CN115126936A - Electromechanical pipeline installation supporting and hanging frame capable of reducing shaking amplitude - Google Patents

Abstract

The invention discloses a support and hanger frame capable of reducing the shaking amplitude for mounting an electromechanical pipeline, which comprises a support (1), a connecting frame (2), a mounting block (7), a rotation adjusting assembly, a first telescopic assembly, a second telescopic assembly and a locking assembly, wherein the support and hanger frame is used for mounting the electromechanical pipeline; the bracket comprises a pair of arc-shaped plates which are oppositely arranged to form a closed loop or open loop structure, and the pair of arc-shaped plates are locked and connected through a locking assembly, so that the bracket is clamped on the pipeline; the connecting frame is fixedly connected to the top of an arc plate positioned above the connecting frame, the connecting frame is connected with the mounting block through the rotating adjusting assembly, and the connecting frame is lifted below the mounting block through the rotating adjusting assembly and drives the pipeline to be lifted synchronously; the plurality of groups of first telescopic assemblies are arranged between the connecting frame and the mounting block; the installation block is fixedly installed at the bottom of the floor slab (3), and the plurality of groups of second telescopic assemblies can be rotatably connected between the connecting frame and the floor slab. The invention can flexibly adjust the installation height of the electromechanical pipeline, provides stable support for the installation of the electromechanical pipeline and slows down the shaking amplitude.

Description

Electromechanical pipeline installation supporting and hanging frame capable of reducing shaking amplitude

Technical Field

The invention relates to pipeline installation equipment, in particular to a support and hanger for electromechanical pipeline installation, which can reduce the shaking amplitude.

Background

Most of the enterprises at present have automatic machine equipment, and the electromechanical installation industry is born as a result, wherein the electromechanical installation comprises the installation of equipment, lines and pipelines of general industrial and public and civil construction projects, the construction of 35 kV and below transformer and distribution station projects, and the manufacture and installation of non-standard steel components. When the pipeline is laid on the ground or hung on a wall body in an overhead manner, a hanging bracket is usually adopted to install, support and fix the pipeline.

Chinese utility model patent CN212430004U discloses a pipeline gallows, including pipeline gallows, still include a base, the base bottom surface is equipped with the fixed column, and the coaxial flexible post that its bottom surface was worn out to the sliding fit that is equipped with on the fixed column, flexible post and pipeline gallows are connected, and it wears into in the fixed column one end and is equipped with the fixture block, is equipped with in the fixed column that corresponds and supplies the fixture block, and can vertical free gliding draw-in groove, and the cover is equipped with damping spring on the flexible post, and damping spring elasticity direction both ends are supported respectively and are pushed against fixture block, draw-in groove diapire. This pipeline gallows can not height-adjusting, and in the installation of actual electromechanical pipeline, probably because the ceiling height difference, pipeline installation error, component machining error circumstances such as lead to having the deviation between the mounting height and the design height of pipeline to lead to the unable normal installation of pipeline, influence the construction progress, also influence pipeline and inside the safety in utilization of wearing to establish the structure. Meanwhile, the damping spring of the pipeline support hanger can only buffer longitudinal vibration, and the transverse and longitudinal rotation amplitudes of the damping spring cannot be buffered and dissipated, so that the pipeline can transversely or longitudinally shake after being subjected to external force, and the normal use and the installation stability of the pipeline are influenced.

Disclosure of Invention

The invention aims to provide a support and hanger for mounting an electromechanical pipeline, which can reduce the shaking amplitude, can flexibly adjust the mounting height of the electromechanical pipeline, provides stable support for mounting the electromechanical pipeline and can effectively reduce the shaking amplitude.

The invention is realized in the following way:

a supporting and hanging bracket for electromechanical pipeline installation capable of reducing the shaking amplitude comprises a bracket, a connecting frame, an installation block, a rotation adjusting assembly, a first telescopic assembly, a second telescopic assembly and a locking assembly; the bracket comprises a pair of arc plates which are oppositely arranged to form a closed loop or an open loop structure, and the pair of arc plates are locked and connected through a locking assembly, so that the bracket can be clamped on the surface of the pipeline; the connecting frame is fixedly connected to the top of the arc-shaped plate positioned above the connecting frame, and the connecting frame is connected with the mounting block through the rotating adjusting assembly, so that the connecting frame is lifted below the mounting block through the rotating adjusting assembly and drives the pipeline to be lifted synchronously; the plurality of groups of first telescopic assemblies are arranged between the connecting frame and the mounting block; the installation block is fixedly installed at the bottom of the floor slab, and the plurality of groups of second telescopic assemblies are respectively connected between the connecting frame and the floor slab in a rotatable mode.

