CN215445307U - Automatic device of burying underground of pipeline for hydraulic engineering - Google Patents

Abstract

The utility model relates to the field of hydraulic engineering, in particular to an automatic pipeline embedding device for hydraulic engineering, which comprises: the box body is provided with a storage cavity for storing the pipeline; the power input end of the opening and closing mechanism extends to the discharge end of the storage cavity and is used for controlling the opening and closing of the discharge end of the storage cavity; bulldozing mechanism, it just sets up in the direction of closing mechanism pipeline whereabouts with box fixed connection for bury underground the pipeline that falls into the soil, bulldozing mechanism both sides still install the runner that is used for driving the device body and removes. The automatic pipeline embedding device for the hydraulic engineering, provided by the utility model, can be used for transporting pipelines and automatically embedding the pipelines, so that the pipeline embedding efficiency is greatly improved, the operation is simple, and the practicability is strong.

Description

Automatic device of burying underground of pipeline for hydraulic engineering

Technical Field

The utility model relates to the field of hydraulic engineering, in particular to an automatic pipeline burying device for hydraulic engineering.

Background

In hydraulic engineering, laying a water conservancy pipeline is one of necessary works, and laying of the water conservancy pipeline greatly improves the transportation efficiency of a water source and is convenient for supplying water to users.

The existing pipeline is often required to be manually dug to bury the pit of the pipeline when being buried, then the pipeline is put in, after the pipeline is connected, soil is filled in, the burying efficiency is low, the long-range laying is not facilitated, and therefore the automatic pipeline burying device for the hydraulic engineering is required to solve the problems.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims to provide an automatic pipeline burying device for hydraulic engineering, aiming at solving the following problems: the efficiency is low when the pipeline is buried, and long-distance laying is not facilitated.

The embodiment of the utility model is realized in such a way that the automatic pipeline burying device for the hydraulic engineering comprises the following components: the box body is provided with a storage cavity for storing the pipeline; the power input end of the opening and closing mechanism extends to the discharge end of the storage cavity and is used for controlling the opening and closing of the discharge end of the storage cavity; bulldozing mechanism, it just sets up in the direction of closing mechanism pipeline whereabouts with box fixed connection for bury underground the pipeline that falls into the soil, bulldozing mechanism both sides still install the runner that is used for driving the device body and removes.

Preferably, the opening and closing mechanism includes: the two ends of the mounting groove are fixedly connected with the inner wall of the box body, and a through hole for allowing a pipeline to pass through and fall is formed in the mounting groove; the two ends of each cross rod are fixedly connected with the inner wall of the mounting groove and are distributed on the two sides of the mounting groove, the cross rods are sleeved with sliding blocks capable of sliding on the cross rods, and the sliding blocks are distributed on the two sides of any cross rod and are symmetrically arranged relative to the middle of the cross rod; the middle part of the rotating rod is rotatably arranged in the middle part of the transverse rod, two ends of the rotating rod are hinged with linkage rods, and one end of each linkage rod, which is far away from the rotating rod, is hinged with the sliding blocks at the same time and is used for pulling the sliding blocks at two sides to synchronously move in opposite directions; the two ends of the push rod are fixedly connected with the adjacent ends of the slide blocks, the push rod is fixedly provided with a baffle plate extending to the discharge end of the storage cavity, and the baffle plates at the two sides can approach each other to stop the pipeline from falling; the driving assembly is arranged in the mounting groove, is fixedly connected with the push rod on one side and is used for pushing the push rod to move so as to open the storage cavity; the reset piece is fixed between the sliding blocks and the inner wall of the mounting groove and used for pushing the sliding blocks on the two sides to move inwards to reset.

Preferably, the drive assembly comprises: the driving cam is rotatably arranged in the mounting groove and is contacted with a roller capable of moving under the rotation of the driving cam; the connecting piece, it and one side push rod fixed connection, the gyro wheel is installed on the connecting piece, and the gyro wheel accessible connecting piece promotes the push rod and removes.

Preferably, the dozing mechanism includes: the mounting groove is fixedly connected with the box body, and the rotating wheel is mounted on the mounting groove; the two ends of the sliding rod are fixedly connected with the inner wall of the mounting groove, a sliding sleeve capable of sliding on the sliding rod is sleeved on the sliding rod, and the sliding sleeve is distributed on the two sides of the sliding rod and is symmetrically arranged with the middle of the sliding rod; the two ends of the first elastic piece are respectively and fixedly connected with the sliding sleeve and the inner wall of the mounting groove and used for pulling the sliding sleeve to reset; the incomplete gear drum is arranged in the mounting groove, one side of the incomplete gear drum is meshed with the complete gear drum, and the incomplete gear drum can drive the complete gear drum to rotate; the belt is arranged on the periphery of the complete gear drum, rod pieces are fixed at two ends of the belt, and the rod pieces at two sides are respectively fixedly connected with the sliding sleeves at two sides and used for pulling the sliding sleeves at two sides to synchronously move in opposite directions; the buffer assembly is fixedly arranged on the sliding sleeve, and a bulldozing plate is fixedly arranged at one end, far away from the sliding sleeve, of the buffer assembly.

