CN116642063B - Hydraulic pipeline supporting and connecting mechanism for hydraulic engineering - Google Patents

Abstract

The application relates to the technical field of hydraulic engineering assistance, in particular to a hydraulic pipeline supporting and connecting mechanism for hydraulic engineering, which comprises a supporting frame and two groups of supporting components arranged on the supporting frame, wherein the supporting components comprise supporting rods, the whole supporting rods are in a 180-degree arc shape, arc connecting rods are slidably arranged in the two end faces of the supporting rods, driving parts for driving the connecting rods to slide to the outer sides of the supporting rods are arranged in the supporting rods, and connecting parts capable of connecting the two connecting rods together are arranged between the two connecting rods.

Description

Hydraulic pipeline supporting and connecting mechanism for hydraulic engineering

Technical Field

The application relates to the technical field of hydraulic engineering assistance, in particular to a hydraulic pipeline supporting and connecting mechanism for hydraulic engineering.

Background

At present, hydraulic engineering is a common name of projects such as flood control, waterlogging removal, irrigation, power generation, water supply, reclamation, water and soil conservation, immigration, water resource protection and the like and matched and affiliated projects thereof, and is used for controlling and allocating surface water and underground water in the nature, so as to achieve the purpose of removing harm and benefiting.

The Chinese patent publication No. CN111043401A discloses an improved hydraulic pipeline supporting and connecting structure for hydraulic engineering, which is provided with a fixed base; the lifting frame mechanism is arranged on the top side of the fixed base, and the lifting flat plate is fixedly arranged on the top end of the lifting frame; the pipeline limiting ring is fixedly mounted on one side of the top end face of the lifting flat plate, the movable sliding block is arranged on the bottom side of the pipeline sliding limiting ring, which is provided with the pipeline sliding limiting ring, of the other side of the pipeline sliding limiting ring, a limiting sliding groove is formed in the lifting flat plate, and the pipeline sliding limiting ring is mounted on the inner side of the limiting sliding groove on the lifting flat plate in a sliding limiting manner through the movable sliding block.

The prior art solutions described above have the following drawbacks: when the pipeline is supported by the pipeline supporting and connecting structure, the supporting and connecting structure is required to be installed on the pipeline while the pipeline is laid, if the pipeline is already laid, the pipeline connecting part is required to be disconnected by using the pipeline supporting and connecting structure, and then the pipeline supporting and connecting structure is installed on the pipeline, so that the use of the pipeline connecting structure is limited, and the workload is probably increased during the use.

Disclosure of Invention

The application provides a hydraulic pipeline support connecting mechanism for hydraulic engineering, which aims to reduce the use limit of the pipeline support connecting mechanism and reduce the workload of the pipeline support mechanism during installation.

The technical aim of the application is realized by the following technical scheme:

the utility model provides a hydraulic pipeline support coupling mechanism that hydraulic engineering used, includes the support frame and sets up two sets of supporting components on the support frame, and supporting component includes the bracing piece, and the bracing piece is whole to be 180 degrees circular-arc, and the inside equal slidable mounting of both ends face of bracing piece has the arcuation connecting rod, and the inside driving piece that drives the connecting rod and slide to the bracing piece outside that is provided with of bracing piece, is provided with the connecting piece that can link together two connecting rods between two connecting rods.

By adopting the scheme, when the pipeline supporting and connecting mechanism is used, if a pipeline is being laid, the two connecting rods can be connected together through the connecting piece, and when the connecting structure is in a circular shape, the connecting structure is directly sleeved on the pipeline to be laid; if the pipeline is laid, the connecting structure is required to support the pipeline connecting part, so that the service life of the pipeline connecting part is prolonged, the connecting rod can be retracted into the supporting rod at present, then the supporting rod is erected on the pipeline, then the driving piece drives the connecting rod to move towards the outer side of the supporting rod, finally the two connecting rods and one supporting rod can be enclosed on the outer side of the pipeline, and finally the connecting piece is used for connecting the ends of the two connecting rods together, so that the installation process of the pipeline supporting and connecting mechanism is completed, the connecting part of the pipeline is not required to be disconnected in the process, the use limit of the pipeline supporting and connecting mechanism is reduced, and the workload of the pipeline supporting structure during installation is reduced.

Preferably, the support rod is internally provided with a sliding groove for the connecting rod to be inserted, one side of the sliding groove is provided with an arc-shaped driving groove, the driving groove is communicated with the inside of the sliding groove, the volume of the driving groove is larger than or equal to that of the sliding groove, when the connecting rod is positioned in the sliding groove, the connecting part of the driving groove, the driving groove and the connecting part of the driving groove and the sliding groove is filled with aqueous solution, and the driving piece is arranged on the support rod and used for pushing the aqueous solution in the driving groove into the sliding groove.