The rotary adjusting assembly comprises a rotary bearing seat, a first threaded sleeve and a first threaded rod; the upper end of the first threaded rod is vertically and fixedly connected to the middle of the lower end of the mounting block, the first threaded sleeve is screwed on the first threaded rod, and the lower end of the first threaded sleeve is rotatably mounted in the middle of the upper end of the connecting frame through the rotating bearing seat, so that the first threaded sleeve can rotate and lift between the first threaded rod and the connecting frame.

The plurality of groups of first telescopic assemblies are uniformly distributed around the rotation adjusting assembly, the axial direction of each first telescopic assembly is parallel to the axial direction of the rotation adjusting assembly, and the first telescopic assemblies and the rotation adjusting assembly are both perpendicular to the top surface of the connecting frame and the mounting block; each group of first telescopic assemblies comprises a first lengthening rod and a connecting rod; the upper end fixed connection of first extension bar is at the lower extreme lateral part of installation piece, and the connecting rod is open-top's cavity member, and the lower extreme coaxial insertion of first extension bar is in the connecting rod, and the lower extreme fixed connection of connecting rod is at the upper end lateral part of link.

The plurality of groups of second telescopic assemblies are uniformly distributed around the plurality of groups of first telescopic assemblies, and the second telescopic assemblies are obliquely arranged between the connecting frame and the floor slab; each group of second telescopic assemblies comprises a first fixed block, a second threaded rod and a second threaded sleeve; the first fixing block is fixedly arranged on the side wall of the connecting frame, and the lower end of the second threaded rod is rotatably connected with the first fixing block and locked through a screw; the second threaded sleeve is screwed and adjusted on the second threaded rod, and the upper end of the second threaded sleeve can be abutted against the bottom surface of the floor slab.

The upper end of the second thread sleeve is provided with a ball groove, and balls are embedded in the ball groove in a rolling manner, so that the upper end of the second thread sleeve can be in sliding contact with and abutted against the bottom surface of the floor slab beside the mounting block through the balls.

The side of installation piece be equipped with the snap ring, the side opening of snap ring is C shape structure, the diameter of second thread bush is greater than the opening width of snap ring, makes the upper portion of second thread bush can be connected to the snap ring through opening activity joint, the perpendicular butt of second thread bush is in the bottom of floor.

The locking assembly comprises a first connecting block, a second connecting block, a third connecting block, a second extension bar, a fourth connecting block and an elastic locking mechanism; the first connecting block is of an inverted L-shaped structure, the horizontal section of the first connecting block is fixedly connected to one side wall of the connecting frame, and the first connecting block is positioned below the first fixing block; the second connecting block is of an L-shaped structure, the horizontal section of the second connecting block is fixedly connected to one side wall of the arc-shaped plate positioned below the second connecting block, and the vertical section of the first connecting block is attached to the outer side of the vertical section of the second connecting block and is movably connected with the vertical section of the second connecting block through an elastic locking mechanism; the fourth connecting block is of an inverted L-shaped structure, the horizontal section of the fourth connecting block is fixedly connected to the other side wall of the connecting frame, and an inserting groove is formed in the vertical section of the fourth connecting block; the third connecting block is of an L-shaped structure, and the horizontal section of the third connecting block is fixedly connected to the other side wall of the arc-shaped plate positioned below the third connecting block; the lower end of the second extension bar is fixedly connected with the vertical section of the third connecting block, and the upper end of the second extension bar can be movably inserted into the slot.

The elastic locking mechanism comprises a clamping block and a second fixing block; one end of the second fixing block is fixedly arranged at the lower part of the vertical section of the first connecting block, and the other end of the second fixing block is connected with the clamping block; a through groove is formed in the vertical section of the first connecting block, and one end of the clamping block can penetrate through the first connecting block through the through groove and is movably clamped with the second connecting block.

The other end of the clamping block is provided with a clamping tooth, a clamping tooth groove is formed on the vertical section of the second connecting block, a plurality of clamping tooth grooves are sequentially and longitudinally arranged, and the clamping tooth can be embedded in one clamping tooth groove, so that the vertical section of the first connecting block is in locking connection with the vertical section of the second connecting block; the latch is a triangle structure with a horizontal top.

The fixture block be the structure of falling L shape, the middle part of fixture block is connected with the rotatable formula of the other end of second fixed block through the second pivot, the one end of fixture block is located the top of second fixed block and runs through first connecting block, the other end of fixture block is located the below of second fixed block and can be connected with the vertical section lower extreme of first connecting block through the spring formula of springing.

