CN216643280U - Pipe burying device for hydraulic and hydroelectric engineering - Google Patents

Abstract

The utility model discloses a pipe burying device for water conservancy and hydropower engineering, which comprises a base and a storage mechanism, the top of the base is provided with a storage mechanism which comprises a storage box, a discharge guide plate, a movable door, a pull rod, a traction frame and an inclined plate, the top of the base is provided with a storage box, one side of the bottom of the surface of the storage box is obliquely provided with a discharge guide plate, the interior of the discharge guide plate is communicated with the interior of the storage box, after the pipeline mounting groove is opened, the base is moved to a proper position, the discharge end at the bottom of the discharge guide plate is positioned at the top of the mounting groove, through artifical pulling pole setting or connect mode control bases such as traction machinery through the traction frame and remove along burying the slot underground, the pipeline receive and releases in order inside the discharge baffle, directly discharges to the slot insidely during the discharge, labour saving and time saving, very big improvement the convenience of construction, can accomplish laying of pipeline fast.

Description

Pipe burying device for hydraulic and hydroelectric engineering

Technical Field

The utility model relates to the technical field of hydraulic and hydroelectric engineering construction, in particular to a pipe burying device for hydraulic and hydroelectric engineering.

Background

The hydraulic and hydroelectric engineering refers to various kinds of engineering which are built in order to control, regulate and utilize surface water and underground water in the nature to achieve the purpose of removing harmful substances and benefiting interest, and in the construction process of the hydraulic and hydroelectric engineering, pipelines are often laid and buried.

Patent No. CN 214368158U's patent has announced a buried pipe device that hydraulic and hydroelectric engineering used, put the inboard of snap ring with the pipeline, start DC motor, DC motor drives the threaded rod rotatory, the threaded rod is rotatory to be driven the screw sleeve and rises, the screw sleeve drives the longer end of L type connecting rod at first rotating base, main hydraulic stem and vice hydraulic stem stop, reach the effect to pipeline stable connection, the better removes the pipeline, also can carry out stable decline with the pipeline when guaranteeing to carry out stable connection to the pipeline.

This pipe laying device that hydraulic and hydroelectric engineering used has following drawback when using: 1. when the pipe burying operation of the shallow groove on the ground surface is carried out, the pipeline needs to be put into the groove in a segmented mode and then is butted to finish laying, and as the laying pipeline is generally long, the process of laying the pipeline needs more workers to spend more time and physical power to finish laying, so that time and labor are wasted; 2. the traditional pipeline burying device can not quickly realize the discharge and placement of a single pipeline, and needs more manpower to participate in the discharge operation during use, so that the pipe burying device for the hydraulic and hydroelectric engineering is provided.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a pipe burying device for water conservancy and hydropower engineering, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides a buried pipe device that hydraulic and hydroelectric engineering used, includes the base, still includes stores the mechanism, the storage mechanism is installed at the base top, store the mechanism and include bin, discharge baffle, dodge gate, pull rod, traction frame and swash plate, the bin is installed at the base top, discharge baffle is installed to bin surface bottom one side slant, the discharge baffle is inside to be linked together with the bin is inside, base surface one side fixedly connected with pole setting, the traction frame is installed at the pole setting top, the swash plate is installed to the inside bottom slant of bin.