Preferably, the driving piece comprises a driving block arranged in the driving groove, a driving rope is connected to the driving block, a driving shaft is arranged in the supporting rod, the driving shaft is located at one side of the center of the supporting rod and is rotationally connected with the supporting rod, and one end, away from the supporting rod, of the driving rope is fixed on the outer surface of the driving shaft.

Preferably, the connecting piece includes the connecting block, and the connecting block is fixed on the terminal surface that one of them connecting rod is located the bracing piece outside, and the both sides of connecting block are provided with the fixture block, and the fixture block is whole to be parallelogram, and two fixture blocks splice into a tenon column structure jointly with a connecting block, are provided with the latch segment that cooperates the tenon column structure that becomes with connecting block, fixture block concatenation on the terminal surface that another connecting rod is located the bracing piece outside and use.

Preferably, the clamping block is rotationally connected with the connecting block, a yielding groove for the rotation of the clamping block is formed in the connecting block, a gap for the rotation of the clamping block on the connecting block exists between the side surface, away from the connecting block, of the clamping block and the inner surface of the locking block, and a limiting piece is arranged between the clamping block and the connecting block.

Preferably, the rotation axis between fixture block and the connecting block is located the side central point that the fixture block is close to the connecting block, and spacing piece is provided with two altogether, and two spacing pieces are located the both sides of rotation axis respectively, and the contact surface between fixture block and the connecting block constitutes a "cross" structure with spacing piece.

Preferably, extension pieces are arranged at two ends of the supporting rod, vertical adjusting screws are arranged at positions, corresponding to the extension pieces, on the supporting frame, the adjusting screws penetrate through the extension pieces and are in sliding connection with the extension pieces, and two adjusting nuts are arranged on the adjusting screws.

Preferably, a notch is formed in the center of the supporting rod, and the supporting rods on two sides of the notch are hinged with each other.

Preferably, a rubber pad is bonded to the inner surface of the support bar.

In summary, the application has the following technical effects:

through arranging the pipeline supporting and connecting mechanism comprising the supporting rods, the connecting rods, the driving parts and the connecting parts, if the pipeline is laid, the supporting rods can be firstly placed on the pipeline, then the connecting rods can be pushed to the lower part of the pipeline through the driving parts, and the connecting parts can connect the two connecting rods together, so that the installation process of the pipeline supporting and connecting mechanism can be completed, and the effects of reducing the use limit of the pipeline supporting and connecting mechanism and reducing the workload of the pipeline supporting mechanism during installation are achieved;

the driving block, the driving shaft and the sliding groove are arranged, so that the sliding process of the connecting rod in the supporting rod is converted into the rotation process of the driving shaft, and the installation process of the pipeline supporting and connecting mechanism is simpler and more convenient;

through having set up extension piece, adjusting screw and adjusting nut, bracing piece and connecting rod are installed behind the pipeline outside, install on the support frame through extension piece and adjusting nut, change adjusting nut's height, can change the height of extension piece on adjusting screw, when the pipeline height of pipeline junction both sides is different, people can change the height of extension piece on adjusting screw and change the height of bracing piece, connecting rod, finally change the height of pipeline, make the pipeline of pipeline junction both sides flush with each other all the time.

Drawings

FIG. 1 is a state diagram of a water-friendly pipeline support connection mechanism in use according to an embodiment of the application;

FIG. 2 is a longitudinal partial cross-sectional view highlighting the internal structure of a support rod in accordance with an embodiment of the present application;

fig. 3 is a partial view highlighting the construction of a connector in an embodiment of the application.

In the figure, 1, a pipeline; 2. a support frame; 3. a support assembly; 31. a support rod; 311. a driving groove; 312. a sliding groove; 32. a connecting rod; 33. a driving member; 331. a driving block; 332. a drive rope; 333. a sealing block; 334. a drive shaft; 34. a connecting piece; 341. a connecting block; 342. a clamping block; 343. a locking block; 344. a limiting piece; 35. a clamping piece; 36. a sealing plug; 4. an adjustment assembly; 41. an extension piece; 42. adjusting the nut; 43. adjusting a screw; 5. and a rubber pad.

