CN217056619U - Special-shaped component for mounting electromechanical pipeline - Google Patents

Abstract

The application discloses a special-shaped component for mounting an electromechanical pipeline, and pipeline mounting equipment, which comprises a mounting frame, wherein the mounting frame comprises a mounting main board and mounting auxiliary boards vertically arranged at two ends of the mounting main board, and a plurality of mounting sections for fixing the pipeline are arranged on the mounting main board; the mounting section comprises two first clamping plates which are connected to the mounting main board in a sliding manner, and the mounting section also comprises a second clamping plate which is connected between the two first clamping plates in a sliding manner, wherein the second clamping plate is of a telescopic rod structure; the mounting main board is provided with a control assembly for controlling the two first clamping plates to slide towards the approaching direction so as to tightly support the pipeline between the two first clamping plates; the first clamping plate is provided with a driving assembly for controlling the first clamping plate to slide towards the direction close to the installation main plate so as to tightly support the pipeline on the installation main plate. The installation requirement of not unidimensional pipeline can be adapted to this application to improve the practicality of component.

Description

Special-shaped component for mounting electromechanical pipeline

Technical Field

The application relates to pipeline installation equipment, in particular to a special-shaped component for installing an electromechanical pipeline.

Background

Electromechanical pipeline includes plumbing pipe, fire sprinkler pipe, air conditioner air supply and exhaust pipe, cooling tube, cable testing bridge, wire casing, technology pipeline etc. need use the component in the electromechanical pipeline installation construction, can fix electromechanical pipeline on the ceiling with the help of the component to reduce the pipeline and to the occupation of indoor space.

A pipeline installation component among the correlation technique, as shown in fig. 1, including mounting bracket 1, mounting bracket 1 includes installation mainboard 101 and sets up perpendicularly in the installation subplate 102 of installation mainboard 101 both sides, be provided with the erection segment 2 that is used for fixed pipeline on the installation mainboard 101, erection segment 2 is U type structure, the one end threaded connection that erection segment 2 stretches out mounting plate has the nut.

The inventor finds that: usually, the installation section 2 is designed to be just capable of buckling the pipeline, so as to achieve better pipeline fixing effect, which results in that the installation section 2 with the size suitable for the pipeline needs to be replaced when different pipelines are installed, so that the use of components is limited, the practicability is low, and there is room for improvement.

SUMMERY OF THE UTILITY MODEL

In order to adapt to the installation requirements of different pipelines, the application provides a special-shaped component for the installation of an electromechanical pipeline.

The application provides a special-shaped component is used in electromechanical pipeline installation adopts following technical scheme:

the mounting rack comprises a mounting main board and mounting auxiliary boards vertically arranged at two ends of the mounting main board, wherein the mounting main board is provided with a plurality of mounting sections for fixing pipelines; the mounting section comprises two first clamping plates which are connected to the mounting main board in a sliding manner, and the mounting section also comprises a second clamping plate which is connected between the two first clamping plates in a sliding manner, wherein the second clamping plate is of a telescopic rod structure; the mounting main board is provided with a control assembly for controlling the two first clamping plates to slide towards the approaching direction so as to tightly support the pipeline between the two first clamping plates; the first clamping plate is provided with a driving assembly for controlling the first clamping plate to slide towards the direction close to the installation main plate so as to tightly support the pipeline on the installation main plate.

Through adopting above-mentioned technical scheme, during the installation, place the pipeline and install on the mainboard, then be close to the direction mutually with the help of two first clamp plate orientation of control assembly control, until the pipeline supports tightly between two first clamp plates, thereby restriction pipeline takes place the ascending displacement of horizontal direction, then with the help of drive assembly, drive first clamp plate orientation and be close to the installation mainboard orientation and slide, until the pipeline supports tightly on the installation mainboard, thereby restriction pipeline takes place the ascending displacement of vertical side, can accomplish the installation to the pipeline, use this application to install the pipeline, can adapt to the installation of not unidimensional pipeline, and the high practicality is realized.

Optionally, a sliding block is arranged on the first clamping plate, the cross section of the sliding block is of a T-shaped structure, and a sliding groove for sliding connection of the sliding block is formed in the installation main plate.

Through adopting above-mentioned technical scheme, the sliding connection of first clamp plate can be realized with the setting in groove that slides to the sliding block.

Optionally, a communicating hole which is communicated with the sliding groove and is used for extending out of the sliding block is formed in the installation main board, the control assembly comprises a connecting sleeve and two control screws which are in threaded connection with the inside of the connecting sleeve, the connecting sleeve is rotationally connected to the installation main board, and the two control screws are coaxial and are arranged oppositely; one end of the control screw rod extending out of the connecting sleeve is fixedly connected with one end of the sliding block extending out of the communicating hole.

