CN116495394B - Municipal water supply and drainage pipe feeding method - Google Patents

Abstract

The invention discloses a pipe feeding method for municipal water supply and drainage, which comprises a base, wherein one side of the base is fixedly connected with a track plate, the inner wall of the track plate is in limit sliding connection with a sliding block for carrying out reciprocating motion on a pipe, two symmetrical positions on the sliding block are fixedly connected with supporting plates, opposite surfaces of the two supporting plates are rotationally connected with locking blocks for clamping and fixing a pipe in the sliding block through pin shafts, one end of each locking block, which is far away from the sliding block, is provided with a first rectangular groove, the inner wall of each first rectangular groove is rotationally connected with an adjusting rod through pin shafts, the base is provided with a moving mechanism for driving the sliding block to carry out reciprocating motion on the pipe, the corner position of one end of each moving mechanism, which is far away from the base, is fixedly connected with a first supporting rod, one end of each adjusting rod, which is far away from the locking blocks, is rotationally connected with one end of each rotating rod, which is far away from the first supporting rod, through pin shafts.

Description

Municipal water supply and drainage pipe feeding method

Technical Field

The invention relates to the technical field of a pipe conveying method for municipal water supply and drainage, in particular to a pipe conveying method for municipal water supply and drainage.

Background

Municipal water supply and drainage is engineering for supplying living and production water for residents, factories, mines and transportation enterprises, fire-fighting water, road greening water and the like, a water pipe is usually required to be installed in the construction process of municipal water supply and drainage engineering, and the water pipe is required to be conveyed when the water pipe is installed, so that a pipe conveying device for municipal water supply and drainage is required to be used so as to meet the use requirements.

When the pipeline is lowered into the groove, the pipeline is gradually lowered to be in contact with the bottom of the groove in a hoisting mode by utilizing the cooperation of the supporting beam and the rope, and the steel pipe is required to be manually conveyed and wound and fixed by the rope, so that the operation is time-consuming and labor-consuming, and the working efficiency is slow.

Therefore, a pipe feeding method for municipal water supply and drainage is provided.

Disclosure of Invention

The invention aims to provide a pipe conveying method for municipal water supply and drainage, which has the advantage of transporting pipelines and solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the municipal water supply and drainage pipe feeding method comprises the following steps:

s1, clamping a pipeline: placing the pipeline into the inner wall of the sliding block, and fixing the pipeline through the locking block;

s2, pipeline transportation: the rotating rod is used for carrying out fixed-axis rotation, so that the adjusting rod pulls the sliding block to carry out horizontal reciprocating movement, and the pipeline on the sliding block is transported;

s3, clamping is released: the rectangular plate is pushed to move towards the direction close to the adjusting block through the cam, so that the roller drives the locking block to rotate to release the clamping of the pipeline.

Preferably, the device comprises a base, one side fixedly connected with track board of base, the spacing sliding connection of inner wall of track board has the slider that moves the fortune to the pipeline, the equal fixedly connected with backup pad in bilateral symmetry position on the slider, two the opposite face of backup pad rotates through the round pin axle and is connected with the locking piece that carries out the centre gripping fixed to the pipeline in the slider, first rectangular channel has been seted up to the one end that the slider was kept away from to the locking piece, the inner wall in first rectangular channel rotates through the round pin axle and is connected with the regulation pole, be equipped with on the base and drive the slider and move the fortune mechanism that moves the fortune to the pipeline.

Preferably, the corner position fixedly connected with first bracing piece of one end on the base is included to the transport mechanism, the one end that keeps away from the base on the first bracing piece is connected with the dwang that pulls the slider through the round pin axle rotation and carries out reciprocating motion, and the one end that the locking piece was kept away from to the regulation pole and the one end that the dwang kept away from first bracing piece are connected through the round pin axle rotation, one side that is close to the regulation pole on the first bracing piece has linked firmly the second belt pulley with the dwang is coaxial.

Preferably, the transporting mechanism further comprises a second supporting rod fixedly connected to one side, close to the first supporting rod, of the base, a first belt pulley is driven to rotate by a power mechanism through a pin shaft to rotate and a transmission belt enabling the first belt pulley to drive the second belt pulley to rotate in a fixed shaft mode is movably connected in a sliding groove with the outer outline of the second belt pulley and the transmission belt, and the power mechanism is a motor after being powered on.

Preferably, the supporting plate close to one side of the second supporting rod is fixedly connected with the locking block in a coaxial manner, one end of the adjusting block is provided with a second rectangular groove, and the inner wall of the second rectangular groove is rotationally connected with the roller through a pin shaft.

Preferably, the auxiliary mechanism for releasing the clamping of the locking block to the pipeline is arranged on the track plate, the auxiliary mechanism comprises fixing rings which are fixedly connected to symmetrical positions at two ends of the track plate, which are close to one side of the second supporting rod, lifting rods for lifting and reciprocating movement are movably arranged on the inner walls of the fixing rings, and rectangular plates for pushing the adjusting blocks to rotate and adjust are fixedly connected to the tops of the lifting rods.

Preferably, the auxiliary mechanism further comprises a reset spring which pulls the rectangular plate to move downwards and is fixedly connected to the opposite surface of the bottom of the fixing ring and the lifting rod, and a cam which pushes the rectangular plate to move upwards is coaxially and fixedly connected to one side, far away from the second supporting rod, of the first belt pulley.

