 32 of the supporting plates 3 are installed on the installation plate 1 through screws, then the small head sections 32 of the supporting plates 3 are sequentially connected with the large head section 33 of another supporting plate 3, and the large head sections 33 of the two supporting plates 3 close to the middle are fixed at the bottom of the T-shaped rod 41 through screws.

It should also be noted that: when using, auxiliary structure 4 considers whether to add according to the quantity and the total weight of pipeline, has added auxiliary structure 4, when using, plays the effect of auxiliary stay, reduces the pressure that bears on layer board 3, avoids layer board 3 to warp, and extension spring 42 wherein plays the effect of buffering shock attenuation.

In an embodiment of the present invention, referring to fig. 1 and 5, the splint 5 is composed of an arc section 51, a single-head section 52 and a double-head section 53, the single-head section 52 and the double-head section 53 are respectively located at two ends of the arc section 51, the single-head section 52 is fixedly mounted on the small-head section 32 on the supporting plate 3 by screws, and the double-head section 53 is fixedly mounted on the large-head section 33 on the supporting plate 3 by screws. The notch on the double-head section 53 is matched with the groove 34 arranged on the big-head section 33, and the shape and size of the notch on the double-head section 53 are the same as those of the single-head section 52.

It should be noted that: when the pipeline fixing device is used, the pipeline is supported by the supporting plate 3, the single-head section 52 and the double-head section 53 of the clamping plate 5 are respectively connected with the small-head section 32 and the large-head section 33 of the supporting plate 3 by screws, and the pipeline is fixed.

In an embodiment of the present invention, referring to fig. 1 and 2, the damping structure 2 comprises a connecting rod 21, a sliding rod 22, a sliding sleeve 23, a first spring 24, a pull rod 25, a second spring 26 and an elastic sheet 27, one end of the two symmetrically distributed connecting rods 21 is fixedly installed on the mounting plate 1, the other end of the connecting rod 21 is connected in series to the sliding rod 22 and slidably connected to the sliding rod 22, both ends of the sliding rod 22 are fixedly installed on the sliding sleeve 23, the sliding rod 22 is connected in series to the first spring 24, one end of the first spring 24 is fixedly installed on the connecting rod 21, the other end of the first spring 24 is fixedly installed on the sliding sleeve 23, the two sliding sleeves 23 are connected in series to both ends of the pull rod 25, the middle of the pull rod 25 is connected in series to the two second springs 26, one end of the two second springs 26 is fixedly installed on the sliding sleeve 23, and the other end of the two second springs 26 is fixedly installed on the pull rod 25, both ends of the pull rod 25 are fixedly provided with elastic pieces 27 through screws.

It should be noted that: after fixing the pipeline, use the inflation screw to fix elastic sheet 27 and installation piece 43 on the wall top, when the pipeline receives external force to strike and take place vibrations, connecting rod 21 slides on slide bar 22, make first spring 24 warp, sliding sleeve 23 slides on pull rod 25, make second spring 26 warp, under the elastic force effect of first spring 24 second spring 26, offset some exogenic action, play absorbing effect, and elastic sheet 27 self elastic force effect, also can play absorbing effect, avoided the pipeline to receive exogenic action and make bearing structure not hard up so that the condition emergence that breaks away from the wall top.

The utility model provides a multi-channel supporting structure's theory of operation as follows:

when in use, firstly, the supporting plate 3 with the same inner diameter as the outer diameter of the pipe is sequentially arranged on the mounting plate 1 and the auxiliary structure 4 according to needs, a supporting structure does not need to be ordered according to actual conditions, the operation is convenient and fast, the construction period is shortened, meanwhile, redundant materials can be transferred as soon as possible without being limited by the structure fixation, the supporting plate 3 is aligned with the pipeline and is arranged below the pipeline, the clamping plate 5 is fixed on the supporting plate 3 by using screws, the pipeline is fixed and is blocked, then the auxiliary structure 4 and the damping structure 2 are arranged on the wall top, wherein, the auxiliary structure 4 plays a role of auxiliary support, the pressure born on the supporting plate 3 is reduced, the supporting plate 3 is prevented from being deformed, when the pipeline is impacted by external force and vibrates, the connecting rod 21 slides on the sliding rod 22, the first spring 24 is deformed, the sliding sleeve 23 slides on the pull rod 25, the second spring 26 is deformed, under the elastic force action of the first spring 24 and the second spring 26, offset some exogenic action, play absorbing effect to the elastic force effect of elastic sheet 27 self also can play absorbing effect, has avoided the pipeline to receive exogenic action and make bearing structure not hard up so that break away from the condition emergence of wall crown, and extension spring 42 on auxiliary structure 4 also plays buffering absorbing effect.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. A multi-channel support structure, comprising:

