CN115435148A - Pipeline installation support based on hydraulic engineering construction - Google Patents

Abstract

The invention discloses a pipeline mounting support based on hydraulic engineering construction, and relates to the technical field of hydraulic engineering construction. This kind of pipeline erection support based on hydraulic engineering construction, including setting up a plurality of supporting seats that are used for pipeline body erection bracing in the slot inside, the one end of pipeline body is provided with the horn mouth of pipe that is the setting of loudspeaker form. This kind of pipeline erection support based on hydraulic engineering construction, during the installation of erection support auxiliary conduit, through gas charging assembly, carry outside air to the inside of installation cavity, the air that enters into to the installation cavity inside is spout on through the shower nozzle on each shutoff board, the outside surface of pipeline body is cleaned to gas through spouting on each shower nozzle, through the cleaning action to pipeline body surface, be convenient for paint the construction operation on waterproof coating between the adjacent pipeline body, no longer need manually clean, the erection joint of pipeline is used in the hydraulic engineering construction of being convenient for.

Description

Pipeline installation support based on hydraulic engineering construction

Technical Field

The invention relates to the technical field of hydraulic engineering construction, in particular to a pipeline mounting support based on hydraulic engineering construction.

Background

Hydraulic engineering works have many similarities to the construction of general civil engineering works such as roads, railways, bridges, building construction, etc. For example: the main construction objects are mainly projects such as earthwork, stone, concrete, metal structures, electromechanical equipment installation and the like; some construction methods are the same; some construction machines may be universal; the organization and management work of some constructions can also be used as reference. However, the construction of hydraulic engineering also has its own characteristics: (1) hydraulic engineering undertakes the tasks of water retaining, water storage and water drainage, so that special requirements are required for the stability, pressure bearing, seepage prevention, impact resistance, wear resistance, frost resistance, crack resistance and other properties of hydraulic buildings, and special construction methods and measures are required according to the technical specifications of the hydraulic engineering to ensure the engineering quality. (2) The requirements of hydraulic engineering on the foundation are strict, the engineering is often in regions and parts with complex geological conditions, hidden dangers can be left when the foundation is not well treated, the foundation is difficult to remedy afterwards, and special foundation treatment measures need to be taken. (3) Hydraulic engineering is mostly constructed in rivers, lakes, coastal areas and other water areas, and construction flow guiding, closure and underwater operation are required to be carried out according to natural conditions of water flow and requirements of engineering construction. (4) The hydraulic engineering needs to make full use of construction in a dry season, has strong seasonality and necessary construction strength, and some projects need to adopt temperature control measures due to weather influence so as to ensure the engineering quality. The hydraulic engineering construction is closely related to the society and the natural environment, so the influence of the engineering implementation is large, the opportunity needs to be mastered, the plan is reasonably arranged, the construction is elaborately organized, and the problems of flood control, flood cross and the like in the construction are timely solved, so that the safety is ensured.

In-process of hydraulic engineering construction, need be through the installation of erection support auxiliary conduit in the inside of slot, and current erection support when supporting the installation to the pipeline, only carries out the auxiliary stay installation to the erection support, and the service function nature effect is low, and the erection joint of pipeline is used in the hydraulic engineering construction of being not convenient for.

Disclosure of Invention

The invention aims to provide a pipeline mounting support based on hydraulic engineering construction, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a pipeline installation support based on hydraulic engineering construction comprises a plurality of supporting seats which are arranged in a groove and used for installing and supporting a pipeline body, wherein a horn-shaped pipe orifice is formed in one end of the pipeline body, a sliding assembly convenient to slide in the installation process of the pipeline body is arranged on each supporting seat, one side of each supporting seat is connected with a first C-shaped plate through an installation assembly, the first C-shaped plate is connected with a second C-shaped plate through a clamping assembly, and cleaning assemblies with clean surfaces are arranged on the first C-shaped plate and the second C-shaped plate in an annular array mode during the construction of a pipeline body smearing belt;

clean subassembly is including setting up the installation cavity on first C template and second C template, the inside of installation cavity communicates with each other and is connected with a plurality of air vents, each be fixed with the shutoff board on the air vent, communicate with each other on the shutoff board and be connected with the shower nozzle, one side of air vent is provided with and is used for the inflated gas charging assembly of installation cavity inside.