Through adopting above-mentioned technical scheme, rotate connecting sleeve, can drive two control screw rods and drive the sliding block and slide towards the direction that is close to mutually to order about two first clamp plates and slide towards the direction that is close to mutually, until propping up tightly with the pipeline.

Optionally, one end of one of the sliding blocks, which is far away from the control screw, is provided with a first guide rod, and one end of the other sliding block is provided with a second guide rod, and the second guide rod is slidably connected to the first guide rod.

Through adopting above-mentioned technical scheme, the stability of sliding of first clamp plate can be improved in the setting of first guide bar and second guide bar.

Optionally, the second clamping plate includes a first adjusting rod and a second adjusting rod slidably connected to the first adjusting rod; two the drive groove has all been seted up to one side that first clamp plate is close to mutually, drive assembly is including rotating the drive lead screw who connects in one of them drive groove, first regulation pole one end stretch into in the drive groove and with drive lead screw threaded connection, the second adjust the pole stretch into another drive groove and with drive groove sliding connection, be provided with in the drive groove and be used for restricting the second and adjust the restriction piece that pole and drive groove broke away from mutually.

Through adopting above-mentioned technical scheme, rotate the drive lead screw, can order about and drive lead screw threaded connection's first regulation pole and drive the second and adjust the pole orientation and be close to the removal of installation mainboard direction, until supporting the pipeline tightly on the installation mainboard.

Optionally, the limiting piece is a limiting rod arranged in the driving groove, the length direction of the limiting rod is perpendicular to the sliding direction of the first clamping plate, and a limiting hole for the limiting rod to penetrate through in a sliding mode is formed in the second adjusting rod.

Through adopting above-mentioned technical scheme, the setting of restriction pole and restriction hole can restrict the second and adjust the pole and break away from with the drive groove mutually.

Optionally, a bearing is arranged in the driving groove, and the driving screw rod is rotatably connected through the bearing.

Through adopting above-mentioned technical scheme, the rotation that can realize the drive lead screw is connected in the setting of bearing.

Optionally, the driving screw is provided with a rotation handle extending out of the driving groove.

Through adopting above-mentioned technical scheme, the setting of turning handle can make things convenient for the staff to rotate the drive lead screw.

In summary, the present application includes at least one of the following benefits:

1. the installation requirements of pipelines with different sizes can be met, so that the practicability of the component is improved;

2. through the setting of first guide bar and second guide bar, stability when can improve first clamp plate and slide.

Drawings

Fig. 1 is an overall structural view of the related art;

FIG. 2 is a schematic view of the overall structure of the present embodiment;

FIG. 3 is a schematic sectional view of the present embodiment showing a drive screw;

fig. 4 is an enlarged schematic view of the embodiment at a in fig. 2.

Description of the reference numerals:

1. a mounting frame; 101. installing a main board; 102. mounting an auxiliary plate; 2. an installation section; 21. a first clamping plate; 22. a second clamping plate; 221. a first adjusting lever; 222. a second adjusting lever; 3. a control component; 31. a connecting sleeve; 32. controlling the screw; 4. a drive assembly; 41. driving a lead screw; 5. a sliding block; 6. a sliding groove; 7. a communicating hole; 8. a first guide bar; 9. a second guide bar; 10. a restraining bar; 11. a limiting hole; 12. rotating the handle; 13. a drive slot; 14. a guide hole; 15. blocking; 151. an outlet hole; 16. a gasket; 17. a collar; 18. a hinged block.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses special-shaped component for installation of electromechanical pipelines. Referring to fig. 2, the member includes a mounting bracket 1, the mounting bracket 1 includes a mounting main plate 101 having a square structure, and the mounting bracket 1 further includes mounting sub-plates 102 welded perpendicularly to both ends of the mounting main plate 101 in a length direction. The gasket 16 is integrally formed at one end of the installation auxiliary plate 102 far away from the installation main plate 101, and the gasket 16 is fixed on the ceiling through bolts, so that the installation of the installation frame 1 can be completed.

Referring to fig. 1 and 2, a plurality of installation segments 2 are installed on the installation main board 101. Specifically, the mounting section 2 includes two first clamping plates 21 that are square structures, and a second clamping plate 22 that is connected between two first clamping plates 21 in a sliding manner, and the second clamping plate 22 is a telescopic rod structure, and the sliding direction of the second clamping plate 22 is perpendicular to the sliding direction of the first clamping plates 21.