The discharging mechanism is arranged at the tail end of the discharging guide plate and comprises a fixing frame, a pull plate, a pull rod, a spring, a baffle and a connecting rod, the fixing frame is arranged at the top of the tail end of the discharging guide plate, the pull plate is inserted into the top of the tail end of the discharging guide plate, the pull rod penetrating through the fixing frame is arranged at the top of the pull plate, the spring is arranged on the periphery of the pull rod, the baffle is inserted into one side of the bottom of the tail end of the discharging guide plate, the connecting rods are arranged at two ends of the baffle, and one end, away from the baffle, of each connecting rod is connected to the surface of the pull plate; the pipeline to be placed slides into the discharge guide plate from the inside of the storage box to be orderly discharged, the pull plate main body is positioned at one end inside the discharge guide plate to block the pipeline so that the pipeline cannot be discharged, the baffle plate main body is positioned at the bottom of the discharge guide plate to avoid influencing the ordered arrangement among the pipelines, when the base moves to a proper position and the pipeline needs to be discharged, the pull rod is pulled upwards to drive the pull plate to move upwards, the baffle plate synchronously moves upwards and enters the discharge guide plate through the linkage of the connecting rod, the tail end pipeline inside the discharge guide plate is directly discharged to a proper position after the pull plate moves upwards, the baffle plate synchronously moves upwards to block the middle of the adjacent pipeline when the pipeline is discharged, the discharge of the following pipeline is avoided, only one pipeline is ensured to be discharged each time, the pull rod is loosened after the discharge is finished, the spring drives the pull plate and the baffle plate to reset, so that the subsequent pipeline can automatically enter the position to be discharged, the use is convenient, the discharge quantity can be ensured, the operation in the discharge process is simple, and the manual participation is reduced.

Furthermore, a plurality of moving wheels are mounted at the bottom of the base; the base is conveniently moved by the moving wheel at the bottom of the base.

Furthermore, a movable door is arranged on one side of the surface of the storage box and is positioned on one side, close to the discharge guide plate, of the surface of the storage box; the movable door close to one side of the discharge guide plate can be opened to sequence the internal pipelines when the pipelines in the storage box are blocked.

Further, the spring top is connected to the pull rod surface, and the spring bottom is connected to the top of the outer side wall of the discharge guide plate; the spring plays a connecting role, so that the pull rod can automatically reset after being loosened.

Compared with the prior art, the utility model has the following beneficial effects: the storage box is installed at the top of the base, pipelines to be used are sequentially loaded in the storage box, after the pipeline installation groove is formed, the base is moved to a proper position, the discharge end of the bottom of the discharge guide plate is located at the top of the installation groove, the base is controlled to move along the embedded groove in a mode of manually pulling the vertical rod or connecting a traction machine through a traction frame and the like, the pipeline can slide to one side of the discharge guide plate by the inclined plate in the storage box and is sequentially collected and placed in the discharge guide plate, and the pipeline is directly discharged into the groove along the tail end of the discharge guide plate during discharge; the pipeline to be placed slides into the discharge guide plate from the inside of the storage box to be orderly discharged, the pull plate main body is positioned at one end inside the discharge guide plate to block the pipeline so that the pipeline cannot be discharged, the baffle plate main body is positioned at the bottom of the discharge guide plate to avoid influencing the ordered arrangement among the pipelines, when the base moves to a proper position and the pipeline needs to be discharged, the pull rod is pulled upwards to drive the pull plate to move upwards, the baffle plate synchronously moves upwards and enters the discharge guide plate through the linkage of the connecting rod, the tail end pipeline inside the discharge guide plate is directly discharged to a proper position after the pull plate moves upwards, the baffle plate synchronously moves upwards to block the middle of the adjacent pipeline when the pipeline is discharged, the discharge of the following pipeline is avoided, only one pipeline is ensured to be discharged each time, the pull rod is loosened after the discharge is finished, the spring drives the pull plate and the baffle plate to reset, so that the subsequent pipeline can automatically enter the position to be discharged, the use is convenient, the discharge quantity can be ensured, the operation in the discharge process is simple, and the manual participation is reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of a pipe burying device for water conservancy and hydropower engineering.

Fig. 2 is a schematic structural diagram of a discharge mechanism of a pipe burying device for water conservancy and hydropower engineering.

Fig. 3 is a schematic view of the internal structure of a storage box of the pipe burying device for water conservancy and hydropower engineering.

In the figure: 1. a base; 101. a moving wheel; 2. a storage mechanism; 201. a storage tank; 202. a discharge guide plate; 203. a movable door; 204. erecting a rod; 205. a traction frame; 206. a sloping plate; 3. a discharge mechanism; 301. a fixed mount; 302. pulling a plate; 303. a pull rod; 304. a spring; 305. a baffle plate; 306. a connecting rod.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further explained by combining the specific embodiments.