Description of the embodiments

The present application will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the application provides a hydraulic pipeline supporting and connecting mechanism for hydraulic engineering, which comprises a supporting frame 2, supporting components 3 and an adjusting component 4, wherein the supporting frame 2 is of a framework structure placed on the ground, the supporting components 3 are provided with two groups, the two groups of supporting components 3 are sequentially arranged above the supporting frame 2 along the length direction of the supporting frame 2, and the adjusting component 4 is arranged between the supporting components 3 and the supporting frame 2. When the pipeline 1 is required to be installed on the pipeline 1 or the joint of the pipeline 1 to support the connecting mechanism, the support frame 2 is moved to the lower part of the pipeline 1, then the support component 3 is installed on the pipeline 1, the height of the pipeline 1 on two sides of the joint of the pipeline 1 is detected through observation, and the height of the support component 3 is adjusted through the adjustment component 4, so that the pipelines 1 on two sides of the joint of the pipeline 1 are at the same height.

Referring to fig. 1 and 2, the support assembly 3 includes a support rod 31, a connecting rod 32, a driving member 33, a clamping piece 35 and a connecting member 34, the support rod 31 is in an arc strip structure of 180 degrees as a whole, two connecting rods 32 are provided, sliding grooves 312 are provided at both end surfaces of the support rod 31 along the extending direction of the support rod 31, the two connecting rods 32 are respectively provided inside the two sliding grooves 312, and the connecting rods 32 can slide inside the sliding grooves 312 to the inside of the support rod 31; the driving piece 33 is arranged on the supporting rod 31 and can drive the connecting rod 32 to move to the outer side of the supporting rod 31, the connecting piece 34 is arranged between the two connecting rods 32 and can connect the two connecting rods 32 together so that the supporting rod 31 and the two connecting rods 32 are spliced together to form a circular ring; the cross section of the clamping piece 35 is larger than that of the connecting rod 32, the clamping piece 35 is fixed on the end face of the connecting rod 32 positioned in the supporting rod 31, and the clamping piece 35 can prevent the connecting rod 32 from being completely separated from the supporting rod 31.

If the pipeline 1 is being laid, the connecting structure can be directly sleeved on the pipeline 1 to be laid when the connecting piece 34 connects the two connecting rods 32 together and the connecting structure is in a circular shape; if the pipeline 1 is laid, the connecting structure is required to support the connecting part of the pipeline 1, so that the service life of the connecting part of the pipeline 1 is prolonged, the connecting rod 32 can be retracted into the supporting rod 31, then the supporting rod 31 is erected on the pipeline 1, then the driving piece 33 drives the connecting rod 32 to move towards the outer side of the supporting rod 31, finally the two connecting rods 32 and one supporting rod 31 can be enclosed on the outer side of the pipeline 1, and finally the connecting pieces 34 are used for connecting the ends of the two connecting rods 32 together, so that the installation process of the pipeline 1 supporting and connecting mechanism is completed, the connecting part of the pipeline 1 is not required to be disconnected in the process, the use limit of the pipeline 1 supporting and connecting mechanism is reduced, and the workload of the pipeline 1 supporting structure in installation is reduced.

The driving piece 33 comprises a driving block 331, a driving rope 332, a sealing block 333 and a driving shaft 334, wherein an arc-shaped driving groove 311 is formed on one side of the sliding groove 312, the driving groove 311 is communicated with the sliding groove 312 at a position close to the center of the supporting rod 31, and in the embodiment, the volume of the driving groove 311 is larger than that of the sliding groove 312; the sealing block 333 is arranged on the side surface of the clamping piece 35 far away from the connecting rod 32, the sealing block 333 is made of rubber, the driving shaft 334 is arranged in the groove wall of the driving groove 311 near the center side of the supporting rod 31 and is rotationally connected with the supporting rod 31, one end surface of the driving shaft 334 is flush with one side surface of the supporting rod 31, and a cross-shaped groove is formed in the end surface of the driving shaft 334; the driving block 331 is disposed inside the driving groove 311, the driving rope 332 is disposed between the driving shaft 334 and the driving block 331, one end of the driving rope 332 is fixed on the outer surface of the driving shaft 334, and the other end is fixed on the driving block 331.