Compared with the prior art, the invention has the following beneficial effects:

1. the rotary adjusting assembly is arranged, so that the heights of the support and the connecting frame can be adjusted by utilizing the relative rotation of the threads between the first threaded sleeve and the first threaded rod, the mounting height of the pipeline penetrating through the support is adjusted, the mounting height deviation such as the change of the pipe diameter of the pipeline, the mounting height error, the processing error, the height difference of a ceiling and the like is adapted, the normal mounting and construction progress of the pipeline is ensured, the adjustment flexibility is high, and the operation is convenient.

2. The first telescopic assembly is arranged, and can synchronously rotate along with the height adjustment of the rotating adjusting assembly, so that the limiting effect is achieved, and the stability of the connecting frame and the pipeline in the lifting adjusting process of the rotating adjusting assembly is ensured.

3. According to the invention, the second telescopic assembly is arranged, the second telescopic assembly which is vertically arranged is utilized to play an effective supporting role between the connecting frame and the floor slab, the second telescopic assembly can also be rotated to an inclined state, the first telescopic assembly, the second telescopic assembly and the floor slab form a right-angled triangle structure, the supporting stability is improved, the conditions of shaking, vibration and the like when the connecting frame is subjected to external force are reduced, the shaking amplitude is reduced, and the installation stability of the pipeline is ensured.

4. The locking assembly is arranged, the arrangement distance between the pair of arc-shaped plates is adjusted through the four L-shaped connecting blocks, and the clasping locking of the pair of arc-shaped plates at the upper part and the lower part of the pipeline is realized through the splicing of the second extension bar and the slot and the clamping of the clamping teeth and the clamping tooth grooves, so that the stable installation of pipelines with different sizes is ensured, and the pipeline clamping device has good universality.

Drawings

FIG. 1 is a front sectional view of a support and hanger for mounting an electromechanical pipeline, which can reduce the sway amplitude;

FIG. 2 is a side view of the electromechanical pipeline mounting bracket of the present invention for reducing the sway amplitude;

FIG. 3 is a top view of a snap ring of a support and hanger for electromechanical pipeline installation according to the present invention for reducing the sloshing amplitude;

FIG. 4 is an enlarged schematic view at A in FIG. 1;

FIG. 5 is an enlarged schematic view at B in FIG. 2;

FIG. 6 is an enlarged schematic view at C of FIG. 1; .

In the figure, 1, a bracket; 2. a connecting frame; 3. a floor slab; 4. rotating the bearing seat; 5. a first threaded sleeve; 6. a first threaded rod; 7. mounting blocks; 8. a first extension bar; 9. a connecting rod; 10. a first fixed block; 11. a second threaded rod; 12. a second threaded sleeve; 13. a ball bearing; 14. a snap ring; 15. a screw; 16. a first connection block; 17. a spring; 18. a clamping block; 19. a second fixed block; 20. a second connecting block; 21. a third connecting block; 22. a second extension bar; 23. a fourth connecting block; 24 a first rotating shaft; 25. a second rotating shaft; 26. clamping teeth; 27. a cogging groove.

Detailed Description

The invention is further described with reference to the following figures and specific examples.

Referring to fig. 1 and 2, a support and hanger for electromechanical pipeline installation capable of reducing the shaking amplitude comprises a support 1, a connecting frame 2, an installation block 7, a rotation adjusting assembly, a first telescopic assembly, a second telescopic assembly and a locking assembly; the support 1 comprises a pair of arc-shaped plates, the arc-shaped plates are oppositely arranged to form a closed loop or an open loop structure, and the arc-shaped plates are locked and connected through a locking assembly, so that the support 1 can be clamped on the surface of a pipeline; the connecting frame 2 is fixedly connected to the top of an arc-shaped plate positioned above, and the connecting frame 2 is connected with the mounting block 7 through the rotating adjusting component, so that the connecting frame 2 is lifted below the mounting block 7 through the rotating adjusting component and drives the pipeline to be lifted synchronously; the plurality of groups of first telescopic assemblies are arranged between the connecting frame 2 and the mounting block 7; the installation block 7 is fixedly installed at the bottom of the floor slab 3, and the plurality of groups of second telescopic assemblies are respectively connected between the connecting frame 2 and the floor slab 3 in a rotatable mode. The rotary adjusting assembly can be used for adjusting the distance between the connecting frame 2 and the mounting block 7, so that the mounting height of the bracket 1 and the pipeline is adjusted to meet the mounting requirement of the electromechanical pipeline. The first telescopic component can synchronously extend and retract along with the adjustment of the rotary adjusting component so as to ensure the stability of the height adjustment of the pipeline; the flexible subassembly of second can support link 2, improves the installation stability of pipeline, reduces the pipeline and receives external force influence and take place vibrations, the condition emergence of rocking to slow down the amplitude of rocking. The pipeline is embraced through a pair of arc and is locked through locking Assembly, and the installation is stable, and it is convenient to dismantle, is applicable to the pipeline of different pipe diameters.