Preferably, the inflation assembly is including installing the installation pipe on first C template and second C template, the installation pipe is located one side of air vent and communicates with each other with the inside of installation cavity and sets up, install two check valves on the installation pipe, two the outside to the inside of installation cavity of direction of switching on for the installation pipe of check valve, install fixed pipe on the installation pipe, fixed pipe is located between two check valves, sliding connection has the piston rod on the fixed pipe, the one end of piston rod is fixed with the T template, one side of installation pipe is provided with the extrusion subassembly that is used for T template extrusion to promote, be provided with the reset subassembly that resets after the installation pipe is used for T template extrusion.

Preferably, the extrusion assembly comprises a mounting rack fixed on the first C-shaped plate and the second C-shaped plate, a rotating shaft is connected to the mounting rack in a rotating manner, a rotating disc is fixed on the rotating shaft, and a plurality of rubber bulges used for pushing the T-shaped plates in an extrusion manner are arranged on the rotating disc in an annular array manner.

Preferably, the reset assembly comprises a plurality of T-shaped rods connected to the T-shaped plate in a sliding mode, one end of each T-shaped rod is fixed to the installation pipe, a circular plate is fixed to each T-shaped rod, a first spring is sleeved on the side wall of each T-shaped rod, and two ends of the first spring are connected with the T-shaped plate and the circular plate respectively.

Preferably, the sliding assembly comprises an arc-shaped groove which is formed in the supporting seat and matched with the appearance of the pipeline body, a plurality of mounting grooves are formed in the arc-shaped groove, and each mounting groove is rotatably connected with a rotating wheel which is convenient for the pipeline body to slide.

Preferably, the mounting assembly comprises a plurality of mounting holes formed in the supporting seat, a connecting plate is fixed to the lower end of the first C-shaped plate, a plurality of mounting rods matched with the mounting holes are fixed to the connecting plate, and a limiting assembly used for limiting after the mounting holes penetrate through is arranged at one end of each mounting rod.

Preferably, the limiting assembly comprises a jack arranged on the mounting rod, a limiting pin is inserted into the jack, a second spring is sleeved on the side wall of the mounting rod, two ends of the second spring respectively abut against the supporting seat and the limiting pin, and the first C-shaped plate abuts against the end face of the pipeline body under the pulling action of the second spring.

Preferably, the clamping assembly comprises a plurality of clamping grooves and clamping rods, the clamping grooves are formed in one opposite sides of the first C-shaped plate and the second C-shaped plate, and the clamping rods and the clamping grooves are in interference fit with each other to achieve clamping installation.

Preferably, the first C-shaped plate is provided with a knocking assembly used for knocking in the installation process of the pipeline body, the knocking assembly comprises a strip-shaped plate, a knocking rod used for the first C-shaped plate to vibrate and knock is fixed on the strip-shaped plate, the first C-shaped plate is provided with a connecting assembly used for connecting the strip-shaped plate, and the first C-shaped plate is provided with a pushing assembly used for pushing the strip-shaped plate;

coupling assembling includes a plurality of T type connecting rods of sliding connection on the strip shaped plate, each the one end and the first C template of T type connecting rod are fixed mutually, each the cover is equipped with the third spring on the lateral wall of T type connecting rod.

Preferably, the pushing assembly comprises a fixed plate fixed on the first C-shaped plate, a rotating rod is rotatably connected to the fixed plate, a rotating disc is fixed at one end of the rotating rod, a plurality of pushing blocks which are pushed by the strip-shaped plate are fixed on the rotating disc, and a labor-saving rotating assembly for enabling the rotating rod to rotate in a labor-saving manner is arranged on the fixed plate;

laborsaving runner assembly is including rotating the actuating lever of connection on the fixed plate, the one end of actuating lever is fixed with the rotation handle, be fixed with first gear on the actuating lever, be fixed with the second gear on the dwang, intermeshing sets up between first gear and the second gear, the number of teeth of second gear is the number of times of first gear.

