CN117990486A - Pressure pipeline detection device - Google Patents

Abstract

The application discloses a pressure pipeline detection device, and relates to the technical field of pipeline detection. The application comprises the following steps: the water tank is provided with an opening at one side and is vertically and rotatably provided with a rotating plate, and a driving piece for driving the rotating plate to rotate is arranged on the water tank; the connecting mechanism comprises a first connecting cylinder and a second connecting cylinder which are horizontally and slidably arranged at the top of the rotating plate. Compared with the prior art, the technical scheme of the application has the advantages that one pipe connecting piece can be quickly communicated with the first connecting cylinder through the plugging mechanism, the sealing cover is matched, the water pressure detection is more convenient when different types of pipelines are subjected to water pressure detection, the rotating plate is rotated through the driving piece to move the pipeline to be detected into the water tank, the interior of the pipeline to be detected is quickly filled with water, so that the time required for filling the interior of the pipeline with water is reduced when the pipeline with larger inner diameter is detected, and the detection efficiency is further improved.

Description

Pressure pipeline detection device

Technical Field

The application relates to the technical field of pipeline detection, in particular to a pressure pipeline detection device.

Background

Pressure pipes refer to all pipes which are subjected to internal or external pressure, whatever the medium in the pipe. The pipeline is a part of pipeline, pipeline is used for conveying, distributing, mixing, separating, discharging, metering, controlling and stopping fluid flow, industrial pipeline and building pipeline need carry out water pressure detection on pipeline when pipeline production, the existing pipeline water pressure detection is generally carried out by taking one end seal of pipeline, then the other end of pipeline is connected with a water pipe, water is injected into the pipeline through a water pump pressurizing mode, the pipeline is full of water, then when the pressure reaches a proper value, the pipeline quality is qualified if no water seepage and rupture occur in the pipeline at the moment, however, the existing common pipeline is divided into a clamp type pipeline, a flange type pipeline, an internal thread type pipeline and an external thread type pipeline, the existing pipeline pressure detection device is inconvenient when carrying out water pressure detection on different types of pipelines, the pipeline water pressure detection device with corresponding inner cores is required to carry out the water pressure detection, the existing pipeline pressure detection device is low in applicability, the pipeline to be detected needs to be filled with water at first when the water pressure detection is carried out, then the pipeline can be continuously detected, when the pipeline with larger inner diameter is detected, the pipeline is required to be filled with water after a certain time, and therefore the pipeline detection efficiency is required to be fully detected.

The present invention therefore proposes a pressure line detection device.

Disclosure of Invention

The application aims at: in order to solve the problems in the background art, the application provides a pressure pipeline detection device.

The application adopts the following technical scheme for realizing the purposes:

Pressure pipe detection device includes:

The water tank is provided with an opening at one side and is vertically and rotatably provided with a rotating plate, and a driving piece for driving the rotating plate to rotate is arranged on the water tank;

The connecting mechanism comprises a first connecting cylinder and a second connecting cylinder which are horizontally and slidably arranged at the top of the rotating plate; the two opposite sides of the first connecting cylinder and the second connecting cylinder are provided with a plurality of pipe connecting pieces which are distributed in a circular array, one end of each pipe connecting piece on the second connecting cylinder is screwed with a sealing cover, and one end surface of the first connecting cylinder far away from the second connecting cylinder is provided with a plugging plate;

The water injection mechanism is arranged on the water tank and is used for injecting water into the first connecting cylinder;

the plugging mechanism is arranged on the first connecting cylinder, and one of the pipe connecting pieces is communicated with the inside of the first connecting cylinder through the plugging mechanism.

Further, the pipe connection piece includes internal thread formula, external screw thread formula, ring flange formula and clamp formula, and each quantity is two at least, the shutoff mechanism is including rotating the shutoff dish of installing in the first connecting cylinder, the inside one end laminating of shutoff dish and first connecting cylinder, the sliding tray has been seted up on the shutoff dish, sliding mounting has the shutoff piece that is used for sheltering from pipe connection piece and first connecting cylinder intercommunication department, install on the first connecting cylinder and be used for the spacing locking component in shutoff piece position, install on the shutoff board and be used for driving shutoff dish pivoted adjusting part.