Referring to fig. 1 and 2, the rotation adjusting assembly includes a rotation bearing seat 4, a first threaded sleeve 5 and a first threaded rod 6; the upper end of the first threaded rod 6 is vertically and fixedly connected to the middle of the lower end of the mounting block 7, the first threaded sleeve 5 is screwed on the first threaded rod 6 through threads, and the lower end of the first threaded sleeve 5 is rotatably mounted in the middle of the upper end of the connecting frame 2 through the rotating bearing seat 4, so that the first threaded sleeve 5 can rotate and lift between the first threaded rod 6 and the connecting frame 2 through the threads. The first thread bush 5 and the first thread rod 6 are relatively rotated by utilizing threads, and the first thread rod 6 is fixedly arranged on the mounting block 7, so that the first thread bush 5 can rotate upwards or downwards relative to the first thread rod 6, and the purpose of adjusting the height in a lifting way is achieved. Because first thread bush 5 can rotate the formula assembly with link 2 through rotating bearing frame 4, the rotation of first thread bush 5 can not drive link 2 and take place to deflect to avoid influencing the installation axiality of pipeline.

Referring to fig. 1 and 2, the plurality of groups of first telescopic assemblies are uniformly distributed around the rotation adjusting assembly, the axial direction of the first telescopic assemblies is parallel to the axial direction of the rotation adjusting assembly, and the first telescopic assemblies and the rotation adjusting assembly are both perpendicular to the top surface of the connecting frame 2 and the mounting block 7. The number of the first telescopic assemblies can be adjusted according to actual requirements, two groups or four groups are preferred, and the first telescopic assemblies are used for forming telescopic connection and limiting between the connecting frame 2 and the mounting block 7.

Referring to fig. 1 and 2, each set of the first telescopic assemblies includes a first extension bar 8 and a connecting bar 9; upper end fixed connection of first extension bar 8 is at the lower extreme lateral part of installation piece 7, and connecting rod 9 is open-top's cavity member, and the lower extreme coaxial insertion of first extension bar 8 is in connecting rod 9, and the lower extreme fixed connection of connecting rod 9 is at the upper end lateral part of link 2. The first extension bar 8 and the connecting rod 9 can freely stretch out and draw back, so that the first telescopic assembly can synchronously stretch out and draw back along with the up-and-down lifting of the first thread bush 5. The first extension bar 8 of the first flexible subassembly of a plurality of groups is fixed with installation piece 7, and the connecting rod 9 of the first flexible subassembly of a plurality of groups is fixed with link 2, can restrict the deflection of link 2, guarantees the stability of link 2 when first thread bush 5 rotates to go up and down.

Referring to fig. 1 and 2, the plurality of groups of second telescopic assemblies are uniformly distributed around the plurality of groups of first telescopic assemblies, and the second telescopic assemblies are obliquely arranged between the connecting frame 2 and the floor slab 3. The quantity of the flexible subassembly of second can be adjusted according to actual demand, and preferably two sets of or four groups, the flexible subassembly of second is used for forming supplementary flexible support between link 2 and floor 3, reduces the pipeline and receives vibrations, the condition emergence such as rock after external force to slow down and rock the range.

Referring to fig. 1, 2, 4 and 5, each set of the second telescopic assemblies includes a first fixed block 10, a second threaded rod 11 and a second threaded sleeve 12; the first fixing block 10 is fixedly arranged on the side wall of the connecting frame 2, and the lower end of the second threaded rod 11 is rotatably connected with the first fixing block 10 through a first rotating shaft 24 and is locked through a screw 15; the second threaded sleeve 12 is adjusted on the second threaded rod 11 by screwing, and the upper end of the second threaded sleeve 12 can abut against the bottom surface of the floor slab 3. The second threaded rod 11 and the second threaded sleeve 12 can be relatively rotated and stretched through threads, and the principle of the second threaded rod is consistent with that of the first threaded sleeve 5 and the first threaded rod 6, and the details are not repeated; after the second threaded rod 11 rotates around the first fixed block 10 to an inclined state through the first rotating shaft 24, the lower end of the second threaded rod 11 is locked with the first fixed block 10 through the threaded hole through the screw 15, and the second threaded rod 11 is prevented from rotating accidentally. The second thread sleeve 12 is screwed to enable the upper end of the second thread sleeve to be tightly abutted against the bottom surface of the floor slab 3, a supporting effect is achieved between the floor slab 3 and the connecting frame 2, the installation stability of the connecting frame 2 is improved, and therefore the installation stability of the pipeline is improved.