When in use, the driving block 331 is moved to a position where the driving groove 311 is far away from the center of the supporting rod 31, the connecting rod 32 is moved to the inside of the supporting rod 31, and then the driving groove 311 is filled with water solution, wherein the supporting rod 31 is provided with a water injection hole communicated with the inside of the driving groove 311, and the inside of the water injection hole is provided with a sealing plug 36 for sealing the water injection hole; when the connecting rod 32 needs to be pushed to the outer side of the supporting rod 31, the driving shaft 334 is driven to rotate inside the supporting rod 31 by using the cross screwdriver, the driving rope 332 is wound when the driving shaft 334 rotates, the driving rope 332 can pull the driving block 331 to move inside the driving groove 311, the driving block 331 can squeeze the aqueous solution in the driving groove 311 into the sliding groove 312, and then the aqueous solution can push the connecting rod 32 to the outer side of the supporting rod 31 from the inner side of the supporting rod 31. It should be noted that, the driving block 331 and the manner of adding the aqueous solution into the driving slot 311 are used to push the connecting rod 32 to move inside the supporting rod 31, mainly to add a driving force to the moving process of the connecting rod 32 inside the supporting rod 31, mainly considering that when the supporting and connecting mechanism of the pipeline 1 is installed, other factors such as soil may be laid on the outer side of the pipeline 1, if the connecting rod 32 is only arranged to be in sliding fit with the supporting rod 31, the connecting rod 32 can slide to the outer side of the supporting rod 31 by gravity, and when the end of the connecting rod 32 far from the supporting rod 31 encounters resistance, the connecting rod 32 cannot slide to the outer side of the supporting rod 31 continuously, thus affecting the normal use of the supporting and connecting mechanism of the pipeline 1. Further, driving the connecting rod 32 to move in this way can reduce the possibility of the connecting rod 32 sliding reciprocally inside the supporting rod 31, thus reducing the possibility of injury of people by the connecting rod 32 sliding to the outside to some extent.

In order to make the contact between the support rods 31 and the outer surface of the pipeline 1 more compact, a notch is formed in the center of the support rods 31, and the support rods 31 on two sides of the notch are hinged with each other at the position of the notch; and a rubber pad 5 which can be in contact with the outer surface of the pipe 1 is adhered to the inner surface of the support bar 31.

Referring to fig. 3, in the present embodiment, the connecting member 34 includes a connecting block 341, a clamping block 342, a locking block 343 and a limiting piece 344, the connecting block 341 is fixed on an end surface of one of the connecting rods 32 located outside the supporting rod 31, the clamping blocks 342 are provided with two in total, the clamping blocks 342 are in a parallelogram shape, the two clamping blocks 342 are respectively provided on two opposite sides of the connecting block 341, and the two clamping blocks 342 and one connecting block 341 are spliced together to form a tenon-shaped structure; the locking block 343 is fixed on the end face of the other connecting rod 32 outside the supporting rod 31, and the tenon-shaped structure formed by two clamping blocks 342 and one connecting block 341 is matched with the locking block 343, namely: when two connecting rods 32 are required to be connected together, the two connecting rods 32 are moved towards the direction of approaching each other, the tenon-shaped structure on one connecting rod 32 is inserted into the locking block 343, and the locking block 343 locks the tenon-shaped structure in the locking block 343, so that the process of connecting the two connecting rods 32 is completed;

further, the specific connection mode between the fixture block 342 and the connection block 341 is as follows: the fixture block 342 is rotationally connected with the connecting block 341, a rotating shaft between the fixture block 342 and the connecting block 341 is positioned at the center position of the fixture block 342 close to the side surface of the connecting block 341, a yielding groove for the fixture block 342 to rotate to the inside of the connecting block 341 is formed in the connecting block 341, and a gap for the fixture block 342 to rotate on the connecting block 341 is formed between the side surface of the fixture block 342 far away from the connecting block 341 and the inner surface of the locking block 343; the limiting pieces 344 are divided into two groups, the two groups of limiting pieces 344 correspond to the two clamping blocks 342 respectively, the two limiting pieces 344 corresponding to each clamping block 342 are arranged on two sides of the rotating shaft between the clamping block 342 and the connecting block 341 respectively, and a cross-shaped structure is formed by the contact surface between the clamping block 342 and the connecting block 341 and the limiting pieces 344.

The limiting piece 344 between the clamping block 342 and the connecting block 341 mainly plays a limiting role on the clamping block 342, so that the locking block 343 can limit and lock a tenon structure formed by the clamping block 342 and the connecting block 341; when the two connecting rods 32 are required to be separated, the limiting piece 344 is taken down from the clamping block 342 and the connecting block 341, then the clamping block 342 is rotated on the connecting block 341, finally the clamping block 342 is rotated to the inside of the connecting block 341, and then the two connecting rods 32 are moved in the directions away from each other until the tenon-shaped structure is separated from the locking block 343, so that the process of separating the two connecting rods 32 is completed.