Further, four kinds of movable grooves are formed in the circular array on the plugging plate, the locking assembly comprises a magnetic sliding block which is slidably installed in the movable groove, and a magnetic plate which is used for being opposite to the magnetic sliding block is installed on one side of the plugging plate.

Further, the adjusting component comprises a rotating rod which is inserted on the plugging plate in a rotating mode, one end of the rotating rod is connected with the plugging disc, an annular sealing groove is formed in the outer periphery of the plugging disc, a plurality of tight propping plates with one ends located in the annular sealing groove are slidably arranged in the plugging disc in an array mode, the adjusting component further comprises sealing rings which are sleeved on the tight propping plates, and an adjusting piece which drives the tight propping plates to move is arranged on the rotating rod.

Further, the mounting hole has been seted up at shutoff dish one end middle part, rotary rod one end is rotated and is installed in the mounting hole, the rotary rod is located outside one end and installs the sleeve, the slip is inserted in the sleeve and is equipped with the spliced pole that runs through the rotary rod, the spliced pole that supplies the spliced pole to insert to establish has been seted up to the inside one end of mounting hole, and the spliced pole is polygonal, and when the spliced pole breaks away from spliced pole and rotary rod rotation, is close to each other or keeps away from with a plurality of tight boards that support through the regulating part.

Further, the adjusting piece comprises a threaded cylinder which is sleeved on the outer peripheral side of the rotating rod in a threaded mode, a plurality of linkage rods are hinged to the outer peripheral side of the threaded cylinder, and free ends of the linkage rods are hinged to the abutting plates respectively.

Further, two driving plates are symmetrically and slidably arranged on the plugging disc, the plugging block is located between the two driving plates and symmetrically provided with two forcing inclined planes, triangular plates used for being in contact with the forcing inclined planes are arranged on the driving plates, movable grooves are formed in one sides of the driving plates, connecting plates are respectively arranged on the two adjacent abutting plates, the connecting plates are provided with a post rod located in the movable grooves, and the two connecting plates are distributed in a crossed mode.

Further, the water injection mechanism comprises a water pump arranged on one side of the water tank, a water inlet pipe is connected between the water inlet end of the water pump and the water tank, a water outlet pipe is arranged between the water outlet end of the water pump and the plugging plate, and a water valve is arranged on the water outlet pipe.

Further, the driving piece comprises a transmission plate with one end vertical and rotatably installed on the water tank, the transmission plate is provided with a forcing groove along the length direction of the transmission plate, a shaft rod which is tangential to the forcing groove in a sliding way is constructed on the rotation plate, and an electric push rod is hinged between the water tank and the transmission plate.

Further, guide inclined frame is installed to one side of water tank, guide inclined frame's the lower extreme and the inside intercommunication of water tank, guide inclined frame is located the rotor plate below, spacing tooth's socket has been seted up in first connecting cylinder and second connecting cylinder outside, horizontal sliding installs the spacing pinion rack that is used for inserting to establish in the spacing tooth's socket on the rotor plate, install the conflict spring between spacing pinion rack and the rotor plate.

The beneficial effects of the application are as follows:

compared with the prior art, the technical scheme of the application has the advantages that one pipe connecting piece can be quickly communicated with the first connecting cylinder through the plugging mechanism, the sealing cover is matched, the water pressure detection is more convenient when different types of pipelines are subjected to water pressure detection, the rotating plate is rotated through the driving piece to move the pipeline to be detected into the water tank, the interior of the pipeline to be detected is quickly filled with water, so that the time required for filling the interior of the pipeline with water is reduced when the pipeline with larger inner diameter is detected, and the detection efficiency is further improved.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a partial perspective cross-sectional view of FIG. 1 in accordance with the present application;

FIG. 3 is a schematic view of the present application from another perspective of FIG. 1;

FIG. 4 is an exploded view of a portion of the construction of the present application;

FIG. 5 is a schematic view of another view of the present application;

FIG. 6 is an exploded view of another part of the construction of the present application;

FIG. 7 is an exploded view of yet another portion of the construction of the present application;

FIG. 8 is a schematic view of a portion of the structure of the present application;

FIG. 9 is an enlarged view of the structure of FIG. 4A in accordance with the present application;