As shown in fig. 1-3, a pipe laying device that hydraulic and hydroelectric engineering used, including base 1, still including storing mechanism 2, base 1 top is installed and is stored mechanism 2, it includes storage box 201, discharge baffle 202, dodge gate 203, pull rod 303, traction frame 205 and swash plate 206 to store mechanism 2, storage box 201 is installed at base 1 top, discharge baffle 202 is installed to storage box 201 surface bottom one side slant, the inside and the storage box 201 inside of discharge baffle 202 are linked together, base 1 surface one side fixedly connected with pole setting 204, traction frame 205 is installed at pole setting 204 top, swash plate 206 is installed to the inside bottom slant of storage box 201.

The discharging device comprises a discharging mechanism 3, wherein the discharging mechanism 3 is installed at the tail end of a discharging guide plate 202, the discharging mechanism 3 comprises a fixed frame 301, a pull plate 302, a pull rod 303, a spring 304, a baffle 305 and a connecting rod 306, the fixed frame 301 is installed at the top of the tail end of the discharging guide plate 202, the pull plate 302 is inserted into the top of the tail end of the discharging guide plate 202, the pull rod 303 penetrating through the fixed frame 301 is installed at the top of the pull plate 302, the spring 304 is installed on the periphery of the pull rod 303, the baffle 305 is inserted into one side of the bottom of the tail end of the discharging guide plate 202, the connecting rods 306 are installed at two ends of the baffle 305, and one end, far away from the baffle 305, of each connecting rod 306 is connected to the surface of the pull plate 302; the pipeline to be placed slides into the discharge guide 202 from the inside of the storage box 201 to be orderly discharged, under a normal state, the main body of the pull plate 302 is positioned at one end inside the discharge guide 202 to block the pipeline so that the pipeline cannot be discharged, the main body of the baffle 305 is positioned at the bottom of the discharge guide 202 without influencing the ordered arrangement between the pipelines, when the base 1 moves to a proper position to discharge the pipeline, the pull rod 303 is pulled upwards to drive the pull plate 302 to move upwards, the baffle 305 synchronously moves upwards and enters the discharge guide 202 through the linkage of the connecting rod 306, the tail end pipeline inside the discharge guide 202 is directly discharged to the proper position after the pull plate 302 moves upwards, the baffle 305 synchronously moves upwards to block the middle of the adjacent pipeline when the pipeline is discharged to avoid the discharge of the following pipeline, so that only one pipeline is discharged each time, the pull rod 303 is released after the discharge is finished, and the spring 304 drives the pull plate 302 and the baffle 305 to reset so that the subsequent pipeline can automatically enter the position to be discharged, the use is convenient, the discharge quantity can be ensured, the operation in the discharge process is simple, and the manual participation is reduced.

Wherein, the bottom of the base 1 is provided with a plurality of moving wheels 101; the base 1 is convenient to move through the moving wheels 101 at the bottom of the base 1.

Wherein, a movable door 203 is arranged on one side of the surface of the storage box 201, and the movable door 203 is positioned on one side of the surface of the storage box 201 close to the discharge guide 202; the movable door 203, which is provided near the side of the discharge guide 202, may be opened to sequence the inner pipes when the pipes inside the storage tank 201 are clogged.

Wherein the top of the spring 304 is connected to the surface of the pull rod 303, and the bottom of the spring 304 is connected to the top of the outer side wall of the discharge guide 202; the spring 304 acts as a link allowing the pull rod 303 to automatically return after release.