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

(1) This kind of pipeline erection support based on hydraulic engineering construction, during the installation of erection support auxiliary line, through aerifing the subassembly, carry outside air to the inside of installation cavity, the air that enters into to the installation cavity inside spouts on through the shower nozzle on each shutoff board, the outside surface of pipeline body is cleaned to spun gas on through each shower nozzle, through the cleaning effect to pipeline body surface, be convenient for paint the construction operation with waterproof coating between the adjacent pipeline body, no longer need manually clean, the erection joint of pipeline is used in the hydraulic engineering construction of being convenient for.

(2) This kind of be based on hydraulic engineering construction pipeline erection support, when installing through the auxiliary duct of erection support, through knocking the subassembly, what make on the bar shaped plate strikes first C template of knocking the pole intermittent type nature, at the in-process that strikes, drive the pipeline body and shake, through the vibrations of pipeline body, the grout of being convenient for in the milk clearance department of filling between two pipeline bodies more that is more abundant has improved erection joint's effect between two pipeline bodies.

Drawings

FIG. 1 is a schematic view of a piping structure of the present invention;

FIG. 2 is a schematic view of a trench and pipe structure according to the present invention;

FIG. 3 is a schematic view of a supporting seat structure according to the present invention;

FIG. 4 is a schematic structural view of a mounting assembly and a limiting assembly of the present invention;

FIG. 5 is a schematic view of the cleaning assembly, the inflation assembly and the squeezing assembly of the present invention;

FIG. 6 is a schematic cross-sectional view of the knocking assembly and the pushing assembly according to the present invention;

FIG. 7 is an enlarged view of the structure at A in FIG. 4;

FIG. 8 is an enlarged view of the structure at B in FIG. 5;

fig. 9 is an enlarged schematic view of the structure at C in fig. 6.

In the figure: 1. a trench; 2. a supporting seat; 3. a pipe body; 301. a horn nozzle; 4. a sliding assembly; 401. an arc-shaped slot; 402. mounting grooves; 403. a rotating wheel; 5. a first C-shaped plate; 6. mounting the component; 601. mounting holes; 602. a connecting plate; 603. mounting a rod; 7. a limiting component; 701. a jack; 702. a limit pin; 703. a second spring; 8. a clamping assembly; 801. a clamping groove; 802. a clamping and connecting rod; 9. a cleaning assembly; 901. a vent hole; 902. a plugging plate; 903. a spray head; 10. an inflation assembly; 1001. installing a pipe; 1002. a one-way valve; 1003. a fixed tube; 1004. a piston rod; 1005. a T-shaped plate; 11. a reset assembly; 1101. a T-shaped rod; 1102. a circular plate; 1103. a first spring; 12. an extrusion assembly; 1201. a mounting frame; 1202. a rotating shaft; 1203. a turntable; 1204. a rubber bulge; 13. a knocking component; 1301. a strip plate; 1302. a knock bar; 14. a connecting assembly; 1401. a T-shaped connecting rod; 1402. a third spring; 15. a pushing assembly; 1501. a fixing plate; 1502. rotating the rod; 1503. rotating the disc; 1504. a pushing block; 16. a labor-saving rotating assembly; 1601. a drive rod; 1602. rotating the handle; 1603. a first gear; 1604. a second gear; 17. and a second C-shaped plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: a pipeline installation support based on hydraulic engineering construction comprises a plurality of supporting seats 2 which are arranged in a groove 1 and used for installing and supporting a pipeline body 3, a horn-shaped pipe opening 301 is formed in one end of the pipeline body 3, a sliding assembly 4 convenient for sliding in the installation process of the pipeline body 3 is arranged on each supporting seat 2, one side of each supporting seat 2 is connected with a first C-shaped plate 5 through an installation assembly 6, the first C-shaped plate 5 is connected with a second C-shaped plate 17 through a clamping assembly 8, and cleaning assemblies 9 with clean surfaces are arranged on the first C-shaped plates 5 and the second C-shaped plates 17 in an annular array mode during taping construction of the pipeline body 3;

