CN223677197U - Green building engineering electromechanical pipeline installation device - Google Patents

Abstract

This utility model relates to the field of electromechanical installation pipeline technology, specifically a green building engineering electromechanical pipeline installation device, including a base with two mounting brackets on the base. A screw jack is mounted on either mounting bracket. Each screw jack has a drive motor and a connecting block mounted on it. A one-way threaded rod is provided between the output end of the drive motor and the connecting block. A movable seat is threaded onto the one-way threaded rod. Two side plates are provided on the movable seat, and a two-way threaded rod is provided between the side plates. Outer clamping plates are provided on the threads at both ends. Inner clamping plates are elastically connected to the inner walls of the outer clamping plates. An auxiliary support plate is telescopically provided on one side of the base and can be folded and stored inside the base. The drive motor drives the movable seat on the one-way threaded rod to move left and right, and the auxiliary support plate, in conjunction with the inner clamping plates, provides double-end support for the pipeline, allowing the pipeline to move back and forth relative to the movable seat. The pipeline can be horizontally adjusted during installation, and the installation position of the device does not require precise measurement and alignment.

Description

Green building engineering electromechanical pipeline installation device

Technical Field

The utility model mainly relates to the technical field of electromechanical installation pipelines, in particular to an electromechanical pipeline installation device for green building engineering.

Background

The green building engineering is a building which protects the environment and reduces pollution within a certain service life period, and realizes high-quality building of harmony and symbiosis between people and nature to the maximum extent, the green building engineering is used for finishing the interior of the building before living or other operations are carried out, and the electromechanical pipeline is installed, so that the electromechanical pipeline installation device is needed, the diameter of the traditional electromechanical pipeline installation device is always fixed, and the traditional electromechanical pipeline installation device cannot be used for being compatible with pipelines of different types.

The prior art discloses an electromechanical pipeline installation device for green building engineering, which has the bulletin number of CN221647771U, and is provided with an adjusting and placing device, a bending rod synchronously moves transversely, a rubber elastic pad synchronously moves, the rubber elastic pad can be closer to a pipeline, the pipeline is prevented from loosening, a component for adjusting the pipeline can be arranged on the pipeline, pipelines with different diameters can be installed in an adapting mode, and the effect is good when the device is used.

But its pipeline can't be in keeping stable the condition and carry out the back-and-forth movement regulation on the horizontal plane relative to the device, and the accuracy requirement of the fixed position of installation of device subaerial is higher, needs to treat the mounted position to the pipeline in advance and carries out accurate measurement, and is carrying out the long regulation in-process of footpath and preliminary spacing effect to the pipeline relatively poor, need measuring the pipe diameter in advance just can clamp the pipeline and further press from both sides tightly after the pipe diameter is adjusted to the pipe diameter, uses comparatively inconveniently. ‌ A

Disclosure of utility model

The utility model aims to provide an electromechanical pipeline installation device for green building engineering, which is used for solving the problems in the background technology.

The utility model adopts the following technical scheme that the device for installing the electromechanical pipeline of the green building engineering comprises a base, wherein two installation racks are arranged on the base, a screw rod lifter is arranged on any installation rack, a driving motor and a connecting block are respectively arranged at the movable end of each screw rod lifter, a unidirectional threaded rod is arranged between the output end of the driving motor and the connecting block, a movable seat is arranged on the unidirectional threaded rod in a threaded manner, two side plates are arranged on the movable seat, a bidirectional threaded rod is arranged between the two side plates, threads with the same length and opposite directions are formed at the two ends of the bidirectional threaded rod, an outer clamping plate is respectively arranged on the threads at the two ends, an inner clamping plate is elastically connected on the inner wall of the outer clamping plate, an auxiliary supporting plate is also arranged on one side of the base in a telescopic manner along the height direction, and the auxiliary supporting plate can be folded and contained in the base.

Preferably, a storage groove is formed in the outer wall of one side of the base, a bottom beam is arranged on the two side walls of the storage groove in a sliding mode respectively, one end of any bottom beam is connected with an outer telescopic pipe, a connecting shaft is inserted between the bottom beam and the outer telescopic pipe, an inner telescopic column is arranged on the outer telescopic pipe in a sliding mode along the height direction, and the two side positions of the auxiliary support plate are fixedly connected with the top ends of the two inner telescopic columns respectively.