Reference numerals: 1. a water tank; 2. a rotating plate; 3. a driving member; 301. a drive plate; 302. forcing the groove; 303. a shaft lever; 304. an electric push rod; 4. a connecting mechanism; 401. a first connecting cylinder; 402. a second connecting cylinder; 403. sealing cover; 404. a plugging plate; 5. a plugging mechanism; 501. a plugging disc; 502. a sliding groove; 503. a block; 6. a water injection mechanism; 601. a water pump; 602. a water inlet pipe; 603. a water outlet pipe; 604. a water valve; 7. a locking assembly; 701. a moving groove; 702. a magnetic slider; 703. a magnetic plate; 8. an adjustment assembly; 801. a rotating rod; 802. an annular seal groove; 803. a pressing plate; 804. a seal ring; 9. an adjusting member; 901. a thread cylinder; 902. a linkage rod; 10. a mounting hole; 11. a sleeve; 12. inserting a connecting rod; 13. a plug hole; 14. a driving plate; 15. forcing the ramp; 16. a triangle; 17. a movable groove; 18. a connecting plate; 19. a post; 20. guiding the inclined frame; 21. limiting tooth grooves; 22. limiting toothed plates; 23. against the spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application.

As shown in fig. 1 to 9, a pressure pipe detection device according to a first embodiment of the present application includes:

The water tank 1, one side of the water tank 1 is provided with an opening and is vertically and rotatably provided with a rotating plate 2, and a driving piece 3 for driving the rotating plate 2 to rotate is arranged on the water tank 1;

The connecting mechanism 4 comprises a first connecting cylinder 401 and a second connecting cylinder 402 which are horizontally and slidably arranged at the top of the rotating plate 2, the rotating plate 2 can be driven to rotate through a driving piece 3, the first connecting cylinder 401 and the second connecting cylinder 402 are driven to enter the water tank 1, various pipe connecting pieces are arranged at two opposite sides of the first connecting cylinder 401 and the second connecting cylinder 402 and distributed in a circular array, the pipe connecting pieces comprise a clamp type, a flange type, an internal thread type and an external thread type, one end of the pipe connecting piece on the second connecting cylinder 402 is screwed with a sealing cover 403 in a threaded manner, one end of the pipe connecting piece on the second connecting cylinder 402 can be plugged through the sealing cover 403, and a plugging plate 404 is arranged on one end face of the first connecting cylinder 401 far away from the second connecting cylinder 402;

a water filling mechanism 6 mounted on the water tank 1 for filling water into the first connection cylinder 401;

The plugging mechanism 5 is installed on the first connecting cylinder 401, one of the pipe connectors is communicated with the inside of the first connecting cylinder 401 through the plugging mechanism 5, when in use, one of the pipe connectors is communicated with the first connecting cylinder 401 through the plugging mechanism 5, then the corresponding pipe connector on the second connecting cylinder 402 is plugged, for example, when the internal thread type pipe connector on the first connecting cylinder 401 is required to be hydraulically tested, the plugging mechanism 5 can be used for enabling the internal thread type pipe connector on the first connecting cylinder 401 to be communicated with the first connecting cylinder 401, then one end of the pipe to be tested is connected with the internal thread type pipe connector on the second connecting cylinder 402, the other end of the pipe to be tested is connected with the pipe connector on the first connecting cylinder 401 (here, the internal thread type pipe connector which is communicated with the first connecting cylinder 401 at the moment) is located between the first connecting cylinder 401 and the second connecting cylinder 402 at the moment, then the first connecting cylinder 401 and the second connecting cylinder 402 are poured into water through the driving piece 3, the pipe to be tested is driven to be in the water, the water tank is required to be quickly filled with the water tank 1 through the driving piece 3, the internal thread type pipe connector is required to be completely filled with the water tank 1 through the first connecting cylinder, the water tank 1 is required to be quickly filled with the water tank 1 is in the state, and finally the water tank is filled with the water tank is in the state 1 is required to be quickly filled up through the water tank 1 through the driving piece 1, the inside of the first connecting cylinder 401 is filled with water in advance, so when water is injected into the first connecting cylinder 401, the water can directly flow into the pipeline to be detected at the moment, so that the internal pressurization of the pipeline to be detected is realized, and the aim of detection is realized.