cleaning assembly 9 is including setting up the installation cavity on first C template 5 and second C template 17, the inside of installation cavity communicates with each other and is connected with a plurality of air vents 901, be fixed with shutoff board 902 on each air vent 901, it is connected with shower nozzle 903 to communicate with on the shutoff board 902, one side of air vent 901 is provided with and is used for the inside gas filled component 10 of installation cavity, through gas filled component 10, carry outside air to the inside of installation cavity, the air that enters into the installation cavity inside spouts on through the shower nozzle 903 on each shutoff board 902, the outside surface of pipeline body 3 is cleaned through the gas that spouts on each shower nozzle 903, through the cleaning action to the pipeline body 3 surface, be convenient for waterproof coating scribble construction operation between the adjacent pipeline body 3, no longer need manually clean, be convenient for the erection joint use of pipeline in the hydraulic engineering construction.

The inflation assembly 10 comprises installation pipes 1001 installed on a first C-shaped plate 5 and a second C-shaped plate 17, the installation pipes 1001 are located on one side of a vent hole 901 and are communicated with the inside of an installation cavity, two one-way valves 1002 are installed on the installation pipes 1001, the conduction directions of the two one-way valves 1002 are from the outside of the installation pipes 1001 to the inside of the installation cavity, fixing pipes 1003 are installed on the installation pipes 1001, the fixing pipes 1003 are located between the two one-way valves 1002, piston rods 1004 are connected to the fixing pipes 1003 in a sliding mode, T-shaped plates 1005 are fixed to one ends of the piston rods 1004, extrusion assemblies 12 used for extrusion and pushing of the T-shaped plates 1005 are arranged on one side of the installation pipes 1001, reset assemblies 11 used for resetting after extrusion of the T-shaped plates 1005 are arranged on the installation pipes 1001, and external air is sucked between the two one-way valves 1002 and conveyed to the inside of the installation cavity through extrusion due to the conduction directions of the two one-way valves 1002 being from the outside of the installation pipes 1001.

The extrusion assembly 12 comprises an installation frame 1201 fixed on a first C-shaped plate 5 and a second C-shaped plate 17, a rotating shaft 1202 is connected to the installation frame 1201 in a rotating mode, a rotating disc 1203 is fixed on the rotating shaft 1202, a plurality of rubber protrusions 1204 used for extrusion pushing of T-shaped plates 1005 are arranged on the rotating disc 1203 in an annular array mode, the reset assembly 11 comprises a plurality of T-shaped rods 1101 connected to the T-shaped plates 1005 in a sliding mode, one ends of the T-shaped rods 1101 are fixed to an installation pipe 1001, circular plates 1102 are fixed to the T-shaped rods 1101, a first spring 1103 is sleeved on the side wall of each T-shaped rod 1101, two ends of the first spring 1103 are respectively connected with the T-shaped plates 1005 and the circular plates 1102, the pipeline bodies 3 penetrate through the first C-shaped plate 5 and the second C-shaped plate 17 and move to the inner wall of the horn pipe opening 301 to abut against each other in the process that the two pipeline bodies 3 move close to each other, the rotating disc 1203 is pushed to rotate under the interaction between the outer side wall of the rubber protrusions 1005 of the sliding pipeline body 3 and the rubber protrusions 1204 on the rotating disc 1203, and the T-shaped plates 1005 and the rubber protrusions 1005 are sequentially return to the T-shaped plates 1005 and the first spring rods 1005 after the T-shaped plates 1005 and the first rubber protrusions 1005 are pushed to reciprocate along with the T-shaped plates 1005.

