CN213906218U - Green building engineering electromechanical pipeline mounting structure - Google Patents

Abstract

The application relates to a green building engineering electromechanical pipeline mounting structure, it includes: a support plate horizontally arranged on the wall; the connecting rod is arranged between the top of the mounting plate and the wall; and the mounting plate is arranged at the bottom of the supporting plate, the top of the mounting plate is provided with a mounting groove with the length direction consistent with the length direction of the supporting plate, the mounting groove is internally connected with a mounting block in a sliding manner, the top of the mounting block is provided with a clamping component for clamping a pipeline, and the mounting groove is internally provided with a plurality of buffering components for buffering the horizontal stress of the mounting block. The application has the effects of improving the anti-seismic performance and the service life of the electromechanical pipeline mounting structure, protecting the environment and reducing the injury of personnel and property.

Description

Green building engineering electromechanical pipeline mounting structure

Technical Field

The application relates to the technical field of electromechanical pipelines, in particular to an electromechanical pipeline mounting structure for green constructional engineering.

Background

The electromechanical pipelines comprise water supply and drainage pipes, fire-fighting spray pipes, air-conditioning air supply and exhaust pipes, cooling pipes, cable bridges, wire grooves, process pipelines and the like. A pipeline hanger is required to be used in the electromechanical pipeline installation construction, and the pipeline hanger is used for fixing the electromechanical pipeline on a wall body so as to realize the installation and fixation of the electromechanical pipeline. Electrical pipeline installation structure is commonly referred to as a pipe hanger, a type of structural member that can be used to aerial lay pipe supports. The pipe support is used wherever a pipe is laid, and is also called a pipe support, a pipe portion, or the like.

At present, a general pipe bracket includes: the cross rod, the hanging rod and the mounting rod are firstly horizontally fixed on the wall, then the hanging rod is vertically fixed at the bottom of the cross rod, the mounting rod is fixed at the end part of the cross rod, and finally a pipeline can be mounted on the mounting rod, so that the electrical pipeline on the mounting rod is stably mounted on the wall.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the earthquake takes place, the vibrations of certain intensity can all take place for horizontal pole, jib and installation pole, because be rigid connection between horizontal pole, jib and the installation pole, the shaking force can directly transmit to the pipeline of installation pole on, the pipeline receives probably to take place to acutely to rock behind the strong shaking force and even break, can cause the injury of personnel and property, remains further to improve to this.

SUMMERY OF THE UTILITY MODEL

In order to improve electromechanical pipeline mounting structure's anti-seismic performance, this application provides a green building engineering electromechanical pipeline mounting structure.

The application provides a green building engineering electromechanical pipeline mounting structure adopts following technical scheme:

a green building engineering electromechanical pipeline mounting structure, includes: a support plate horizontally arranged on the wall; a connecting rod disposed between the top of the mounting plate and the wall; and set up in the mounting panel of backup pad bottom, its characterized in that, the mounting panel top seted up length direction with backup pad length direction unanimous mounting groove, the mounting groove internal slipping is connected with the installation piece, the installation piece top is provided with the centre gripping subassembly of centre gripping pipeline, be provided with a plurality of cushions in the mounting groove the buffering subassembly of the horizontal atress of installation piece.

By adopting the technical scheme, the pipelines can be stably installed on the installation plate by arranging the installation groove, the installation blocks and the clamping assemblies, and when a plurality of pipelines need to be installed, the number of the installation blocks and the clamping assemblies can be conveniently increased in the installation groove, so that the installation requirement is ensured; through setting up buffer unit, can support tight installation piece from installation piece both sides, when the installation piece received the vibration power of horizontal direction, buffer unit can reduce the vibration power that the installation piece received. Through this scheme, compare with correlation technique, can reduce the shaking force that the pipeline received the horizontal direction, reduce the range of rocking of centre gripping subassembly and pipeline to can prolong the life of pipeline, reduce the manpower and materials that the change pipeline was spent, green.

Preferably, mounting groove length direction's both sides wall seted up length direction with mounting groove length direction looks unanimous groove that slides, the buffering subassembly includes: the sliding strip is connected in the sliding groove in a sliding mode; the buffer spring is arranged on the side wall of the sliding strip; the connecting sheet is arranged at the end part of the buffer spring; the connecting strip is arranged on one side, far away from the first buffer spring, of the connecting piece; and the connecting ball is arranged at one end, far away from the buffer spring, of the connecting strip, wherein connectors matched with the connecting ball are arranged on two sides of the mounting block.