As shown in fig. 1, fig. 4, fig. 5, fig. 8 and fig. 9, in the first embodiment, the pipe connector includes internal thread formula, external thread formula, ring flange formula and clamp formula, and each quantity is two at least, concretely, as shown in fig. 1, the distribution of pipe connector is circular array distribution, and the pipe connector diameter of same type is different, the suitability of the device has been improved, the shutoff mechanism 5 includes the shutoff dish 501 of rotating the installation in first connecting cylinder 401, the inside one end laminating of shutoff dish 501 and first connecting cylinder 401, the sliding tray 502 has been seted up on the shutoff dish 501, sliding mounting has the shutoff piece 503 that is used for sheltering from pipe connector and first connecting cylinder 401 intercommunication department, install on the first connecting cylinder 401 and be used for with the spacing locking component 7 of shutoff piece 503 position, install the adjusting component 8 that is used for driving the dish 501 pivoted on the shutoff board 404, when driving the shutoff dish 501 through adjusting component 8 and rotate, can be with the shutoff dish 502 the pipe connector of same type, the one end of first connecting cylinder 401 just has the shutoff piece that just to realize that the shutoff piece is connected with first connecting cylinder 401 through the one of other end face of a shutoff piece that just in time, the realization is connected with the first connecting cylinder 401 through the shutoff piece 503, the realization is connected with the shutoff piece that the quick connection is connected through the shutoff piece 503, and the quick connection is realized.

As shown in fig. 1, fig. 3 and fig. 4, in the first embodiment, four moving grooves 701 are formed in a circular array on the plugging plate 404, the locking assembly 7 includes a magnetic slider 702 slidably mounted in the moving grooves 701, a magnetic plate 703 opposite to the magnetic slider 702 is mounted on one side of the plugging block 503, when the plugging block 503 needs to be moved, the similar magnetic slider 702 can be moved at this time, so that one of the magnetic sliders 702 opposite to the magnetic plate 703 is opposite to the magnetic plate 703, and then the plugging block 503 can be moved by the magnetic plate 703 when the magnetic slider 702 is moved, after the position of the plugging block 503 is moved, the plugging block 503 can be driven to move outside the first connecting cylinder 401 without moving the magnetic slider 702, so that the use is more convenient.

Example two

As shown in fig. 1, fig. 3-fig. 5 and fig. 9, the present embodiment further improves the present application on the basis of the first embodiment, the adjusting component 8 includes a rotating rod 801 rotatably inserted on the plugging plate 404, one end of the rotating rod 801 is connected with the plugging plate 501, when the rotating rod 801 rotates, the plugging plate 501 rotates, the outer peripheral side of the plugging plate 501 is provided with an annular sealing groove 802, the inner circular array of the plugging plate 501 is slidably provided with a plurality of abutting plates 803 with one ends located in the annular sealing groove 802, the sealing ring 804 sleeved on the plurality of abutting plates 803 is further included, the rotating rod 801 is provided with an adjusting piece 9 for driving the abutting plates 803 to move, after the position of the plugging plate 501 moves, the abutting plates 803 are moved by the adjusting piece 9 at this time, so that one ends of the plurality of abutting plates 803 move away from the axis direction of the plugging plate 501, and then the abutting plates 803 abut against the sealing ring 804, so that the sealing ring 803 abut against the inner peripheral side of the first connecting cylinder 401, not only the rotation angle of the tray is limited by the abutting plates 803, but also the sealing ring 803 is limited by the abutting friction of the abutting plates 803, and the sealing plate 803 effectively preventing water from seeping into the plugging plate 501 when the sealing plate 501 is effectively pressed against the inner peripheral side of the plugging plate 401.