Sliding assembly 4 is provided with a plurality of mounting grooves 402 including offering the arc wall 401 that sets up with the mutual matching of 3 appearances of pipeline body on supporting seat 2 on the arc wall 401, rotates on each mounting groove 402 and is connected with the gliding runner 403 of pipeline body 3 of being convenient for, and at the in-process that pipeline body 3 was promoted, through the rotation of each runner 403, the slip of pipeline body 3 of being convenient for makes the process of being close to the installation more convenient each other between two pipeline bodies 3.

The installation component 6 comprises a plurality of installation holes 601 formed in the supporting seat 2, a connecting plate 602 is fixed at the lower end of the first C-shaped plate 5, a plurality of installation rods 603 matched with the installation holes 601 are fixed on the connecting plate 602, one end of each installation rod 603 is provided with a limiting component 7 used for limiting after passing through the installation holes 601, each limiting component 7 comprises a jack 701 formed in the installation rod 603, a limiting pin 702 is inserted into the jack 701, a second spring 703 is sleeved on the side wall of each installation rod 603, two ends of the second spring 703 abut against the supporting seat 2 and the limiting pin 702 respectively, the first C-shaped plate 5 abuts against the end face of the pipeline body 3 under the pulling action of the second spring 703, the first C-shaped plate 5 and the second C-shaped plate 17 are installed in a clamping mode through a plurality of clamping grooves 801 and clamping rods 802, after the first C-shaped plate 5 and the second C-shaped plate 17 are clamped, the plurality of installation rods on the connecting plate 602 penetrate through the installation holes 601 on the supporting seat 2 respectively, after passing through the second C-shaped plate 5, the installation rods 603 are sleeved with the second C-shaped plate 703, after the second C-shaped plate is clamped, the installation rods 703, the first C-shaped plate 701 and the pipeline body abut against the second C-shaped plate 3, the second C-shaped plate 701, the pipeline body after the pipeline body, the pipeline body is installed, and the pipeline body, and the pipeline body, the pipeline body is installed under the effect of the limiting pin 701 is completed by sleeving of the limiting pin 701 after the limiting pin 701.

The clamping assembly 8 comprises a plurality of clamping grooves 801 and clamping rods 802 which are arranged on one side, opposite to the first C-shaped plate 5 and the second C-shaped plate 17, of the clamping rods 802 and the clamping grooves 801 are in interference fit with each other to achieve clamping installation, and clamping installation between the first C-shaped plate 5 and the second C-shaped plate 17 is facilitated through the clamping grooves 801 and the clamping rods 802.

The first C-shaped plate 5 is provided with a knocking component 13 used for knocking in the installation process of the pipeline bodies 3, the knocking component 13 comprises a strip-shaped plate 1301, a knocking rod 1302 used for vibrating and knocking the first C-shaped plate 5 is fixed on the strip-shaped plate 1301, the first C-shaped plate 5 is provided with a connecting component 14 used for connecting the strip-shaped plate 1301, the first C-shaped plate 5 is provided with a pushing component 15 used for pushing the strip-shaped plate 1301, the knocking rod 1302 on the strip-shaped plate 1301 intermittently knocks the first C-shaped plate 5 through the knocking component 13, the pipeline bodies 3 are driven to vibrate in the knocking process, grouting cement paste convenient to grout is filled in gaps between the two pipeline bodies 3 more fully through vibration of the pipeline bodies 3, and the installation and connection effects between the two pipeline bodies 3 are improved;

the connecting assembly 14 comprises a plurality of T-shaped connecting rods 1401 slidably connected to the strip-shaped plate 1301, one end of each T-shaped connecting rod 1401 is fixed to the first C-shaped plate 5, third springs 1402 are sleeved on the side walls of each T-shaped connecting rod 1401, the stressed strip-shaped plate 1301 is guided through each T-shaped connecting rod 1401, and the reset movement of the stressed strip-shaped plate 1301 is facilitated through each third spring 1402.