Referring to fig. 1 and 2, the installation mainboard 101 is provided with a sliding groove 6, the sliding groove 6 extends along the length direction of the installation mainboard 101, the lower end of the first clamping plate 21 is welded with a sliding block 5, the sliding block 5 is slidably connected in the sliding groove 6, and the cross section of the sliding block 5 is of a T-shaped structure, so that the first clamping plate 21 cannot be separated from the installation mainboard 101 in the sliding process.

Referring to fig. 3 and 4, the mounting main plate 101 is provided with a control assembly 3 for controlling the two first clamping plates 21 to slide toward the approaching direction. In particular, the control assembly 3 comprises a connecting sleeve 31, the connecting sleeve 31 having a cylindrical hollow structure.

Referring to fig. 4, two hinge blocks 18 parallel to each other are perpendicularly welded to the mounting main plate 101, and the connection sleeve 31 is rotatably connected between the two hinge blocks 18 through a bearing. The lantern ring 17 is welded and fixed on the outer periphery of the connecting sleeve 31, the lantern ring 17 is of a regular hexagon hollow structure, and when the connecting sleeve 31 is used, a worker can rotate the lantern ring 17 by means of tools such as a wrench, so that the connecting sleeve 31 can be rotated.

Referring to fig. 4, the coupling sleeve 31 has a half-section with a positive thread portion and a negative thread portion on an inner wall thereof, and the thread directions of the positive thread portion and the negative thread portion are opposite to each other. The control assembly 3 further comprises two control screws 32, the two control screws 32 are coaxially and oppositely arranged, one control screw 32 is in threaded connection with the positive thread part, and the other control screw 32 is in threaded connection with the negative thread part.

Referring to fig. 3 and 4, the installation main plate 101 is provided with a communication hole 7, and the communication hole 7 is communicated with the sliding groove 6. The slide block 5 protrudes out of the mounting main plate 101 through the communication hole 7. One end of the control screw 32 extending out of the connecting sleeve 31 is welded and fixed with one end of the sliding block 5 extending out of the communication hole 7.

Referring to fig. 3, a guide hole 14 is formed in one end of the installation main board 101, which is far away from the communication hole 7, one end of the sliding block 5, which is far away from the control screw 32, extends out of the installation main board 101 through the guide hole 14, a first guide rod 8 is perpendicularly welded to one end of one sliding block 5, which extends out of the guide hole 14, a second guide rod 9 is perpendicularly welded to the other sliding block 5, the first guide rod 8 and the second guide rod 9 are both in a rod-shaped structure, and the length directions of the first guide rod 8 and the second guide rod 9 are parallel to the sliding direction of the first clamping plate 21.

When the pipeline is placed on and installed on the main board 101 and between the two first clamping plates 21, the connecting sleeve 31 is rotated by means of the wrench, so that the two control screws 32 are driven to drive the sliding block 5 to slide towards the approaching direction, the two first clamping plates 21 slide towards the approaching direction, until the pipeline is abutted between the two, and the pipeline is limited from displacing in the horizontal direction.

Referring to fig. 3, the second clamping plate 22 includes a first adjustment lever 221 and a second adjustment lever 222 slidably coupled to the first adjustment lever 221. The first clamping plate 21 is provided with a driving assembly 4 for controlling the second clamping plate 22 to slide towards the direction close to the mounting main plate 101.

Referring to fig. 3, the two first clamping plates 21 are provided with driving grooves 13 on the sides close to each other, and the driving grooves 13 extend along the length direction of the first clamping plates 21. The driving assembly 4 includes a driving screw 41 rotatably connected to one of the driving grooves 13, and one end of the first adjusting rod 221 extends into the driving groove 13 and is threadedly connected to the driving screw 41. The driving groove 13 is internally provided with a bearing, and the lower end of the driving screw 41 extends into the bearing and is fixedly connected with the inner ring of the bearing.

Referring to fig. 3, an end of the second adjustment lever 222, which is away from the first adjustment lever 221, extends into the other driving groove 13 and is slidably coupled to the driving groove 13. A restricting member for restricting the second adjustment lever 222 from being separated from the driving groove 13 is provided in the driving groove 13. Specifically, the restricting member is a restricting rod 10 welded to the driving groove 13, and a longitudinal direction of the restricting rod 10 is perpendicular to a sliding direction of the first clamping plate 21. The second adjusting plate is provided with a limiting hole 11, and the limiting rod 10 is slidably arranged in the limiting hole 11.

Referring to fig. 3, the first clamping plate 21 is bonded with the blocks 15 for blocking the top ends of the driving grooves 13, one of the blocks 15 is provided with an extending hole 151, and the driving screw 41 extends out of the driving groove 13 through the extending hole 151. The rotating handle 12 is welded to the end of the driving screw 41 extending out of the extending hole 151. When the rotary handle 12 is used, a worker can conveniently rotate the driving screw 41.