Further, when the outer extension column, the inner extension column and the auxiliary support plate are overturned and folded to be parallel to the bottom beam by taking the connecting shaft as a rotating shaft, the whole height of the outer extension column, the inner extension column and the auxiliary support plate does not exceed the height of the storage groove.

Further, a plurality of adjusting holes are formed in the outer telescopic column and the inner telescopic column at equal intervals along the height direction, and adjusting rods are inserted into the adjusting holes.

Further, the support part is formed at one end of the outer extension pipe, which is far away from the auxiliary support plate, and when the outer extension pipe is vertical to the base, the bottom of the support part and the base are positioned on the same horizontal plane.

Preferably, the movable end of the screw rod lifter is fixedly provided with a connecting frame, the connecting frame is of an L-shaped structure, the driving motor and the connecting block are respectively fixed at the top of an L-shaped transverse shaft of the connecting frame, a limiting rod is fixedly arranged between the side walls of the L-shaped transverse shaft of the connecting frame, and the limiting rod penetrates through the movable seat.

Preferably, one of the side plates is rotatably provided with a rotating handle on the outer wall, the rotating handle is fixedly connected with one end of the bidirectional threaded rod, a plurality of limiting holes are formed in the side plate at equal intervals along the rotating path of the rotating handle, a bolt is inserted into the rotating handle, and one end of the bolt penetrates through the limiting holes.

Preferably, the upper half part of the outer clamping plate is in a circular arc structure, a plurality of springs are arranged on the circular arc inner wall of the upper half part at equal intervals in an array distribution manner, the other ends of the springs are fixedly connected with the inner clamping plate, the connecting positions of the inner clamping plate and the springs are also circular arc, a guide cover is arranged at one end, close to the auxiliary supporting plate, of the inner clamping plate, the longitudinal section of the guide cover is circular arc, and the length of the guide cover gradually increases from inside to outside.

Preferably, the auxiliary support plate is of an arc-shaped structure, and two arc-shaped ends of the auxiliary support plate are bent towards the top direction.

Preferably, the base is of a rectangular structure, and screws are respectively inserted into four corners of the rectangle.

Compared with the prior art, the utility model has the following beneficial effects:

According to the device for installing the electromechanical pipeline of the green building engineering, the movable seat on the unidirectional threaded rod is driven by the driving motor to move left and right, the limiting rod limits the movable seat to rotate along the threaded direction in the moving process, the auxiliary supporting plate slides along the bottom beam to adjust the horizontal distance, and the auxiliary supporting plate stretches and stretches along the inner telescopic column to adjust the height, so that the inner clamping plate can be matched with the inner clamping plate to support the pipeline moving to different positions at two ends, the inner clamping plate can be loosened properly, the pipeline can move forwards and backwards relative to the movable seat, the position can be adjusted horizontally in the pipeline installation process, and the installation position of the device does not need to be aligned with the position to be installed of the pipeline accurately.

According to the device for installing the electromechanical pipeline of the green building engineering, the pipeline is guided to enter the space between the two inner clamping plates through the guide cover, the inner clamping plates at two sides are extruded in the pipeline moving process, and the springs between the inner clamping plates and the outer clamping plates are further extruded to conduct elastic clamping, so that the pipeline is initially elastically limited within a fixed diameter length range in the pipeline inserting process, and the pipeline diameter length does not need to be accurately measured in advance.

The utility model will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

The drawings are only for purposes of illustrating the principles, implementations, applications, features, and effects of the present utility model and are not to be construed as limiting the utility model.

In the drawings of the specification:

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the back of the structure of FIG. 1 in accordance with the present utility model;

FIG. 3 is a side elevational view of the structure of FIG. 1 in accordance with the present utility model;

FIG. 4 is a schematic view showing the upper structure of the movable base of the present utility model;

FIG. 5 is an exploded view of the connection between the inner and outer splints of the present utility model;

Reference numerals:

1. A base; 2, a mounting rack, 3, a screw rod lifter, 4, a connecting rack, 5, a connecting block, 6, a one-way threaded rod, 7, a movable seat, 8, a screw, 9, a driving motor, 10, an outer clamping plate, 11, an inner clamping plate, 12, a storage groove, 13, a bottom beam, 14, an outer telescopic tube, 15, a connecting shaft, 16, an inner telescopic column, 17, an auxiliary supporting plate, 18, an adjusting hole, 19, an adjusting rod, 20, a supporting part, 21, a side plate, 22, a two-way threaded rod, 23, a rotating handle, 24, a limiting hole, 25, a bolt, 26, a spring, 27, a guide cover and 28, and a limiting rod.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 5, an electromechanical pipeline installation device for green building engineering comprises a base 1, be provided with two mounting brackets 2 on the base 1, be provided with lead screw lift 3 on arbitrary one mounting bracket 2, two be provided with driving motor 9 and connecting block 5 on the movable end of lead screw lift 3 respectively, be provided with unidirectional threaded rod 6 between driving motor 9 output and connecting block 5, the last screw thread of unidirectional threaded rod 6 is provided with movable seat 7, be provided with both sides board 21 on the movable seat 7, two be provided with bi-directional threaded rod 22 between the curb board 21, bi-directional threaded rod 22's both ends form the screw thread that the length is the same opposite direction, and are provided with an external splint 10 on the both ends screw thread respectively, elastic connection has interior splint 11 on the inner wall of external splint 10, one side of base 1 still is provided with supplementary extension board 17 along the direction of height, supplementary extension board 17 collapsible accomodate in base 1.

As shown in fig. 1, the base 1 has a rectangular structure, and screws 8 are respectively inserted into four corners of the rectangle, and the Rongguang screws 8 connect and fix the base 1 with the ground so as to facilitate installation of the conduit.

As shown in fig. 1 to 2, two connecting frames 4 are fixedly arranged on the movable ends of the screw rod lifters 3, the connecting frames 4 are of an L-shaped structure, the driving motor 9 and the connecting blocks 5 are respectively fixed at the tops of L-shaped transverse shafts of the connecting frames 4, one end of the unidirectional threaded rod 6 is fixedly connected with the output end of the driving motor 9, the other end of the unidirectional threaded rod is rotatably connected with the connecting blocks 5, a limiting rod 28 is fixedly arranged between the side walls of the L-shaped transverse shafts of the connecting frames 4, the limiting rod 28 penetrates through the movable seat 7, the movable seat 7 is driven to move along the unidirectional threaded rod 6 through the driving motor 9, and the limiting rod 28 limits the movable seat 7 to rotate along with the unidirectional threaded rod 6 in the moving process.

As shown in fig. 2, the auxiliary support plate 17 is of an arc structure, two arc ends of the auxiliary support plate are bent towards the top direction, the auxiliary support plate 17 is made of elastic metal materials, when a pipeline slides left and right along with the movable seat 7, the auxiliary support plate 17 is not easy to break due to the fact that the two arc ends of the auxiliary support plate 17 are extruded, and due to the structural arrangement of the auxiliary support plate 17, when the front end of the pipeline breaks away from the movable seat 7 due to the fact that the inner clamping plate 10 and the outer clamping plate 11 break down in the process of installing the pipeline, the rear end of the pipeline cannot roll towards two sides along the auxiliary support plate 17, the pipeline cannot roll off from a high place easily, and the pipeline is safe.

As shown in fig. 2, a storage groove 12 is formed in an outer wall of one side of the base 1, a bottom beam 13 is slidably disposed at two side walls of the storage groove 12, one end of any bottom beam 13 is connected with an outer telescopic tube 14, a connecting shaft 15 is interposed between the bottom beam 13 and the outer telescopic tube 14, an inner telescopic column 16 is slidably disposed on the outer telescopic tube 14 along a height direction, two side positions of an auxiliary support plate 17 are fixedly connected with top ends of the two inner telescopic columns 16, and the inner telescopic column 16 slides along the storage groove 12 through the bottom beam 13 to be telescopic along the outer telescopic tube 14 so as to bidirectionally adjust the position of the auxiliary support plate 17.

As shown in fig. 2 to 3, when the outer telescopic tube 14, the inner telescopic column 16 and the auxiliary support 17 are turned and folded around the connecting shaft 15 to be parallel to the bottom beam 13, the overall height thereof does not exceed the height of the receiving groove 12, and the outer telescopic tube 14, the inner telescopic column 16 and the auxiliary support 17 are folded and received in the receiving groove 12 by setting the structural size.

As shown in fig. 2 to 3, a plurality of adjusting holes 18 are formed on the outer telescopic tube 14 and the inner telescopic tube 16 at equal intervals along the height direction, an adjusting rod 19 is inserted into the adjusting holes 18, and the inner telescopic tube 16 is limited to slide and stretch along the outer telescopic tube 14 by connecting the adjusting holes 18 and the adjusting rods 19.