Adopt above-mentioned technical scheme, connect ball and connector through setting up, can make installation piece and quick and accurate being connected of buffering subassembly, and be detachable connection between buffering subassembly and the installation piece, when the pipeline, when centre gripping subassembly etc. need be changed, can be convenient take out the installation piece, connection piece and connecting strip can strengthen buffer spring's stability, when the installation piece receives the effort of horizontal direction, can make buffer spring compression or tensile, under buffer spring resumes the effort of deformation, can slow down the power that the installation piece received, and can push away the installation piece to home position, guarantee the stability of pipeline.

Preferably, the clamping assembly comprises: two support rods vertically arranged at two sides of the top of the mounting block; the first clamping plate is arranged on one side of the supporting rod, which is close to the mounting block; the second clamping plate is arranged between the two supporting rods and is positioned above the first clamping plate; and the adjusting piece is arranged on the supporting rod and used for adjusting the installation height of the second clamping plate.

Adopt above-mentioned technical scheme, through setting up the bracing piece, first splint, second splint and regulating part, the bracing piece can improve the stability of first splint and second splint on the installation piece, under the mutually supporting of first splint and second splint, can press from both sides the pipeline tightly to can guarantee the stability of pipeline on the mounting panel, through the height of the regulation second splint that the regulating part can be convenient, the pipeline of easy to assemble, in addition, can adapt not unidimensional pipe use, improve the application scope of centre gripping subassembly.

Preferably, the adjusting member includes: the adjusting grooves are formed in one side, close to each other, of the supporting rod, and the length direction of the adjusting grooves is equal to that of the supporting rod; the adjusting block is connected in the adjusting groove in a sliding manner and is connected with the end part of the second clamping plate; a plurality of adjusting holes are formed in one side, far away from the second clamping plate, of the adjusting groove; and the adjusting rod is in threaded connection with the side wall of the adjusting block and is matched with the adjusting hole.

By adopting the technical scheme, the adjusting block can slide in the adjusting groove by arranging the adjusting groove, the adjusting block, the adjusting hole and the adjusting rod, the height of the second clamping plate can be adjusted, the adjusting rod penetrates into the adjusting hole in the adjusting groove after the position of the second clamping plate is determined, and the position of the adjusting block can be locked, so that the stability of the second clamping plate can be ensured.

Preferably, the slide bar is a circular bar, and a locking piece for limiting the rotation of the slide bar is arranged in the mounting groove.

Adopt above-mentioned technical scheme, can make the draw runner at the inslot rotation that slides, drive buffer spring, connection piece, connecting strip and connect the ball and rotate for the pivot along the draw runner, can adjust arbitrary one side of buffering subassembly on the draw runner, set up a set of buffering subassembly can be convenient with the contact of installation piece lateral wall, improve the suitability of buffering subassembly.

Preferably, the locking member includes: a plurality of first locking holes arranged on the side wall of the mounting groove; the rotating plates are arranged at the two ends of the sliding strip; the second locking hole is formed in the side wall of the rotating plate in a surrounding mode; and the locking rod is arranged in the first locking hole and the second locking hole.

By adopting the technical scheme, after the position of the sliding strip is determined, the locking rod penetrates through the first locking rod on the side wall of the mounting plate and then is connected into the second locking hole on the rotating plate in a threaded manner, so that the rotation and the sliding of the rotating plate can be limited, the rotation and the sliding of the sliding strip can be limited, and the stability of the buffer assembly under the working state can be ensured.

Preferably, the first locking holes are arranged in two rows on the side wall of the mounting groove.

By adopting the technical scheme, the first locking holes are arranged into two rows, and the first locking holes can be locked from the bottom and the top of the rotating plate, so that the stability of the sliding strip can be further improved.

Preferably, a bottom plate with an area larger than that of the end part of the supporting plate is arranged between the supporting plate and the wall, and a mounting piece is arranged on the side wall of the supporting plate and locked on the bottom plate through a bolt.

By adopting the technical scheme, the bottom plate can increase the contact area between the support plate and the wall and improve the stability of the support plate by arranging the bottom plate, the installation piece and the bolt.