As shown in fig. 1, fig. 2, fig. 4, fig. 5 and fig. 9, in the second embodiment, the middle part of one end of the plugging disc 501 is provided with the mounting hole 10, one end of the rotating rod 801 is rotatably mounted in the mounting hole 10, the rotating rod 801 is located at the outer end and is provided with the sleeve 11, the sleeve 11 is internally slidably inserted with the plugging rod 12 penetrating through the rotating rod 801, the inner end of the mounting hole 10 is provided with the plugging hole 13 for plugging the plugging rod 12, the plugging hole 13 is in a polygonal shape, when the plugging rod 12 is separated from the plugging hole 13 and the rotating rod 801 rotates, the plurality of abutting plates 803 are mutually close to or far away from each other through the adjusting piece 9, that is to say, when the plugging disc 501 needs to be rotated, one end of the plugging rod 12 is plugged in the plugging hole 13 through moving the plugging rod 12, so that the plugging disc 501 can be driven to rotate when the rotating rod 801 rotates at this moment, thereby realizing the movement of the plugging disc 501, and after the plugging disc 501 rotates well, the plugging disc 501 is moved at this moment, the plugging rod 12 is separated from the plugging hole 13, and then the plugging disc 803 is not rotated again, but a plurality of abutting plates 803 can be rotated because of rotating the rotating rods 801 are separated from each other, or the plugging disc 803 is more closely and the plugging disc 501 can be locked by the rotating plate 501 and can be more conveniently and can be rotated by locking the rotating disc 501.

As shown in fig. 4 and 5, in the second embodiment, the adjusting member 9 includes a threaded cylinder 901 screwed on the outer peripheral side of the rotating rod 801, a plurality of interlocking rods 902 are hinged on the outer peripheral side of the threaded cylinder 901, free ends of the plurality of interlocking rods 902 are respectively hinged on a plurality of abutting plates 803, when the rotating rod 801 rotates, the rotating rod 801 rotates to drive the threaded cylinder 901 to rotate, because the threaded cylinder 901 is limited by the interlocking rods 902, when the rotating rod 801 rotates, the threaded cylinder 901 moves along the axial direction of the threaded cylinder 901 indirectly drives the plurality of interlocking rods 902 to move during the movement, because one end of the interlocking rods 902 is hinged on the abutting plates 803, the movement of the threaded cylinder 901 can enable the plurality of abutting plates 803 to approach or separate from each other through the interlocking rods 803, and the threaded engagement has self-locking property, so that the moving abutting plates 803 are not easy to move accidentally, and a good limiting effect is achieved.

Example III

As shown in fig. 4-7, in this embodiment, two driving plates 14 are symmetrically and slidingly mounted on the plugging disc 501 on the basis of the first embodiment and the second embodiment, the plugging block 503 is located between the two driving plates 14 and symmetrically configured with two forcing inclined planes 15, the driving plate 14 is configured with a triangle 16 for contacting with the forcing inclined planes 15, one side of the driving plate 14 is provided with a movable slot 17, two adjacent abutting plates 803 are respectively configured with a connecting plate 18, the connecting plates 18 are respectively configured with a column rod 19 located in the movable slot 17, the two connecting plates 18 are in crossed distribution, that is, when the abutting plates 803 are mutually far away, as shown in fig. 5 and 7, the two connecting plates 18 are in crossed distribution, so that at this time, the free ends of the connecting plates 18 located above the two abutting plates 803 are mutually close, the two column rods 19 are indirectly driven to move, and because the driving plates 14 and 19 are located in the movable slot 17, and rotate along the axis of the driving plates 14 and 19, thereby the two abutting plates 14 are forced to be close to each other, and the driving plates 14 are further abutted against the column rods 14, and the plugging block the sealing block 503, and the plugging block the sealing disc 503 is further blocked by the sealing disc 503, and the sealing disc is further blocked by the sealing disc is provided.

As shown in fig. 1-6, in the third embodiment, the water injection mechanism 6 includes a water pump 601 installed at one side of the water tank 1, a water inlet pipe 602 is connected between the water inlet end of the water pump 601 and the water tank 1, a water outlet pipe 603 is installed between the water outlet end of the water pump 601 and the plugging plate 404, and a water valve 604 is installed on the water outlet pipe 603, that is, when the water pump 601 is started, water in the water tank 1 is pumped into the water outlet pipe 603 through the water inlet pipe 602, because one end of the water outlet pipe 603 is connected with the plugging plate 404, water in the water outlet pipe 603 enters into the first connecting cylinder 401, preferably, a plurality of threaded holes can be formed on the outer side of the first connecting cylinder 401, so that when a pipeline to be detected is installed between the first connecting cylinder 401 and the second connecting cylinder 402, after the pipeline to be detected is soaked in the water tank 1, the threaded holes at this time also enter water, thereby filling the first connecting cylinder 401 with water, then the threaded holes are plugged up by using bolts, time required for filling water in the first connecting cylinder 401 is effectively reduced, time is further saved, the rotating plate 2 is rotated, the first connecting cylinder 401 is made to be connected with the water tank 401, and then the water tank 401 is pressurized, and the water tank 401 is pumped into the first connecting cylinder 401, and the water tank 401 is pressurized, and the water tank 1 is then the water tank is filled.