Referring back to fig. 1, the adjusting assembly 4 includes two extending pieces 41, adjusting nuts 42 and adjusting screws 43, the extending pieces 41 are provided in total, the two extending pieces 41 are fixed at positions close to two end faces of the supporting rod 31, the lower end faces of the adjusting screws 43 are vertically fixed on the supporting frame 2, the upper end faces extend upwards to penetrate through the extending pieces 41 and are slidably connected with the extending pieces 41, the adjusting nuts 42 are provided with two on each adjusting screw 43, the adjusting nuts 42 are sleeved on the adjusting screws 43 and are in threaded connection with the adjusting screws 43, and the two adjusting nuts 42 are distributed on two sides of the extending pieces 41. The height of the extending piece 41 on the adjusting screw 43 can be changed by changing the height of the adjusting nut 42 through the extending piece 41 and the adjusting nut 42, when the heights of the pipelines 1 on two sides of the joint of the pipelines 1 are different, people can change the heights of the supporting rod 31 and the connecting rod 32 by changing the heights of the extending piece 41 on the adjusting screw 43, and finally, the heights of the pipelines 1 are changed, so that the pipelines 1 on two sides of the joint of the pipelines 1 are always level.

The present embodiment is only for explanation of the present application and is not to be construed as limiting the present application, and modifications to the present embodiment, which may not creatively contribute to the present application as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present application.

Claims (4)

1. The utility model provides a hydraulic pipeline support coupling mechanism that hydraulic engineering used, includes support frame (2) and sets up two sets of supporting component (3) on support frame (2), its characterized in that: the support component (3) comprises a support rod (31), the whole of the support rod (31) is in a circular arc shape with 180 degrees, the inside of two end faces of the support rod (31) is provided with an arc-shaped connecting rod (32), the inside of the support rod (31) is provided with a driving piece (33) for driving the connecting rod (32) to slide to the outer side of the support rod (31), a connecting piece (34) for connecting the two connecting rods (32) together is arranged between the two connecting rods (32), a sliding groove (312) for inserting the connecting rod (32) is arranged in the inside of the support rod (31), one side of the sliding groove (312) is provided with an arc-shaped driving groove (311), the driving groove (311) is communicated with the inside of the sliding groove (312), the volume of the driving groove (311) is larger than or equal to the volume of the sliding groove (312), when the connecting rod (32) is positioned in the sliding groove (312), the connecting part of the driving groove (311) and the sliding groove (312) is filled with aqueous solution, the driving piece (33) is arranged on the support rod (31) and is used for pushing the aqueous solution in the driving groove (311) into the sliding groove (312), the driving piece (331) and the driving piece (331) comprises the driving piece (331), the driving shaft (334) is arranged in the supporting rod (31), the driving shaft (334) is positioned at one side of the center of the supporting rod (31) and is rotationally connected with the supporting rod (31), one end of the driving rope (332) away from the supporting rod (31) is fixed on the outer surface of the driving shaft (334), the connecting piece (34) comprises a connecting block (341), the connecting block (341) is fixed on the end surface of one connecting rod (32) positioned at the outer side of the supporting rod (31), clamping blocks (342) are arranged at two sides of the connecting block (341), the whole clamping blocks (342) are in a parallelogram shape, two clamping blocks (342) and one connecting block (341) are jointly spliced into a tenon-shaped structure, a locking block (343) matched with the tenon-shaped structure spliced by the connecting block (341) and the clamping block (342) is arranged on the end surface of the other connecting rod (32), the clamping block (342) is rotationally connected with the connecting block (341), a yielding groove for the rotation of the clamping block (342) is formed in the connecting block (341), a gap for the clamping block (342) to rotate between the side surface of the clamping block (342) away from the connecting block (341) and the inner surface of the connecting block (343), the rotation axis between fixture block (342) and connecting block (341) is located the side central point that fixture block (342) is close to connecting block (341), and spacing piece (344) are provided with two altogether, and two spacing pieces (344) are located the both sides of rotation axis respectively, and a "cross" font structure is constituteed with spacing piece (344) to the contact surface between fixture block (342) and connecting block (341).

2. The hydraulic pipeline support connection mechanism for hydraulic engineering according to claim 1, wherein: the two ends of the supporting rod (31) are provided with extension pieces (41), the position of the supporting frame (2) corresponding to the extension pieces (41) is provided with vertical adjusting screws (43), the adjusting screws (43) penetrate through the extension pieces (41) and are in sliding connection with the extension pieces (41), and the adjusting screws (43) are provided with two adjusting nuts (42).

3. The hydraulic pipeline support connection mechanism for hydraulic engineering according to claim 1, wherein: a gap is formed in the center of each supporting rod (31), and the supporting rods (31) on two sides of the gap are hinged with each other.

4. The hydraulic pipeline support connection mechanism for hydraulic engineering according to claim 1, wherein: the inner surface of the supporting rod (31) is adhered with a rubber pad (5).