In summary, the present application includes at least one of the following beneficial technical effects:

the installation groove, the installation blocks and the clamping assemblies are arranged, so that the pipelines can be stably installed on the installation plate, when a plurality of pipelines need to be installed, the number of the installation blocks and the clamping assemblies can be conveniently increased in the installation groove, and the installation requirements are ensured; through setting up buffer spring, can support tight installation piece from installation piece both sides, when the installation piece received the shaking force of horizontal direction, can slow down the effort of installation piece horizontal direction, guarantee that the stability of pipeline can reduce the shaking force that the installation piece received. Through the scheme, compared with the related technology, the vibration force in the horizontal direction borne by the pipeline can be reduced, and the shaking amplitude of the clamping assembly and the pipeline is reduced, so that the service life of the pipeline can be prolonged, the manpower and material resources consumed by replacing the pipeline are reduced, and the pipeline is green and environment-friendly;

through setting up the circular shape draw runner, make the draw runner can drive buffer spring, connection piece, connecting strip and connect the ball and rotate for the pivot along the draw runner, can adjust arbitrary one side of buffering subassembly on the draw runner, set up that a set of buffering subassembly can be convenient with installation piece lateral wall contact, improve buffering subassembly's suitability.

Drawings

FIG. 1 is a schematic overall structure of the present application;

fig. 2 is a partial cross-sectional view of a mounting plate in the present application.

Description of reference numerals: 1. a wall; 2. a support plate; 21. a boom; 3. a connecting rod; 4. mounting a plate; 41. mounting grooves; 42. mounting blocks; 43. a support bar; 44. a first splint; 45. a second splint; 451. an adjustment groove; 452. an adjusting block; 453. an adjustment hole; 454. adjusting a rod; 5. a base plate; 52. Mounting a sheet; 53. a bolt; 6. a sliding groove; 61. a slide bar; 610. a rotating plate; 611. a first locking hole; 612. a second locking hole; 613. a locking lever; 62. a buffer spring; 63. connecting sheets; 64. a connecting strip; 65. and connecting the ball.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses green building engineering electromechanical pipeline mounting structure. Referring to fig. 1 and 2, the electromechanical pipeline mounting structure is mounted on a wall 1, and includes a support plate 2, a connection rod 3, and a mounting plate 4. Wherein, be fixed with bottom plate 5 on wall 1, the area of bottom plate 5 is greater than the area of backup pad 2, is fixed with two installation pieces 52 in backup pad 2 one side near bottom plate 5, passes through bolt 53 at installation piece 52 and installs on bottom plate 5, makes the firm installation on bottom plate 5 of backup pad 2. The bottom plate 5 can increase the contact area of the support plate 2 and the wall 1, and improve the stability of the support plate 2 on the wall 1.

Connecting rod 3 one end articulates on wall 1, and the other end articulates in the one end that wall 1 was kept away from to 2 roof in backup pad, and whole slope sets up, makes to form a triangle-shaped framework between backup pad 2, connecting rod 3 and the wall 1, improves backup pad 2's stability to guarantee mounting panel 4's stability.

Two suspenders 21 vertically penetrate and are fixed at the bottom of the support plate 2, the mounting plate 4 is fixed at the bottom ends of the suspenders 21, and the mounting plate 4 is positioned under the support plate 2 and is parallel to the support plate 2.

The top of the mounting plate 4 is provided with a mounting groove 41, wherein the length direction of the mounting groove 41 is consistent with the length direction of the support plate 2, a mounting block 42 is connected in the mounting groove 41 in a sliding manner, and the top of the mounting block 42 is provided with a clamping component for clamping a pipeline.

The clamping assembly in this embodiment includes: the support rod 43, the first clamping plate 44, the second clamping plate 45 and the adjusting member, wherein the two support rods 43 are fixed at the top of the mounting block 42 near the two sides of the suspension rod 21, the first clamping plate 44 is fixed at the position of the support rod 43 near the bottom, and the first clamping plate 44 is located at the side where the two support rods 43 are near each other.

The second clamping plate 45 is arranged between the two supporting rods 43 through the adjusting piece, the second clamping plate 45 is located right above the first clamping plate 44, the height of the second clamping plate 45 on the supporting rods 43 can be adjusted, and the pipeline is convenient to install. The first clamping plate 44 and the second clamping plate 45 in the embodiment are both arc-shaped plates, and the pipeline can be clamped under the mutual matching of the first clamping plate 44 and the second clamping plate 45.