Preferably, the buffer assembly comprises: the sleeve is fixedly connected with the sliding sleeve, a sleeve rod capable of sliding in the sleeve is arranged on the sleeve, and the sleeve rod is fixedly connected with the bulldozer plate; and two ends of the second elastic piece are fixedly connected with the bulldozing plate and the sleeve respectively and used for pushing the bulldozing plate to be close to the ground.

The automatic pipeline embedding device for the hydraulic engineering, provided by the utility model, can be used for transporting pipelines and automatically embedding the pipelines, so that the pipeline embedding efficiency is greatly improved, the operation is simple, and the practicability is strong.

Drawings

Fig. 1 is a schematic structural view of an automatic pipeline burying device for hydraulic engineering.

Fig. 2 is a schematic view of an opening and closing mechanism of an automatic pipeline burying device for hydraulic engineering.

Fig. 3 is a schematic view of a bulldozing mechanism of the automatic pipeline burying device for the hydraulic engineering.

In the drawings: 1-box body, 2-storage chamber, 3-opening and closing mechanism, 4-bulldozing mechanism, 5-rotating wheel, 31-installation groove, 32-through opening, 33-cross bar, 34-sliding block, 35-rotating rod, 36-linkage rod, 37-push rod, 38-baffle, 39-driving component, 310-resetting component, 391-driving cam, 392-roller, 393-connecting component, 41-installation groove, 42-sliding rod, 43-sliding sleeve, 44-first elastic component, 45-incomplete gear cylinder, 46-complete gear cylinder, 47-belt, 48-rod component, 49-buffer component, 410-bulldozing plate, 491-sleeve, 492-sleeve rod, 493-second elastic component.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and do not limit the utility model.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

Referring to fig. 1, an embodiment of the present invention provides an automatic pipeline burying device for hydraulic engineering, including:

a box body 1 provided with a storage cavity 2 for storing a pipeline; the two sides of the power input end of the opening and closing mechanism 3 are fixedly connected with the inner wall of the box body 1, and the power input end of the opening and closing mechanism 3 extends to the discharge end of the storage cavity 2 and is used for controlling the opening and closing of the discharge end of the storage cavity 2; and the bulldozing mechanism 4 is fixedly connected with the box body 1, is arranged in the falling direction of the pipeline of the opening and closing mechanism 3 and is used for burying the pipeline falling into the soil, and rotating wheels 5 used for driving the device body to move are further arranged on two sides of the bulldozing mechanism 4.

This embodiment is when specifically using, at first to depositing the pipeline that waits to bury underground in chamber 2, afterwards, remove the device body to the position of waiting to bury underground through runner 5, during operation, open closing mechanism 3 once, closing mechanism 3 makes and deposits chamber 2 and open once, at this moment, a pipeline will pass closing mechanism 3 and bulldoze mechanism 4 along depositing chamber 2, finally fall into ground, when burying underground, open bulldoze mechanism 4, bulldoze mechanism 4 can push the hole of burying underground the pipeline with the soil in the future, thereby accomplish the process of burying underground of pipeline.

As shown in fig. 2, as a preferred embodiment of the present invention, the opening and closing mechanism 3 includes: the two ends of the mounting groove 31 are fixedly connected with the inner wall of the box body 1, and a through hole 32 for a pipeline to pass through and fall is formed in the mounting groove 31; the two ends of the cross rod 33 are fixedly connected with the inner wall of the mounting groove 31 and are distributed on the two sides of the mounting groove 31, the cross rod 33 is sleeved with a sliding block 34 capable of sliding on the cross rod 33, and the sliding blocks 34 are distributed on the two sides of any cross rod 33 and are symmetrically arranged relative to the middle of the cross rod 33; the middle part of the rotating rod 35 is rotatably arranged in the middle part of the cross rod 33, two ends of the rotating rod 35 are hinged with linkage rods 36, and one end, far away from the rotating rod 35, of each linkage rod 36 is hinged with the sliding blocks 34 at the same time and used for pulling the sliding blocks 34 on two sides to synchronously move in opposite directions; the two ends of the push rod 37 are fixedly connected with the adjacent ends of the slide blocks 34, the push rod 37 is fixedly provided with a baffle 38 extending to the discharge end of the storage cavity 2, and the baffles 38 at the two sides can approach each other to stop the pipeline from falling; a driving assembly 39 installed in the installation groove 31 and fixedly connected with the push rod 37 at one side, for pushing the push rod 37 to move to open the storage cavity 2; and a reset piece 310 fixed between the sliding block 34 and the inner wall of the mounting groove 31 for pushing the sliding blocks 34 on both sides to move inwards for resetting.