As shown in fig. 3, a supporting portion 20 is formed at one end of the outer extension tube 14 facing away from the auxiliary support plate 17, and when the outer extension tube 14 is perpendicular to the base 1, the bottom of the supporting portion 20 and the base 1 are located on the same horizontal plane, and the supporting portion 20 contacts with the ground to keep the center of gravity of the auxiliary support plate 17 stable.

As shown in fig. 4, a rotating handle 23 is rotatably disposed on an outer wall of one of the side plates 21, the rotating handle 23 is fixedly connected with one end of the bidirectional threaded rod 22, a plurality of limiting holes 24 are disposed on the side plate 21 at equal intervals along a rotating path of the rotating handle 23, a plug 25 is inserted into the rotating handle 23, one end of the plug 25 penetrates through the limiting hole 24, the rotating handle 23 drives the bidirectional threaded rod 22 to rotate so as to drive the two outer clamping plates 10 to synchronously move reversely, and the plug 25 is inserted into the limiting hole 24 so as to limit the rotating handle 23 to rotate.

As shown in fig. 5, the upper half of the outer clamping plate 10 is in a circular arc structure, a plurality of springs 26 are arranged on the circular arc inner wall at equal intervals in an array distribution manner, the other ends of the springs 26 are fixedly connected with the inner clamping plate 11, the connecting positions of the inner clamping plate 11 and the springs 26 are also circular arc, one end, close to the auxiliary supporting plate 17, of the inner clamping plate 11 is provided with a guide cover 27, the longitudinal section of the guide cover 27 is circular arc, the guide cover 27 gradually increases from inside to outside, the outer pipeline is guided to enter the space between the two inner clamping plates 11 through the guide cover 27, and the inner clamping plates 11 are extruded to enable the springs 26 to generate elastic change so as to perform primary elastic reinforcement on the pipeline, so that the primary fixation of pipelines with different diameters is compatible in the elastic change range of the springs 26.

When the device is used, the base 1 is roughly aligned to the position of a pipeline to be installed through visual inspection, the base is connected and fixed with the ground through screws 8, then the rotating handle 23 is rotated to preliminarily adjust the distance between the two inner clamping plates 11 to be approximately suitable for the pipeline to be installed, the adjusted distance can be slightly smaller than the diameter length of the pipeline to be installed, the pipeline to be installed is inserted between the two inner clamping plates 11 along the guide cover 27, the two inner clamping plates 11 are extruded and moved outwards by the pipeline to be installed, so that the spring 26 generates certain elastic change to carry out preliminary elastic reinforcement on the pipeline to be installed, the preliminary fixing of pipelines with different diameters is compatible within the elastic change range of the spring 26, then a worker further rotates the rotating handle 23 to the spring 26 to be close to the elastic limit so as to fully clamp the front end of the pipeline to be installed, then the bolt 25 is inserted to fix the rotating handle 23, then the screw rod lifter 3 is started to adjust the pipeline to be installed to the required height, and at the moment, if the position of the pipeline to be installed is proper, the worker can go to the high place directly;

If the position of the pipeline to be installed is improper and further adjustment in the horizontal plane is required, a worker withdraws the bottom beam 13 from the storage groove 12, rotates the outer extension 14 to be vertical to the bottom beam 13, at the moment, the supporting part 20 is tightly abutted against the ground, then the auxiliary support plate 17 and the inner extension column 16 slide upwards along the outer extension tube 14 together until the auxiliary support plate 17 contacts with the bottom of the pipeline to be installed, the auxiliary support supports the pipeline to be installed, then the adjusting rods 19 are inserted to fix the positions of the inner extension columns 16 on two sides, then the worker goes to the high position to withdraw the bolt 25 to properly loosen the spring 26, then inserts the bolt 25 again, slides back and forth stably along with the drawing of the worker at the high position under the cooperative support of the inner clamping plate 11 and the auxiliary support plate 17 until the proper position, then the worker remotely controls the driving motor 9 to work, drives the movable seat 7 to slide left and right integrally until the proper position is reached, thus the horizontal bidirectional adjustment of the pipeline to be installed is completed smoothly, and the worker is convenient to install the pipeline, and accurate measurement is not required in advance.