The regulating member in this embodiment includes: an adjusting groove 451, an adjusting block 452, an adjusting hole 453 and an adjusting rod 454, wherein the adjusting groove 451 is formed at a side where the supporting rods 43 are close to each other, and the length direction of the adjusting groove 451 is consistent with the length direction of the supporting rods 43; the adjusting block 452 is connected in the adjusting groove 451 in a sliding manner, and the adjusting block 452 can slide up and down in the adjusting groove 451; the adjusting holes 453 are formed in the adjusting groove 451 at a side away from the second clamping plate 45, the adjusting holes 453 are uniformly spaced apart from each other on a sidewall of the adjusting groove 451, a threaded hole (not shown) is horizontally formed through a sidewall of the adjusting block 452, the adjusting rod 454 is screwed to the sidewall of the adjusting block 452 through the threaded hole, and in this embodiment, the size of the adjusting rod 454 is matched with the size of the adjusting holes 453.

After the pipeline is installed, one side of the second clamping plate 45 close to the first clamping plate 44 is attached to the pipeline, the adjusting rod 454 is rotated to enable the adjusting rod 454 to enter the adjusting hole 453 in the side wall of the adjusting groove 451, the adjusting block 452 which slides vertically can be locked, and therefore the position of the second clamping plate 45 can be fixed, and the stability of the pipeline on the installing plate 4 is guaranteed.

A plurality of buffer components are arranged in the mounting groove 41, the force in the horizontal direction on the pipeline can be buffered through the force in the horizontal direction on the buffer mounting block 42, the stability of the pipeline is improved, and the possibility that the pipeline shakes or even breaks under the action of the shaking force is reduced.

The two side walls of the mounting groove 41 in the length direction are both provided with sliding grooves 6, wherein the length direction of the sliding grooves 6 is consistent with the length direction of the mounting groove 41. Wherein, the buffer component is arranged in the sliding groove 6.

The buffer assembly in this embodiment includes: a slide 61, a buffer spring 62, a connecting piece 63, a connecting piece 64 and a connecting ball 65. The sliding strip 61 in this embodiment is a circular strip, the sliding strip 61 can slide back and forth along the length direction of the sliding groove 6, and can also rotate in the sliding groove 6, the rotating plates 610 are fixed at both ends of the sliding strip 61, the rotating plates 610 in this embodiment are circular plates, and when the sliding strip 61 rotates, the rotating plates 610 can be driven to rotate in the sliding groove 6.

The side wall of the mounting plate 4 is provided with first locking holes 611, in this embodiment, the first locking holes 611 are provided on the two side walls in the length direction of the mounting plate 4 and are communicated with the sliding groove 6, and the first locking holes 611 are uniformly arranged at intervals, in this embodiment, the first locking holes 611 are provided in two rows. A plurality of second locking holes 612 are horizontally formed through the surface of the rotating plate 610, wherein the plurality of second locking holes 612 are uniformly arranged at intervals along the edge profile of the rotating plate 610. A locking lever 613 is provided in the first locking hole 611 and the second locking hole 612.

After the position of the slide bar 61 is determined, the locking rod 613 is threaded into the second locking hole 612 on the rotating plate 610 after passing through the first locking hole 611 on the mounting plate 4, so that the position of the rotating plate 610 can be fixed, the position of the slide bar 61 can be fixed, and the stability of the slide bar 61 in the working process can be ensured.

Buffer spring 62 horizontal fixation is at draw runner 61 lateral wall, and under buffer spring 62 is carrying out buffering work's state, buffer spring 62's extending direction is unanimous with the length direction of mounting groove 41, and mounting groove 41 can play certain limiting displacement to buffer spring 62, reduces buffer spring 62 and receives the vibration effect and the range of rocking, improves the stability of buffer spring 62 on mounting panel 4.

Connecting piece 63 is fixed in the one end that buffer spring 62 kept away from draw runner 61, connecting strip 64 is fixed in the one side that buffer spring 62 was kept away from to connecting piece 63, the length direction of connecting strip 64 is unanimous with the extending direction that buffer spring 62 filled up, the buffering ball is fixed in the one end of buffer spring 62 that connecting strip 64 kept away from, the connector (not shown in the figure) has been seted up on installation piece 42 and the both sides wall of mounting groove 41 looks vertically, wherein, the size of connector and the size looks adaptation of connecting ball 65, it is inconsistent with installation piece 42 that connecting ball 65 passes through the connector, thereby make buffer unit can be connected with installation piece 42, with the vibrations power of the horizontal direction that buffering installation piece 42 received, thereby improve the stability of centre gripping subassembly and pipeline.