the damping device comprises mounting plates (1), wherein damping structures (2) are mounted on the two symmetrically distributed mounting plates (1) and used for supporting pipelines and avoiding pipeline vibration;

the pipeline fixing device comprises an auxiliary structure (4), wherein the auxiliary structure (4) is arranged between two mounting plates (1) through a supporting plate (3), a clamping plate (5) is arranged on the supporting plate (3) through a screw, and is used for fixing a pipeline, and the screw is inserted into a threaded hole (6) formed in the supporting plate (3) and the clamping plate (5).

2. The multi-pipeline supporting structure according to claim 1, wherein the shock-absorbing structure (2) comprises connecting rods (21), sliding rods (22), sliding sleeves (23), first springs (24), pull rods (25), second springs (26) and elastic pieces (27), one ends of the two symmetrically distributed connecting rods (21) are fixedly installed on the installation plate (1), the other ends of the connecting rods (21) are connected in series on the sliding rods (22) and are in sliding connection with the sliding rods (22), both ends of the sliding rods (22) are fixedly installed on the sliding sleeves (23), the sliding rods (22) are connected in series with the first springs (24), one ends of the first springs (24) are fixedly installed on the connecting rods (21), the other ends of the first springs (24) are fixedly installed on the sliding sleeves (23), the two sliding sleeves (23) are connected in series at both ends of the pull rods (25), and the middle part of pull rod (25) has concatenated two second springs (26), two the equal fixed mounting of one end of second spring (26) is on sliding sleeve (23), and the equal fixed mounting of the other end of two second springs (26) is on pull rod (25), the both ends of pull rod (25) all have elastic sheet (27) through screw fixed mounting.

3. The multi-pipeline supporting structure according to claim 1, wherein the supporting plates (3) are composed of a semicircular section (31), a small head section (32) and a large head section (33), the small head section (32) is fixedly mounted on the mounting plate (1) through screws, a groove (34) is formed in the large head section (33), the small head section (32) of another supporting plate (3) is inserted into the groove (34), the groove (34) is fixedly connected with the small head section (32) of another supporting plate (3) through screws, and the large head section (33) of the last supporting plate (3) is mounted on the auxiliary structure (4) through screws.

4. A multi-channel support structure according to claim 1, wherein the auxiliary structure (4) comprises a T-bar (41), a tension spring (42) and a mounting block (43), the bottom of the T-bar (41) is fixedly connected with the large head section (33) on the pallet (3) by a screw, and the top of the T-bar (41) is fixedly mounted with the mounting block (43) by the tension spring (42).

5. The multi-pipe support structure according to claim 1, wherein the clamp plate (5) is composed of an arc-shaped section (51), a single-headed section (52) and a double-headed section (53), the single-headed section (52) and the double-headed section (53) are respectively located at both ends of the arc-shaped section (51), the single-headed section (52) is fixedly mounted on the small-headed section (32) on the pallet (3) by screws, and the double-headed section (53) is fixedly mounted on the large-headed section (33) on the pallet (3) by screws.

6. A multi-channel support structure according to claim 3, wherein the volume of the small head section (32) is the same as the volume of the groove (34) provided in the large head section (33).

7. A multi-channel support structure according to claim 5, wherein the notches in the double head section (53) are arranged to fit into the recesses (34) provided in the large head section (33), and the notches in the double head section (53) are of the same size as the single head section (52).

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