The pushing assembly 15 comprises a fixing plate 1501 fixed on the first C-shaped plate 5, the fixing plate 1501 is rotatably connected with a rotating rod 1502, one end of the rotating rod 1502 is fixedly provided with a rotating disc 1503, the rotating disc 1503 is fixedly provided with a plurality of pushing blocks 1504 which are the same as the strip-shaped plates 1301 for pushing, the fixing plate 1501 is provided with a labor-saving rotating assembly 16 for the rotating rod 1502 to rotate in a labor-saving manner, the rotating rod 1502 is driven to rotate through the labor-saving rotating assembly 16, and in the rotating process of the rotating rod 1502, the plurality of pushing blocks 1504 on the rotating disc 1503 at one end of the rotating rod 1502 are driven to sequentially push the strip-shaped plates 1301;

laborsaving runner assembly 16 is including rotating drive lever 1601 of connection on fixed plate 1501, the one end of drive lever 1601 is fixed with rotation handle 1602, be fixed with first gear 1603 on the drive lever 1601, be fixed with second gear 1604 on the dwang 1502, intermeshing setting between first gear 1603 and the second gear 1604, the number of teeth of second gear 1604 is the number times of first gear 1603, because of the number of teeth of second gear 1604 is the number times of first gear 1603, under lever principle's effect, make the more laborsaving of rotation drive dwang 1502 pivoted process through drive lever 1601.

The working principle is as follows: in the process of installing the pipeline in the groove 1 by assisting the supporting seat 2, the supporting seat 2 is laid in the groove 1 in advance, after the laying is completed, the pipeline body 3 to be installed is placed in the arc-shaped groove 401 on the supporting seat 2, the pipeline body 3 is supported by each rotating wheel 403 on the arc-shaped groove 401, after the pipeline body 3 is placed, the first C-shaped plate 5 and the second C-shaped plate 17 are clamped and installed through the clamping grooves 801 and the clamping rods 802, after the first C-shaped plate 5 and the second C-shaped plate 17 are clamped and connected, the mounting rods 603 on the connecting plate 602 respectively penetrate through the mounting holes 601 on the supporting seat 2, after the penetration is completed, the second spring 703 is sleeved on one end of the mounting rod 603 penetrating through the mounting hole 601, after the sleeving is completed, the limiting pin 702 is clamped into the insertion hole 701, the sleeved second spring 703 is limited by the limiting pin 702, and under the action of elastic force, the first C5 is pulled to abut against one side of the pipeline body 3, and the first C5 abuts against the pipeline body 17 on the second C-shaped plate 17;

after the first C-shaped plate 5 and the second C-shaped plate 17 are installed on one side of the pipeline body 3, the adjacent pipeline bodies 3 are installed and connected and are plastered, in the process of installing the adjacent two pipeline bodies 3, the adjacent two pipeline bodies 3 are mutually close and pushed, in the process of pushing the pipeline bodies 3, the pipeline bodies 3 are convenient to slide through the rotating wheels 403, the process of mutually close and installing the two pipeline bodies 3 is more convenient, in the process of mutually close and moving the two pipeline bodies 3, the pipeline bodies 3 pass through the space between the first C-shaped plate 5 and the second C-shaped plate 17 and move to the inner wall of the horn nozzle 301 to abut against each other, in the process of moving the pipeline bodies 3, under the interaction between the outer side wall of the sliding pipeline body 3 and the rubber bulge 1204 on the rotating disc 1203, the rotating disc 1203 is pushed to rotate under the stress, in the process of rotating the rotating disc 1203, the extrusion effect of the rubber bulges 1204 on the T1005 on the sliding pipeline body 3 and the rubber bulge 1204 on the rotating disc 1203 sequentially enable the outer surface of the T-shaped plate 1005 to be sprayed into a cleaning cavity through the inner surface of the cleaning pipe 1002, and the cleaning pipe 1002, the cleaning pipe 1002 is convenient for cleaning operation, the cleaning pipe 1002, manual cleaning is not needed any more, and the installation, connection and use of pipelines in hydraulic engineering construction are facilitated;