As shown in fig. 1 and 3, in the third embodiment, the driving member 3 includes a driving plate 301 with one end vertically and rotatably mounted on the water tank 1, the driving plate 301 is provided with a forcing groove 302 along the length direction thereof, the rotating plate 2 is provided with a shaft 303 which is in sliding tangency with the forcing groove 302, an electric push rod 304 is hinged between the water tank 1 and the driving plate 301, when the movable end of the electric push rod 304 moves, the driving plate 301 drives the forcing groove 302 to move when rotating, because the shaft 303 is in sliding tangency with the forcing groove 302, when the driving plate 301 rotates, the driving plate 301 drives the rotating plate 2 to rotate by forcing the groove 302 and the shaft 303, when the electric push rod extends to the highest limit position, the first connecting cylinder 401 and the second connecting cylinder 402 are immersed in the water tank 1, and after the movable end of the electric push rod 304 is accommodated, the rotating plate 2 is in a flat state.

As shown in fig. 1 and 3, in the third embodiment, a guiding inclined frame 20 is installed on one side of the water tank 1, the lowest end of the guiding inclined frame 20 is communicated with the inside of the water tank 1, the guiding inclined frame 20 is located below the rotating plate 2, a limiting tooth groove 21 is formed in the outer sides of the first connecting cylinder 401 and the second connecting cylinder 402, a limiting toothed plate 22 for being inserted into the limiting tooth groove 21 is horizontally and slidably installed on the rotating plate 2, an interference spring 23 is installed between the limiting toothed plate 22 and the rotating plate 2, when the positions of the first connecting cylinder 401 and the second connecting cylinder 402 are moved, the limiting toothed plate 22 is moved at the moment, the limiting toothed plate 22 is inserted into the limiting tooth groove 21, so that the rotating angle of the first connecting cylinder 401 and the second connecting cylinder 402 is indirectly limited, and after the limiting toothed plate 22 is inserted into the limiting tooth groove due to the design of the interference spring 23, accidental detachment is not easy to external collision.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. Pressure pipe detection device, its characterized in that includes:

The water tank (1), one side of the water tank (1) is provided with an opening and is vertically and rotatably provided with a rotating plate (2), and a driving piece (3) for driving the rotating plate (2) to rotate is arranged on the water tank (1);

The connecting mechanism (4) comprises a first connecting cylinder (401) and a second connecting cylinder (402) which are horizontally and slidably arranged at the top of the rotating plate (2), wherein multiple pipe connectors are arranged on two opposite sides of the first connecting cylinder (401) and the second connecting cylinder (402) and distributed in a circular array, one end of each pipe connector on the second connecting cylinder (402) is screwed with a sealing cover (403) in a threaded manner, and a plugging plate (404) is arranged on one end surface of the first connecting cylinder (401) far away from the second connecting cylinder (402);

a water injection mechanism (6) which is installed on the water tank (1) and is used for injecting water into the first connecting cylinder (401);

and the plugging mechanism (5) is arranged on the first connecting cylinder (401), and one pipe connecting piece is communicated with the interior of the first connecting cylinder (401) through the plugging mechanism (5).

2. The pressure pipeline detection device according to claim 1, wherein the pipe connecting piece comprises an internal thread type, an external thread type, a flange plate type and a clamp type, and each number is at least two, the blocking mechanism (5) comprises a blocking plate (501) rotatably installed in the first connecting cylinder (401), one end of the blocking plate (501) is attached to one end inside the first connecting cylinder (401), a sliding groove (502) is formed in the blocking plate (501), a blocking block (503) for blocking the communicating position of the pipe connecting piece and the first connecting cylinder (401) is slidably installed in the sliding groove (502), and a locking assembly (7) for limiting the position of the blocking block (503) is installed on the first connecting cylinder (401), and an adjusting assembly (8) for driving the blocking plate (501) to rotate is installed on the blocking plate (404).