When the embodiment is used specifically, the primary driving assembly 39 is turned on, the driving assembly 39 drives the left push rod 37 to move leftwards, the left push rod 37 moves leftwards to drive the slider 34 connected with the left push rod to move leftwards along the cross rod 33 and compress the reset piece 310, when the slider 34 moves rightwards, the left linkage rod 36 pulls the rotating rod 35 to rotate anticlockwise around the center of the rotating rod by a certain angle, the rotating rod 35 rotates by a certain angle to drive the right linkage rod 36 to push the right slider 34 rightwards, the right slider 34 moves rightwards along the cross rod 33 to compress the right reset piece 310, the right slider 34 moves rightwards to drive the right push rod 37 to move rightwards, so that the push rods 37 on the two sides move away from each other, the push rods 37 on the two sides move away from each other to drive the baffles 38 on the two sides to move away from each other, that the storage cavity 2 is opened, and the pipeline can fall down from the storage cavity 2, when the driving assembly 39 loses power, the shutters 38 on both sides can move toward each other under the urging of the restoring member 310, so that the storage chamber 2 can be closed.

As shown in fig. 2, as a preferred embodiment of the present invention, the driving assembly 39 includes: a driving cam 391 rotatably installed in the installation groove 31, the driving cam 391 contacting a roller 392 movable by the rotation of the driving cam 391; a connecting member 393 fixedly connected to the one side push rod 37, the roller 392 being mounted on the connecting member 393, the roller 392 being movable by the push rod 37 via the connecting member 393.

In specific use of the embodiment, the driving cam 391 is turned on, the driving cam 391 is powered by a motor, and the driving cam 391 rotates to enable the roller 392 to push the connecting member 393 to the left side, so that the connecting member 393 pulls the push rod 37 to the left, and the push rod 37 moves to the left.

As shown in fig. 1 and 3, the dozer mechanism 4 according to a preferred embodiment of the present invention includes: the mounting groove 41 is fixedly connected with the box body 1, and the rotating wheel 5 is mounted on the mounting groove 41; the two ends of the sliding rod 42 are fixedly connected with the inner wall of the mounting groove 41, a sliding sleeve 43 capable of sliding on the sliding rod 42 is sleeved on the sliding rod 42, and the sliding sleeve 43 is distributed on the two sides of the sliding rod 42 and is symmetrically arranged with the middle of the sliding rod 42; the two ends of the first elastic piece 44 are respectively and fixedly connected with the sliding sleeve 43 and the inner wall of the mounting groove 41 and used for pulling the sliding sleeve 43 to reset; the incomplete gear drum 45 is arranged in the mounting groove 41, one side of the incomplete gear drum 45 is meshed with the complete gear drum 46, and the incomplete gear drum 45 can drive the complete gear drum 46 to rotate; the belt 47 is arranged at the periphery of the complete gear drum 46, rod pieces 48 are fixed at two ends of the belt 47, and the rod pieces 48 at two sides are respectively fixedly connected with the sliding sleeves 43 at two sides and used for pulling the sliding sleeves 43 at two sides to synchronously move in opposite directions; and the buffer assembly 49 is fixedly arranged on the sliding sleeve 43, and one end of the buffer assembly 49, which is far away from the sliding sleeve 43, is fixedly provided with a bulldozer blade 410.

In this embodiment, the first elastic member 44 is a spring, the elastic force of the left first elastic member 44 is a leftward pulling force, the elastic force of the right first elastic member 44 is a leftward pushing force, and the leftward pulling force is greater than the leftward pushing force.

When a pipeline is buried and pushed, the incomplete gear cylinder 45 is opened, the power source of the incomplete gear cylinder 45 is a motor, the incomplete gear cylinder 45 rotates to drive the complete gear cylinder 46 to rotate clockwise, the complete gear cylinder 46 rotates clockwise to enable the belt 47 to pull the left rod 48 rightwards, so as to drive the left sliding sleeve 43 to move rightwards and elongate the left first elastic piece 44, meanwhile, under the action of the leftward thrust of the right first elastic piece 44, the right sliding sleeve 43 moves leftwards along the sliding rod 42, so as to enable the sliding sleeves 43 at the two sides to move close to each other, so as to drive the bulldozer boards 410 at the two sides to move close to each other and doze, when the incomplete gear cylinder 45 and the complete gear cylinder 46 are not meshed any more, the left first elastic piece 44 pulls the left sliding sleeve 43 to move leftwards along the sliding rod, so as to pull the right sliding sleeve 43 to move rightwards and compress the right first elastic piece 44 through the belt 47, so that the sliding sleeves 43 at both sides are reset by moving away from each other.