after two pipeline bodies 3 that link to each other promote the completion, carry out waterproof coating to two pipeline body 3's outside surface and paint, waterproof coating paints and accomplishes the back, be in milk with two pipeline body 3's junction, in the in-process of grout processing, drive actuating lever 1601 rotates through rotating handle 1602, at actuating lever 1601 pivoted in-process, through the intermeshing effect between first gear 1603 and the second gear 1604, drive dwang 1502 rotates, at dwang 1502 pivoted in-process, drive a plurality of promotion pieces 1504 on dwang 1502 one end rolling disc 1503 and promote strip plate 1301 in proper order, make on the strip plate 1301 strike pole 1302 intermittent type nature strike first C type board 5, at the in-process of striking, drive pipeline body 3 and shake, through the vibrations of pipeline body 3, the more filled clearance department between two pipeline bodies 3 of grout of being convenient for being in good order, erection joint's effect between two pipeline bodies 3 has been improved.

Claims (10)

1. The utility model provides a based on hydraulic engineering construction pipe erection support, is including setting up supporting seat (2) that a plurality of pipeline bodies (3) erection bracing that are used for in slot (1) inside, the one end of pipeline body (3) is provided with the horn pipe mouth (301) that are the setting of loudspeaker form, its characterized in that: the pipeline cleaning device is characterized in that a sliding assembly (4) convenient for sliding in the installation process of the pipeline body (3) is arranged on the supporting seat (2), one side of the supporting seat (2) is connected with a first C-shaped plate (5) through an installation assembly (6), the first C-shaped plate (5) is connected with a second C-shaped plate (17) through a clamping assembly (8), and cleaning assemblies (9) with clean surfaces when the pipeline body (3) is plastered and constructed are arranged on the first C-shaped plate (5) and the second C-shaped plate (17) in an annular array mode;

the cleaning assembly (9) comprises mounting cavities arranged on a first C-shaped plate (5) and a second C-shaped plate (17), the inside of each mounting cavity is communicated with a plurality of vent holes (901), each vent hole (901) is fixedly provided with a plugging plate (902), each plugging plate (902) is communicated with a spray head (903), and one side of each vent hole (901) is provided with an inflation assembly (10) used for inflating the inside of the mounting cavity.

2. The hydraulic engineering construction pipeline installation support based on claim 1, characterized in that: the inflation assembly (10) comprises a mounting pipe (1001) mounted on a first C-shaped plate (5) and a second C-shaped plate (17), wherein the mounting pipe (1001) is located on one side of a vent hole (901) and is communicated with the inside of a mounting cavity, two one-way valves (1002) are mounted on the mounting pipe (1001), the conduction direction of the two one-way valves (1002) is from the outside of the mounting pipe (1001) to the inside of the mounting cavity, a fixing pipe (1003) is mounted on the mounting pipe (1001), the fixing pipe (1003) is located between the two one-way valves (1002), a piston rod (1004) is slidably connected onto the fixing pipe (1003), a T-shaped plate (1005) is fixed to one end of the piston rod (1004), an extrusion assembly (12) used for extrusion pushing of the T-shaped plate (1005) is arranged on one side of the mounting pipe (1001), and a reset assembly (11) used for resetting of the T-shaped plate (1005) after extrusion is arranged on the mounting pipe (1001).

3. The hydraulic engineering construction pipeline installation support based on claim 2, characterized in that: extrusion subassembly (12) is including fixing mounting bracket (1201) on first C template (5) and second C template (17), it is connected with pivot (1202) to rotate on mounting bracket (1201), be fixed with carousel (1203) on pivot (1202), annular array is provided with a plurality of rubber bulge (1204) that are used for T template (1005) extrusion to promote on carousel (1203).