When the pipeline is clamped between the two first clamping plates 21, the rotating handle 12 and the driving screw 41 rotate, so that the first adjusting rod 221 connected with the driving screw 41 in a threaded manner drives the second adjusting rod 222 to move towards a direction close to the installation main plate 101 until the pipeline is abutted against the installation main plate 101, and the pipeline is limited from moving in the vertical direction.

The implementation principle of an electromechanical pipeline installation is with dysmorphism component of this application embodiment does:

during the installation, place the pipeline on installation mainboard 101, rotate connecting sleeve 31 after that, drive two first clamp plates 21 and move towards being close to the direction mutually, until supporting the pipeline tightly between two first clamp plates 21, then rotate drive lead screw 41, drive second clamp plate 22 and move towards being close to installation mainboard 101 direction, until supporting the pipeline tightly on installation mainboard 101 for installation of the pipeline of different diameters can be adapted to installation of installation section 2, the practicality of improvement component.

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

Claims (8)

1. The utility model provides an electromechanical pipeline installation is with dysmorphism component, includes mounting bracket (1), mounting bracket (1) is including installation mainboard (101) and set up perpendicularly in installation subplate (102) at installation mainboard (101) both ends, its characterized in that: the installation main board (101) is provided with a plurality of installation sections (2) for fixing pipelines; the mounting section (2) comprises two first clamping plates (21) connected to the mounting main plate (101) in a sliding mode, the mounting section (2) further comprises a second clamping plate (22) connected between the two first clamping plates (21) in a sliding mode, and the second clamping plate (22) is of a telescopic rod structure; the mounting main board (101) is provided with a control component (3) which is used for controlling the two first clamping boards (21) to slide towards the approaching direction so as to tightly press the pipeline between the two first clamping boards (21); the first clamping plate (21) is provided with a driving component (4) which is used for controlling the first clamping plate (21) to slide towards the direction close to the installation main plate (101) so as to enable the pipeline to be tightly propped against the installation main plate (101).

2. The profiled member for electromechanical pipeline installation as claimed in claim 1, wherein: be provided with sliding block (5) on first clamp plate (21), sliding block (5) transversal personally submit T type structure, offer on installation mainboard (101) and be used for supplying sliding block (5) sliding connection's sliding groove (6).

3. The profiled member for electromechanical pipeline installation as claimed in claim 2, wherein: the mounting main board (101) is provided with a communicating hole (7) which is communicated with the sliding groove (6) and used for extending the sliding block (5), the control assembly (3) comprises a connecting sleeve (31) and two control screws (32) which are in threaded connection with the inside of the connecting sleeve (31), the connecting sleeve (31) is rotatably connected to the mounting main board (101), and the two control screws (32) are coaxial and opposite; one end of the control screw rod (32) extending out of the connecting sleeve (31) is fixedly connected with one end of the sliding block (5) extending out of the communicating hole (7).

4. The profiled member for mounting an electromechanical pipeline according to claim 3, wherein: one end, far away from the control screw rod (32), of one of the sliding blocks (5) is provided with a first guide rod (8), the other end of the sliding block (5) is provided with a second guide rod (9), and the second guide rod (9) is connected in the first guide rod (8) in a sliding mode.

5. The profiled member for electromechanical pipeline installation as claimed in claim 1, wherein: the second clamping plate (22) comprises a first adjusting rod (221) and a second adjusting rod (222) which is connected with the first adjusting rod (221) in a sliding mode; two drive groove (13) have all been seted up to one side that first clamp plate (21) is close to mutually, drive assembly (4) are including rotating drive lead screw (41) of connecting in one of them drive groove (13), first regulation pole (221) one end stretch into in drive groove (13) and with drive lead screw (41) threaded connection, second regulation pole (222) stretch into another drive groove (13) and with drive groove (13) sliding connection, be provided with in drive groove (13) and be used for restricting the second regulation pole (222) and drive groove (13) restriction piece that breaks away from mutually.

6. The profiled member for electromechanical pipeline installation as claimed in claim 5, wherein: the limiting piece is a limiting rod (10) arranged in the driving groove (13), the length direction of the limiting rod (10) is perpendicular to the sliding direction of the first clamping plate (21), and a limiting hole (11) for the limiting rod (10) to penetrate in a sliding mode is formed in the second adjusting rod (222).

7. The profiled member for mounting an electromechanical pipeline according to claim 5, wherein: the driving groove (13) is internally provided with a bearing, and the driving screw rod (41) is rotatably connected through the bearing.

8. The profiled member for mounting an electromechanical pipeline according to claim 5, wherein: the driving screw rod (41) is provided with a rotating handle (12) extending out of the driving groove (13).

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