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a green building engineering electromechanical pipeline installation device, includes base (1), its characterized in that be provided with two mounting brackets (2) on base (1), be provided with lead screw lift (3) on arbitrary one mounting bracket (2), two be provided with driving motor (9) and connecting block (5) on the movable end of lead screw lift (3) respectively, be provided with one-way threaded rod (6) between driving motor (9) output and connecting block (5), the last screw thread of one-way threaded rod (6) is provided with movable seat (7), be provided with both sides board (21) on movable seat (7), two be provided with two-way threaded rod (22) between curb plate (21), the both ends of two-way threaded rod (22) form the screw thread that the length is the same opposite, and be provided with an external splint (10) on the screw thread at both ends respectively, elastic connection has interior splint (11) on the inner wall of external splint (10), one side of base (1) still is provided with supplementary extension board (17) along the direction of height, supplementary extension board (17) collapsible accomodate in base (1).

2. The device for installing the pipeline of the green building engineering machine is characterized in that a containing groove (12) is formed in the outer wall of one side of the base (1), a bottom beam (13) is arranged on two side walls of the containing groove (12) in a sliding mode, one end of any bottom beam (13) is connected with an outer telescopic pipe (14), a connecting shaft (15) is inserted between the bottom beam (13) and the outer telescopic pipe (14), an inner telescopic column (16) is arranged on the outer telescopic pipe (14) in a sliding mode in the height direction, and two side positions of the auxiliary support plate (17) are fixedly connected with the top ends of the two inner telescopic columns (16) respectively.

3. The device for installing the electromechanical pipeline of the green building engineering according to claim 2, wherein the outer extension column (14), the inner extension column (16) and the auxiliary support plate (17) are overturned and folded to be parallel to the bottom beam (13) by taking the connecting shaft (15) as a rotating shaft, and the whole height of the device is not more than the height of the containing groove (12).

4. The device for installing the electromechanical pipeline of the green building engineering according to claim 2, wherein a plurality of adjusting holes (18) are formed in the outer telescopic column (14) and the inner telescopic column (16) at equal intervals in the height direction, and the adjusting holes (18) are inserted with adjusting rods (19).

5. The device for installing the pipeline of the green building engineering machine according to claim 2, wherein a supporting portion (20) is formed at one end, which is far away from the auxiliary supporting plate (17), of the outer extension supporting portion (14), and when the outer extension supporting portion (14) is perpendicular to the base (1), the bottom of the supporting portion (20) and the base (1) are located on the same horizontal plane.

6. The device for installing the electromechanical pipeline of the green building engineering is characterized in that connecting frames (4) are fixedly arranged at the movable ends of the two screw rod lifters (3), the connecting frames (4) are of L-shaped structures, the driving motor (9) and the connecting blocks (5) are respectively fixed at the tops of L-shaped cross shafts of the connecting frames (4), limiting rods (28) are fixedly arranged between the side walls of the L-shaped cross shafts of the two connecting frames (4), and the limiting rods (28) penetrate through the movable seats (7).

7. The device for installing the pipeline of the green building engineering machine tool according to claim 1, wherein a rotating handle (23) is rotatably arranged on the outer wall of one side plate (21), the rotating handle (23) is fixedly connected with one end of a bidirectional threaded rod (22), a plurality of limiting holes (24) are formed in the side plate (21) at equal intervals along the rotating path of the rotating handle (23), a plug pin (25) is inserted into the rotating handle (23), and one end of the plug pin (25) penetrates through the limiting holes (24).

8. The device for installing the pipeline of the green building engineering machine is characterized in that the upper half part of the outer clamping plate (10) is of a circular arc structure, a plurality of springs (26) are arranged on the circular arc inner wall of the upper half part at equal intervals in an array mode, the other ends of the springs (26) are fixedly connected with the inner clamping plate (11), the connecting positions of the inner clamping plate (11) and the springs (26) are in the same circular arc shape, a guide cover (27) is arranged at one end, close to the auxiliary supporting plate (17), of the inner clamping plate (11), the longitudinal section of the guide cover (27) is in the circular arc shape, and the length of the guide cover (27) gradually increases from inside to outside.

9. The device for installing the electromechanical pipeline of the green building engineering according to claim 1, wherein the auxiliary supporting plate (17) is of an arc-shaped structure, and two arc-shaped ends of the auxiliary supporting plate are bent towards the top direction.

10. The device for installing the electromechanical pipeline of the green building engineering according to claim 1, wherein the base (1) is of a rectangular structure, and screws (8) are respectively inserted into four corners of the rectangle.