3. The pressure pipeline detection device according to claim 2, wherein four moving grooves (701) are formed in the plugging plate (404) in a circular array, the locking assembly (7) comprises a magnetic sliding block (702) slidably installed in the moving grooves (701), and a magnetic plate (703) for attracting the magnetic sliding block (702) is installed on one side of the plugging block (503).

4. A pressure pipeline detection device according to claim 3, characterized in that the adjusting component (8) comprises a rotating rod (801) which is rotatably inserted on the plugging plate (404), one end of the rotating rod (801) is connected with the plugging disc (501), an annular sealing groove (802) is formed in the periphery side of the plugging disc (501), a plurality of abutting plates (803) with one ends located in the annular sealing groove (802) are slidably arranged in the plugging disc (501), the pressure pipeline detection device further comprises sealing rings (804) sleeved on the abutting plates (803), and the rotating rod (801) is provided with an adjusting piece (9) for driving the abutting plates (803) to move.

5. The pressure pipeline detection device according to claim 4, wherein the mounting hole (10) is formed in the middle of one end of the plugging disc (501), one end of the rotating rod (801) is rotatably mounted in the mounting hole (10), the sleeve (11) is mounted at one end of the outer portion of the rotating rod (801), the plug rod (12) penetrating through the rotating rod (801) is slidably inserted in the sleeve (11), the plug hole (13) for inserting the plug rod (12) is formed in one end of the inner portion of the mounting hole (10), the plug hole (13) is in a polygonal shape, and when the plug rod (12) is separated from the plug hole (13) and the rotating rod (801) rotates, the plurality of abutting plates (803) are enabled to be close to or far away from each other through the adjusting piece (9).

6. The pressure pipeline detection device according to claim 5, wherein the adjusting member (9) comprises a threaded cylinder (901) which is sleeved on the outer peripheral side of the rotary rod (801), a plurality of linkage rods (902) are hinged on the outer peripheral side of the threaded cylinder (901), and the free ends of the linkage rods (902) are respectively hinged on a plurality of abutting plates (803).

7. Pressure pipeline detection device according to claim 1, characterized in that two driving plates (14) are symmetrically and slidingly mounted on the plugging disc (501), the plugging block (503) is located between the two driving plates (14) and symmetrically provided with two forcing inclined planes (15), the driving plates (14) are provided with triangular plates (16) for being in contact with the forcing inclined planes (15), one side of each driving plate (14) is provided with a movable groove (17), two adjacent abutting plates (803) are provided with connecting plates (18), the connecting plates (18) are provided with column rods (19) located in the movable grooves (17), and the two connecting plates (18) are distributed in a crossed mode.

8. The pressure pipeline detection device according to claim 1, wherein the water injection mechanism (6) comprises a water pump (601) arranged on one side of the water tank (1), a water inlet pipe (602) is connected between the water inlet end of the water pump (601) and the water tank (1), a water outlet pipe (603) is arranged between the water outlet end of the water pump (601) and the plugging plate (404), and a water valve (604) is arranged on the water outlet pipe (603).

9. The pressure pipeline detection device according to claim 8, wherein the driving member (3) comprises a transmission plate (301) with one end vertically and rotatably installed on the water tank (1), the transmission plate (301) is provided with a forcing groove (302) along the length direction, the rotation plate (2) is provided with a shaft lever (303) which is in sliding tangency with the forcing groove (302), and an electric push rod (304) is hinged between the water tank (1) and the transmission plate (301).

10. The pressure pipeline detection device according to claim 9, wherein a guiding inclined frame (20) is installed on one side of the water tank (1), the lowest end of the guiding inclined frame (20) is communicated with the inside of the water tank (1), the guiding inclined frame (20) is located below the rotating plate (2), limiting tooth grooves (21) are formed in the outer sides of the first connecting cylinder (401) and the second connecting cylinder (402), limiting tooth plates (22) used for being inserted into the limiting tooth grooves (21) are installed on the rotating plate (2) in a horizontal sliding mode, and a collision spring (23) is installed between the limiting tooth plates (22) and the rotating plate (2).