As shown in fig. 1, as a preferred embodiment of the present invention, the buffer assembly 49 includes: a sleeve 491 fixedly connected with the sliding sleeve 43, wherein a sleeve rod 492 capable of sliding in the sleeve 491 is arranged on the sleeve 491, and the sleeve rod 492 is fixedly connected with the bulldozer blade 410; a second elastic member 493 is fixedly connected to the blade 410 and the sleeve 491 at both ends thereof, for urging the blade 410 to be close to the ground.

Under the push of the second elastic piece 493, the blade 410 can move downward, and the downward movement of the blade 410 drives the sleeve rod 492 to move downward along the sleeve 491, so that the stability of the blade 410 is ensured, and the blade 410 is prevented from being damaged due to over-stress.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. The utility model provides an automatic device of burying underground of pipeline for hydraulic engineering, contains the device body, its characterized in that includes:

the box body is provided with a storage cavity for storing the pipeline;

the power input end of the opening and closing mechanism extends to the discharge end of the storage cavity and is used for controlling the opening and closing of the discharge end of the storage cavity;

bulldozing mechanism, it just sets up in the direction of closing mechanism pipeline whereabouts with box fixed connection for bury underground the pipeline that falls into the soil, bulldozing mechanism both sides still install the runner that is used for driving the device body and removes.

2. The automatic burying device of pipeline for hydraulic engineering according to claim 1, wherein said opening and closing mechanism includes:

the two ends of the mounting groove are fixedly connected with the inner wall of the box body, and a through hole for allowing a pipeline to pass through and fall is formed in the mounting groove;

the two ends of each cross rod are fixedly connected with the inner wall of the mounting groove and are distributed on the two sides of the mounting groove, the cross rods are sleeved with sliding blocks capable of sliding on the cross rods, and the sliding blocks are distributed on the two sides of any cross rod and are symmetrically arranged relative to the middle of the cross rod;

the middle part of the rotating rod is rotatably arranged in the middle part of the transverse rod, two ends of the rotating rod are hinged with linkage rods, and one end of each linkage rod, which is far away from the rotating rod, is hinged with the sliding blocks at the same time and is used for pulling the sliding blocks at two sides to synchronously move in opposite directions;

the two ends of the push rod are fixedly connected with the adjacent ends of the slide blocks, the push rod is fixedly provided with a baffle plate extending to the discharge end of the storage cavity, and the baffle plates at the two sides can approach each other to stop the pipeline from falling;

the driving assembly is arranged in the mounting groove, is fixedly connected with the push rod on one side and is used for pushing the push rod to move so as to open the storage cavity;

the reset piece is fixed between the sliding blocks and the inner wall of the mounting groove and used for pushing the sliding blocks on the two sides to move inwards to reset.

3. The automatic burying device of water conservancy project pipeline of claim 2, wherein said drive assembly comprises:

the driving cam is rotatably arranged in the mounting groove and is contacted with a roller capable of moving under the rotation of the driving cam;

the connecting piece, it and one side push rod fixed connection, the gyro wheel is installed on the connecting piece, and the gyro wheel accessible connecting piece promotes the push rod and removes.

4. The automatic burying device of pipeline for hydraulic engineering of claim 1, wherein said bulldozing mechanism includes:

the mounting groove is fixedly connected with the box body, and the rotating wheel is mounted on the mounting groove;

the two ends of the sliding rod are fixedly connected with the inner wall of the mounting groove, a sliding sleeve capable of sliding on the sliding rod is sleeved on the sliding rod, and the sliding sleeve is distributed on the two sides of the sliding rod and is symmetrically arranged with the middle of the sliding rod;

the two ends of the first elastic piece are respectively and fixedly connected with the sliding sleeve and the inner wall of the mounting groove and used for pulling the sliding sleeve to reset;

the incomplete gear drum is arranged in the mounting groove, one side of the incomplete gear drum is meshed with the complete gear drum, and the incomplete gear drum can drive the complete gear drum to rotate;

the belt is arranged on the periphery of the complete gear drum, rod pieces are fixed at two ends of the belt, and the rod pieces at two sides are respectively fixedly connected with the sliding sleeves at two sides and used for pulling the sliding sleeves at two sides to synchronously move in opposite directions;

the buffer assembly is fixedly arranged on the sliding sleeve, and a bulldozing plate is fixedly arranged at one end, far away from the sliding sleeve, of the buffer assembly.

5. The automatic burying device of water conservancy project pipeline of claim 4, wherein said buffer assembly includes:

the sleeve is fixedly connected with the sliding sleeve, a sleeve rod capable of sliding in the sleeve is arranged on the sleeve, and the sleeve rod is fixedly connected with the bulldozer plate;

and two ends of the second elastic piece are fixedly connected with the bulldozing plate and the sleeve respectively and used for pushing the bulldozing plate to be close to the ground.

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