It should be noted that, the utility model is a pipe burying device for water conservancy and hydropower engineering, when in use, the top of the base 1 is provided with the storage box 201, the pipeline to be used is orderly loaded in the storage box 201, after the pipeline installation groove is opened, the base 1 is moved to a proper position, so that the discharge end at the bottom of the discharge guide plate 202 is positioned at the top of the installation groove, at the moment, the base 1 is controlled to move along the burying groove by manually pulling the upright stanchion 204 or connecting the traction machine through the traction frame 205, and the like, the inclined plate 206 in the storage box 201 enables the pipeline to slide to one side of the discharge guide plate 202 and be orderly stored in the discharge guide plate 202, and the pipeline is directly discharged into the groove along the tail end of the discharge guide plate 202 during discharge, compared with the traditional construction mode of manual carrying and placement, the pipe burying device saves time and labor, greatly improves the convenience of construction, and can rapidly complete the laying of the pipeline, the pipeline to be placed slides into the discharge guide 202 from the inside of the storage box 201 to be orderly discharged, under a normal state, the main body of the pull plate 302 is positioned at one end inside the discharge guide 202 to block the pipeline so that the pipeline cannot be discharged, the main body of the baffle 305 is positioned at the bottom of the discharge guide 202 without influencing the ordered arrangement between the pipelines, when the base 1 moves to a proper position to discharge the pipeline, the pull rod 303 is pulled upwards to drive the pull plate 302 to move upwards, the baffle 305 synchronously moves upwards and enters the discharge guide 202 through the linkage of the connecting rod 306, the tail end pipeline inside the discharge guide 202 is directly discharged to the proper position after the pull plate 302 moves upwards, the baffle 305 synchronously moves upwards to block the middle of the adjacent pipeline when the pipeline is discharged to avoid the discharge of the following pipeline, so that only one pipeline is discharged each time, the pull rod 303 is released after the discharge is finished, and the spring 304 drives the pull plate 302 and the baffle 305 to reset so that the subsequent pipeline can automatically enter the position to be discharged, the use is convenient, the discharge quantity can be ensured, the operation in the discharge process is simple, and the manual participation is reduced.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a buried pipe device that hydraulic and hydroelectric engineering used, includes base (1), its characterized in that, still includes stores mechanism (2), base (1) top is installed and is stored mechanism (2), store mechanism (2) including bin (201), discharge baffle (202), dodge gate (203), pull rod (303), traction frame (205) and swash plate (206), bin (201) are installed at base (1) top, discharge baffle (202) are installed to bin (201) surface bottom one side slant, discharge baffle (202) are inside to be linked together with bin (201), base (1) surface one side fixedly connected with pole setting (204), traction frame (205) are installed at pole setting (204) top, swash plate (206) are installed to the inside bottom slant of bin (201).

2. A pipe burying device for water conservancy and hydropower engineering according to claim 1, wherein: still include discharge mechanism (3), discharge mechanism (3) are installed to discharge baffle (202) end, discharge mechanism (3) include mount (301), arm-tie (302), pull rod (303), spring (304), baffle (305) and connecting rod (306), mount (301) are installed at discharge baffle (202) terminal top, it has arm-tie (302) to peg graft at discharge baffle (202) terminal top, pull rod (303) that run through mount (301) are installed at arm-tie (302) top, spring (304) are installed to pull rod (303) periphery, it has baffle (305) to peg graft in discharge baffle (202) terminal bottom one side, connecting rod (306) are all installed at baffle (305) both ends, baffle (305) one end is kept away from in connecting rod (306) and is connected to arm-tie (302) surface.

3. A pipe burying device for water conservancy and hydropower engineering according to claim 1, characterized in that: the bottom of the base (1) is provided with a plurality of moving wheels (101) and the moving wheels (101).

4. A pipe burying device for water conservancy and hydropower engineering according to claim 1, wherein: the movable door (203) is installed on one side of the surface of the storage box (201), and the movable door (203) is located on one side, close to the discharge guide plate (202), of the surface of the storage box (201).

5. A pipe burying device for water conservancy and hydropower engineering according to claim 2, wherein: the top of the spring (304) is connected to the surface of the pull rod (303), and the bottom of the spring (304) is connected to the top of the outer side wall of the discharge guide plate (202).

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