4. The hydraulic engineering construction pipeline installation support based on claim 3, characterized in that: reset assembly (11) are including a plurality of T type pole (1101) of sliding connection on T type board (1005), the one end and installation pipe (1001) of T type pole (1101) are fixed mutually, each be fixed with plectane (1102) on T type pole (1101), each the cover is equipped with first spring (1103) on the lateral wall of T type pole (1101), the both ends of first spring (1103) are connected with T type board (1005) and plectane (1102) respectively.

5. The hydraulic engineering construction pipeline installation support based on claim 4, characterized in that: sliding assembly (4) including offer on supporting seat (2) with pipeline body (3) appearance match arc wall (401) that set up each other, be provided with a plurality of mounting grooves (402) on arc wall (401), each it is connected with pipeline body (3) gliding runner (403) of being convenient for to rotate on mounting groove (402).

6. The hydraulic engineering construction pipeline installation support based on claim 5, characterized in that: installation component (6) are including offering a plurality of mounting holes (601) on supporting seat (2), the lower extreme of first C template (5) is fixed with connecting plate (602), be fixed with a plurality ofly on connecting plate (602) and mounting bar (603) that set up with mounting hole (601) match each other, the one end of mounting bar (603) is provided with and is used for passing spacing subassembly (7) in back from mounting hole (601).

7. The hydraulic engineering construction pipeline installation support based on claim 6, characterized in that: the limiting component (7) comprises a jack (701) arranged on the mounting rod (603), a limiting pin (702) is inserted into the jack (701), a second spring (703) is sleeved on the side wall of the mounting rod (603), two ends of the second spring (703) respectively abut against the supporting seat (2) and the limiting pin (702), and the first C-shaped plate (5) abuts against the end face of the pipeline body (3) under the pulling action of the second spring (703).

8. The hydraulic engineering construction pipeline installation support based on claim 7, characterized in that: joint subassembly (8) are including offering a plurality of joint grooves (801) and joint pole (802) in first C template (5) and second C template (17) relative one side, mutual interference fit realizes the joint installation between joint pole (802) and joint groove (801).

9. The hydraulic engineering construction pipeline installation support based on claim 8, characterized in that: the pipe fitting device is characterized in that a knocking component (13) used for knocking in the installation process of the pipe body (3) is arranged on the first C-shaped plate (5), the knocking component (13) comprises a strip-shaped plate (1301), a knocking rod (1302) used for the first C-shaped plate (5) to vibrate and knock is fixed on the strip-shaped plate (1301), a connecting component (14) used for connecting the strip-shaped plate (1301) is arranged on the first C-shaped plate (5), and a pushing component (15) used for pushing the strip-shaped plate (1301) is arranged on the first C-shaped plate (5);

the connecting assembly (14) comprises a plurality of T-shaped connecting rods (1401) which are connected to a strip-shaped plate (1301) in a sliding mode, one end of each T-shaped connecting rod (1401) is fixed to the first C-shaped plate (5), and a third spring (1402) is sleeved on the side wall of each T-shaped connecting rod (1401).

10. The hydraulic engineering construction pipeline installation support based on claim 9, characterized in that: the pushing assembly (15) comprises a fixing plate (1501) fixed on the first C-shaped plate (5), a rotating rod (1502) is connected to the fixing plate (1501) in a rotating mode, a rotating disc (1503) is fixed at one end of the rotating rod (1502), a plurality of pushing blocks (1504) which are pushed by the strip-shaped plates (1301) are fixed on the rotating disc (1503), and a labor-saving rotating assembly (16) used for enabling the rotating rod (1502) to rotate in a labor-saving mode is arranged on the fixing plate (1501);

laborsaving runner assembly (16) is including rotating actuating lever (1601) of connection on fixed plate (1501), the one end of actuating lever (1601) is fixed with rotation handle (1602), be fixed with first gear (1603) on actuating lever (1601), be fixed with second gear (1604) on dwang (1502), intermeshing sets up between first gear (1603) and second gear (1604), the number of teeth of second gear (1604) is the several times of first gear (1603).

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