Referring to fig. 1 to 3, a ball groove (not shown) is formed at the upper end of the second threaded sleeve 12, and balls 13 are rotatably embedded in the ball groove, so that the upper end of the second threaded sleeve 12 can be in sliding contact with and abut against the bottom surface of the floor slab 3 beside the mounting block 7 through the balls 13. The ball 13 can reduce the direct friction between the upper end of the second thread bush 12 and the bottom surface of the floor slab 3, and the service life of the second thread bush 12 is prolonged. Since the lower end of the second threaded rod 11 is locked by the screw 15, the ball 13 does not affect the support stability of the second threaded sleeve 12 and the second threaded rod 11 between the floor slab 3 and the connecting frame 2.

Preferably, the first fixing block 10 may be provided with a groove for embedding an end of the second threaded rod 11, and the size and structure of the groove may limit the rotational position of the second threaded rod 11, thereby preventing the first fixing block 10 from being excessively rotated outward and losing the supporting effect.

Referring to fig. 1 to 3, a snap ring 14 is provided at a side end of the mounting block 7, a side end opening of the snap ring 14 is in a C-shaped structure, a diameter of the second threaded sleeve 12 is greater than a width of the opening of the snap ring 14, so that an upper portion of the second threaded sleeve 12 can be movably clamped into the snap ring 14 through the opening, and the second threaded sleeve 12 vertically abuts against a bottom of the floor slab 3. The snap ring 14 may be made of a material with a certain flexibility, such as plastic, so that the second thread bush 12 can be locked into the snap ring 14 by using the deformation of the snap ring 14 and cannot be separated from the snap ring 14. When the second threaded sleeve 12 is clamped in the clamping ring 14, the second threaded sleeve 12 and the second threaded rod 11 are just perpendicular to the floor slab 3, and the support stability of the second threaded sleeve 12 and the second threaded rod 11 between the floor slab 3 and the connecting frame 2 is ensured.

Referring to fig. 1, 2 and 6, the locking assembly includes a first connecting block 16, a second connecting block 20, a third connecting block 21, a second extension bar 22, a fourth connecting block 23 and an elastic locking mechanism; the first connecting block 16 is of an inverted-L-shaped structure, the horizontal section of the first connecting block 16 is fixedly connected to one side wall of the connecting frame 2, and the first connecting block 16 is positioned below the first fixing block 10; the second connecting block 20 is in an L-shaped structure, the horizontal section of the second connecting block 20 is fixedly connected to one side wall of the arc-shaped plate positioned below, and the vertical section of the first connecting block 16 is attached to the outer side of the vertical section of the second connecting block 20 and is movably connected through an elastic locking mechanism; the fourth connecting block 23 is in an inverted L-shaped structure, a horizontal section of the fourth connecting block 23 is fixedly connected to the other side wall of the connecting frame 2, and a slot (not shown in the figure) is formed in a vertical section of the fourth connecting block 23; the third connecting block 21 is in an L-shaped structure, and the horizontal section of the third connecting block 21 is fixedly connected to the other side wall of the arc-shaped plate positioned below; the lower end of the second extension bar 22 is fixedly connected with the vertical section of the third connecting block 21, and the upper end of the second extension bar 22 can be movably inserted in the slot. The four L-shaped connecting blocks are used for butt joint of a pair of arc-shaped plates to form a closed loop or an open loop structure and can be clasped on a pipeline. The distance between the pair of arc-shaped plates can be adjusted by utilizing the difference of the insertion depth of the second extension bar 22 in the slot and the difference of the connection positions of the elastic locking mechanism for connecting the first connecting block 16 and the second connecting block 20, thereby adapting to the cohesion fixation of pipelines with different pipe diameters. The radian of arc can be confirmed according to the size of pipeline, even the pipeline outer wall can't laminate completely to the arc, a pair of arc also can compress tightly the pipeline from top and below through a plurality of contact positions, guarantees that the centre gripping of pipeline is stable.