Because draw runner 61 can make a round trip to slide in sliding groove 6, can adjust the mounted position of pipeline as required installation, and when need not use buffering subassembly, can slide draw runner 61 to mounting groove 41 side, reduce the influence of buffering subassembly to electromechanical pipeline mounting structure. When a plurality of pipelines need to be installed, a plurality of installation blocks 42 need to be arranged in the installation groove 41, and the sliding strip 61 can rotate in the sliding groove 6, so that the buffer assembly can be conveniently rotated, the connection ball 65 can be abutted to the connection ports on the installation blocks 42, and the buffer effect of the buffer assembly on two sides of the installation blocks 42 is guaranteed. When the pipe or the clamping assembly needs to be replaced, the connecting ball 65 can be conveniently separated from the mounting block 42 by the locking action of the unlocking locking rod 613 on the rotating plate 610, so that the mounting block 42 and the clamping assembly can be conveniently taken out for replacement.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A green building engineering electromechanical pipeline mounting structure, includes: a support plate (2) horizontally arranged on the wall (1); a connecting rod (3) arranged between the top of the supporting plate (2) and the wall (1); and set up in mounting panel (4) of backup pad (2) bottom, its characterized in that, mounting panel (4) top seted up length direction with mounting groove (41) that backup pad (2) length direction is unanimous, the internal slip of mounting groove (41) is connected with installation piece (42), installation piece (42) top is provided with the centre gripping subassembly of centre gripping pipeline, be provided with a plurality of cushions in mounting groove (41) the buffering subassembly of installation piece (42) horizontal atress.

2. The electro-mechanical pipeline installation structure for green building engineering according to claim 1, wherein the two side walls of the installation groove (41) in the length direction are provided with sliding grooves (6) in the length direction consistent with the length direction of the installation groove (41), and the buffer component comprises: the sliding strip (61) is connected in the sliding groove (6) in a sliding manner; a buffer spring (62) arranged on the side wall of the slide bar (61); a connecting piece (63) arranged at the end part of the buffer spring (62); the connecting strip (64) is arranged on one side, away from the buffer spring (62), of the connecting piece (63); and the connecting ball (65) is arranged at one end, far away from the buffer spring (62), of the connecting strip (64), wherein connecting ports matched with the connecting ball (65) are formed in two sides of the mounting block (42).

3. The electro-mechanical pipeline installation structure for green building engineering according to claim 1, wherein the clamping assembly comprises: two support rods (43) vertically arranged at two sides of the top of the mounting block (42); the first clamping plates (44) are arranged on one sides, close to each other, of the supporting rods (43) and close to the mounting blocks (42); a second clamping plate (45) arranged between the two supporting rods (43) and positioned above the first clamping plate (44); and the adjusting piece is arranged on the supporting rod (43) and used for adjusting the installation height of the second clamping plate (45).

4. The electro-mechanical line installation structure for green construction work of claim 3, wherein the adjusting member comprises: an adjusting groove (451) which is arranged on one side of the support rod (43) close to each other and has the length direction and the length direction of the support rod (43); an adjusting block (452) which is connected in the adjusting groove (451) in a sliding manner and is connected with the end part of the second clamping plate (45); a plurality of adjusting holes (453) which are arranged on one side of the adjusting groove (451) far away from the second clamping plate (45); and an adjusting rod (454) which is in threaded connection with the side wall of the adjusting block (452) and is matched with the adjusting hole (453).

5. The electro-mechanical pipeline installation structure for green constructional engineering according to claim 2, wherein the sliding strip (61) is a circular strip, and a locking piece for limiting the rotation of the sliding strip (61) is arranged in the installation groove (41).

6. The electro-mechanical line installation structure for green construction work of claim 5, wherein the locking member comprises: a plurality of first locking holes (611) which are arranged on the side wall of the mounting plate (4) and communicated with the sliding groove (6); rotating plates (610) arranged at two ends of the sliding strip (61); a second locking hole (612) surrounding the side wall of the rotating plate (610); and a locking rod (613) disposed in the first locking hole (611) and the second locking hole (612).

7. A green construction electromechanical pipeline mounting structure according to claim 6, wherein said first locking holes (611) are arranged in two rows on the side wall of said mounting plate (4).

8. A green constructional engineering electromechanical pipeline mounting structure as claimed in claim 1, wherein a bottom plate (5) with an area larger than that of the end part of the support plate (2) is arranged between the support plate (2) and the wall (1), a mounting piece (52) is arranged on the side wall of the support plate (2), and the mounting piece (52) is locked on the bottom plate (5) through a bolt (53).

Images