Referring to fig. 1, 2 and 6, the elastic locking mechanism includes a latch 18 and a second fixing block 19; one end of the second fixing block 19 is fixedly arranged at the lower part of the vertical section of the first connecting block 16, and the other end of the second fixing block 19 is connected with the fixture block 18; a through groove (not shown) is formed on the vertical section of the first connecting block 16, and one end of the clamping block 18 can penetrate through the first connecting block 16 through the through groove and is movably clamped with the second connecting block 20. After the second connecting block 20 moves to the installation height relative to the first connecting block 16, the second connecting block 20 and the first connecting block 16 can be inserted and positioned through the fixture block 18, and the purpose of locking a pair of arc-shaped plates is achieved.

Referring to fig. 6, a latch 26 is formed at the other end of the latch 18, a latch groove 27 is formed on the vertical section of the second connecting block 20, a plurality of latch grooves 27 are sequentially and longitudinally arranged, and the latch 26 can be embedded in one of the latch grooves 27, so that the vertical section of the first connecting block 16 is locked and connected with the vertical section of the second connecting block 20. Through the joint of latch 26 with the latch groove 27 of different height departments, can adjust the mounting height of second connecting block 20 relative first connecting block 16 to satisfy the requirement of a pair of arc board interval control, in order to adapt to not unidimensional pipeline.

Referring to fig. 6, the latch 26 is a triangular structure with a horizontal top, and the horizontal plane can be raised to effectively support, so as to ensure the connection reliability between the second connecting block 20 and the first connecting block 16, and prevent the arc plate located below from falling due to the gravity of the pipeline.

The clamping block 18 is of an inverted L-shaped structure, the middle of the clamping block 18 is rotatably connected with the other end of the second fixing block 19 through the second rotating shaft 25, one end of the clamping block 18 is located above the second fixing block 19 and penetrates through the first connecting block 16, and the other end of the clamping block 18 is located below the second fixing block 19 and is elastically connected with the lower end of the vertical section of the first connecting block 16 through the spring 17. The spring 17 is in a compressed state, the counterforce of the spring 17 acts on the fixture block 18, and the fixture tooth 26 of the fixture block 18 is tightly pressed in the fixture tooth groove 27; the second rotating shaft 25 is arranged to satisfy the counterclockwise rotation of the latch 18, so as to ensure that the latch 26 abuts against the latch groove 27.

Referring to fig. 1 to 6, the using method and the working principle of the present invention are as follows:

the installation block 7 is fixedly installed on the bottom surface of the floor slab 3 in a screwing mode or the like, the installation block is located above the installation position of an electromechanical pipeline, the upper end of the first threaded rod 6 is fixed in the center of the bottom surface of the installation block 7 in a welding mode or a screwing mode or the like, the first threaded sleeve 5 is sleeved on the first threaded rod 6 through thread rotation, the first threaded sleeve 5 is manually rotated, the first threaded sleeve 5 can rotate relative to the connecting frame 2 through a rotating bearing seat 4, the rotation of the first threaded sleeve 5 is converted into axial linear motion through threads, the installation distance of the connecting frame 2 relative to the installation block 7 is adjusted, the height of the support 1 is adjusted, and the purpose of adjusting the installation height of the electromechanical pipeline is achieved.

When 5 rotating adjustment at first thread bush, be fixed in the first extension bar 8 of floor 3 bottom and be fixed in the connecting rod relative slip flexible at link 2 top to guarantee the stable lift of link 2, prevent that link 2 from taking place to deflect. The first telescopic elements may be arranged in two or four groups or in two groups and symmetrically arranged with respect to the first threaded sleeve 5.

The second threaded sleeve 12 is manually rotated, the rotation of the second threaded sleeve 12 is converted into axial linear motion through threads, so that the sleeving length of the second threaded rod 11 and the second threaded sleeve 12 is adjusted, the upper end of the second threaded sleeve 12 can be tightly abutted to the bottom of the floor slab 3, and the supporting and reinforcing effects are achieved. The second threaded sleeve 12 is limited by a clamping ring 14 and can be vertically arranged at the bottom of the floor slab 3; also can take out second thread bush 12 from snap ring 14, second threaded rod 11 rotates through first pivot 24 relative first fixed block 10, adjust the length that cup joints of second threaded rod 11 and second thread bush 12, make second threaded rod 11 and second thread bush 12 slope setting between floor 3 bottom and first fixed block 10, the flexible subassembly of second, floor 3, first flexible subassembly constitutes the right triangle structure, screw in screw 15 is fixed with the lower extreme of second threaded rod 11 and the locking of first fixed block 10, play the effect of outrigger.

The electromechanical pipeline is arranged on the arc-shaped plates, the pair of arc-shaped plates are clasped on the surface of the electromechanical pipeline, and at the moment, the upper end of the second extension bar 22 is inserted into the slot of the fourth connecting block 23. The vertical section of the first connecting block 16 is attached to the outer side of the vertical section of the second connecting block 20, the fixture block 18 penetrates through the first connecting block 16 through the through groove, and the fixture tooth 26 at the end part of the fixture block 18 is inserted into the fixture tooth groove 27 at the corresponding position in a matching manner. The middle part of the fixture block 18 is rotatably connected with the second fixing block 19 through the second rotating shaft 25, the spring 17 is installed between the lower end of the fixture block 18 and the lower end of the vertical section of the first connecting block 16, the spring 17 is in a compressed state, the spring 17 can push the lower end of the fixture block 18 to rotate outwards, and therefore the latch 26 at the end part of the fixture block 18 can reliably abut against the latch groove 27, the pair of arc-shaped plates is locked, and the purposes of mounting the electromechanical pipeline and preventing the falling off are achieved.

The two ends of the pair of arc plates form a closed loop structure when being butted, and the closed loop structure is suitable for cohesion of a pipeline with the size matched with the size of the closed loop structure; the pair of arc plates are oppositely arranged and are not connected to form an open ring structure, so that the pipe clamp is suitable for cohesion of a pipeline with the size larger than that of a closed ring structure.

The present invention is not limited to the above embodiments, and any modifications, equivalent replacements, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a can slow down electromechanical pipeline installation of range of rocking and use a gallows which characterized by: the device comprises a bracket (1), a connecting frame (2), a mounting block (7), a rotation adjusting component, a first telescopic component, a second telescopic component and a locking component; the support (1) comprises a pair of arc-shaped plates, the arc-shaped plates are oppositely arranged to form a closed loop or an open loop structure, and the arc-shaped plates are locked and connected through a locking assembly, so that the support (1) can be clamped on the surface of a pipeline; the connecting frame (2) is fixedly connected to the top of an arc-shaped plate located above the connecting frame, and the connecting frame (2) is connected with the mounting block (7) through the rotating adjusting assembly, so that the connecting frame (2) can lift below the mounting block (7) through the rotating adjusting assembly and drive the pipeline to lift synchronously; the plurality of groups of first telescopic assemblies are arranged between the connecting frame (2) and the mounting block (7); the mounting block (7) is fixedly mounted at the bottom of the floor slab (3), and the plurality of groups of second telescopic assemblies are respectively connected between the connecting frame (2) and the floor slab (3) in a rotatable manner.

2. The electromechanical pipeline installation supporting and hanging bracket capable of reducing the shaking amplitude as claimed in claim 1, wherein: the rotary adjusting assembly comprises a rotary bearing seat (4), a first threaded sleeve (5) and a first threaded rod (6); the upper end of the first threaded rod (6) is vertically and fixedly connected to the middle of the lower end of the mounting block (7), the first threaded sleeve (5) is connected to the first threaded rod (6) in a rotating mode, the lower end of the first threaded sleeve (5) is mounted in the middle of the upper end of the connecting frame (2) in a rotating mode through the rotating bearing seat (4), and the first threaded sleeve (5) can rotate between the first threaded rod (6) and the connecting frame (2) to lift.

3. The electromechanical pipeline installation supporting and hanging bracket capable of reducing the shaking amplitude as claimed in claim 1, wherein: the plurality of groups of first telescopic assemblies are uniformly distributed around the rotation adjusting assembly, the axial direction of the first telescopic assemblies is parallel to the axial direction of the rotation adjusting assembly, and the first telescopic assemblies and the rotation adjusting assembly are both perpendicular to the top surface of the connecting frame (2) and the mounting block (7); each group of first telescopic assemblies comprises a first lengthening rod (8) and a connecting rod (9); the upper end fixed connection of first extension bar (8) is in the lower extreme lateral part of installation piece (7), and connecting rod (9) are open-top's cavity member, and the lower extreme coaxial insertion of first extension bar (8) is in connecting rod (9), and the lower extreme fixed connection of connecting rod (9) is in the upper end lateral part of link (2).

4. The electromechanical pipe mounting support and hanger capable of reducing the sloshing amplitude as claimed in claim 1, wherein: the plurality of groups of second telescopic assemblies are uniformly distributed around the plurality of groups of first telescopic assemblies, and the second telescopic assemblies are obliquely arranged between the connecting frame (2) and the floor slab (3); each group of second telescopic assemblies comprises a first fixed block (10), a second threaded rod (11) and a second threaded sleeve (12); the first fixing block (10) is fixedly arranged on the side wall of the connecting frame (2), and the lower end of the second threaded rod (11) is rotatably connected with the first fixing block (10) and locked by a screw (15); the second threaded sleeve (12) is screwed and adjusted on the second threaded rod (11), and the upper end of the second threaded sleeve (12) can abut against the bottom surface of the floor slab (3).

5. The electromechanical pipe mounting support and hanger bracket capable of reducing the sloshing amplitude as claimed in claim 4, wherein: the upper end of the second thread sleeve (12) is provided with a ball groove, balls (13) are embedded in the ball groove in a rolling mode, and the upper end of the second thread sleeve (12) can be in sliding contact with and abutted against the bottom surface of the floor (3) beside the mounting block (7) through the balls (13).

6. The electromechanical pipe mounting support and hanger capable of reducing the sloshing amplitude as claimed in claim 5, wherein: the side of installation piece (7) be equipped with snap ring (14), the side opening of snap ring (14) is C shape structure, the diameter of second thread bush (12) is greater than the opening width of snap ring (14), make the upper portion of second thread bush (12) can through opening activity joint to snap ring (14) in, perpendicular butt in the bottom of floor (3) of second thread bush (12).

7. The electromechanical pipe mounting support and hanger capable of reducing the sloshing amplitude as claimed in claim 1, wherein: the locking assembly comprises a first connecting block (16), a second connecting block (20), a third connecting block (21), a second extension bar (22), a fourth connecting block (23) and an elastic locking mechanism; the first connecting block (16) is of an inverted L-shaped structure, the horizontal section of the first connecting block (16) is fixedly connected to one side wall of the connecting frame (2), and the first connecting block (16) is located below the first fixing block (10); the second connecting block (20) is of an L-shaped structure, the horizontal section of the second connecting block (20) is fixedly connected to one side wall of the arc-shaped plate positioned below the second connecting block, and the vertical section of the first connecting block (16) is attached to the outer side of the vertical section of the second connecting block (20) and is movably connected through an elastic locking mechanism; the fourth connecting block (23) is of an inverted L-shaped structure, the horizontal section of the fourth connecting block (23) is fixedly connected to the other side wall of the connecting frame (2), and a slot is formed in the vertical section of the fourth connecting block (23); the third connecting block (21) is of an L-shaped structure, and the horizontal section of the third connecting block (21) is fixedly connected to the other side wall of the arc-shaped plate below; the lower end of the second extension bar (22) is fixedly connected with the vertical section of the third connecting block (21), and the upper end of the second extension bar (22) can be movably inserted into the slot.

8. The electromechanical pipe mounting support and hanger bracket according to claim 7, which can reduce the vibration amplitude, wherein: the elastic locking mechanism comprises a clamping block (18) and a second fixing block (19); one end of the second fixing block (19) is fixedly arranged at the lower part of the vertical section of the first connecting block (16), and the other end of the second fixing block (19) is connected with the clamping block (18); a through groove is formed on the vertical section of the first connecting block (16), and one end of the clamping block (18) can penetrate through the first connecting block (16) through the through groove and is movably clamped with the second connecting block (20).

9. The electromechanical pipe mounting support and hanger bracket according to claim 8, which can reduce the sway amplitude, wherein: the other end of the clamping block (18) is provided with a clamping tooth (26), a clamping tooth groove (27) is formed in the vertical section of the second connecting block (20), the clamping tooth grooves (27) are sequentially and longitudinally arranged, and the clamping tooth (26) can be embedded in one clamping tooth groove (27) to enable the vertical section of the first connecting block (16) to be in locking connection with the vertical section of the second connecting block (20); the latch (26) is of a triangular structure with a horizontal top.

10. The electromechanical pipe mounting support and hanger bracket capable of reducing the sway amplitude of claim 9, wherein: the clamping block (18) is of an inverted L-shaped structure, the middle of the clamping block (18) is rotatably connected with the other end of the second fixing block (19) through a second rotating shaft (25), one end of the clamping block (18) is located above the second fixing block (19) and penetrates through the first connecting block (16), and the other end of the clamping block (18) is located below the second fixing block (19) and is connected with the lower end of the vertical section of the first connecting block (16) in a springing mode through a spring (17).

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