Preferably, hole grooves are formed in symmetrical positions of two sides of the inner walls of two ends of the sliding block, and rubber rollers are connected to the inner walls of the hole grooves in a rotating mode through pin shafts.

Preferably, universal wheels for enabling the base to move are fixedly connected to the four corner frames at the bottom of the base.

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

through setting up the fortune mechanism that moves, when adjusting pole pulling slider and being close to the one end of first bracing piece and remove, then the locking piece swings towards being close to the direction of slider under the pulling of adjusting pole to make the locking piece carry out the centre gripping to the pipeline on the slider, then fix the pipeline at the inner wall of slider, thereby improve stability, the slider moves the pipeline towards being close to the one end of first bracing piece simultaneously.

Through setting up assist mechanism, when adjusting the pole and promoting the slider and move towards the one end of keeping away from first bracing piece, the outline of cam contacts with the rectangular plate simultaneously, make the cam promote the rectangular plate and move towards the one end that is close to the regulating block, then reset spring extrudees the shrink under lifter and rectangular plate's effect, thereby make the rectangular plate promote the regulating block and swing towards the B direction, and the locking piece swings towards the direction of keeping away from the slider under the effect of regulating block, and then make the locking piece release the centre gripping to the pipeline, and slider and pipeline sliding connection, then the slider removes to the one end of keeping away from first bracing piece.

The sliding block moves horizontally in a reciprocating manner, so that one or more pipelines can be sequentially moved towards the direction close to the first supporting rod, and further the working efficiency is improved.

The pipeline is gradually lowered to be in contact with the bottom of the groove through the cooperation of the supporting cross beam and the rope in the hoisting mode when the pipeline is lowered into the groove through the cooperation of the mechanism, and the problems that the steel pipe is manually conveyed and is wound and fixed through the rope, time and labor are wasted and the working efficiency is slow are solved.

Drawings

FIG. 1 is a schematic flow chart of a municipal water supply and drainage pipe feeding method of the invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view of a track slab in a three-dimensional configuration according to the present invention;

FIG. 4 is a schematic perspective view of the adjusting lever and the rotating lever according to the present invention;

FIG. 5 is a schematic perspective view of a first pulley and a second pulley according to the present invention;

FIG. 6 is a schematic perspective view of a cam and rectangular plate of the present invention;

FIG. 7 is a schematic perspective view of a retaining ring according to the present invention;

FIG. 8 is a schematic view of the structure of FIG. 2A according to the present invention;

FIG. 9 is a schematic diagram of a slider perspective structure according to the present invention;

fig. 10 is a schematic perspective view of an adjusting block according to the present invention.

In the figure: 1. a base; 2. a track plate; 3. a slide block; 31. a hole groove; 4. a support plate; 5. a locking block; 51. a first rectangular groove; 6. an adjusting rod; 7. a first support bar; 8. a rotating lever; 9. a second support bar; 10. a first pulley; 11. a second pulley; 12. a drive belt; 13. an adjusting block; 131. a second rectangular groove; 14. a roller; 15. a fixing ring; 16. a lifting rod; 17. a rectangular plate; 18. a return spring; 19. a cam; 20. a rubber roller; 21. and a universal wheel.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1 to 10, the present invention provides a technical solution: a pipe feeding method for municipal water supply and drainage,

the method comprises the following steps:

s1, clamping a pipeline: the pipeline is placed into the inner wall of the sliding block 3 and is fixed through the locking block 5;

s2, pipeline transportation: the rotating rod 8 is used for carrying out fixed-axis rotation, so that the adjusting rod 6 pulls the sliding block 3 to carry out horizontal reciprocating movement, and the pipeline on the sliding block 3 is transported;

s3, clamping is released: the cam 19 pushes the rectangular plate 17 to move towards the direction approaching the adjusting block 13, so that the roller 14 drives the locking block 5 to rotate to release the clamping of the pipeline.

Including base 1, one side fixedly connected with track board 2 of base 1, the spacing sliding connection of inner wall of track board 2 has the slider 3 that moves the fortune to the pipeline, the equal fixedly connected with backup pad 4 in bilateral symmetry position on the slider 3, two the opposite face of backup pad 4 is connected with through the round pin axle rotation and carries out the fixed locking piece 5 of centre gripping to the pipeline in the slider 3, first rectangular channel 51 has been seted up to the one end that the slider 3 was kept away from to the locking piece 5, the inner wall of first rectangular channel 51 is connected with regulation pole 6 through the round pin axle rotation, be equipped with on the base 1 and drive the slider 3 and move the fortune mechanism that moves the pipeline.

When the device is used, through the sliding block 3 arranged on the track plate 2, the sliding block 3 horizontally moves on the inner wall of the track plate 2, the locking block 5 arranged on the supporting plate 4 is used for carrying out fixed-axis rotation on the supporting plate 4, the first rectangular groove 51 formed in the locking block 5 is used for carrying out fixed-axis rotation on the inner wall of the first rectangular groove 51 by the adjusting rod 6, and the moving mechanism arranged on the base 1 is used for further enabling the moving mechanism to pull the sliding block 3 to horizontally reciprocate, so that the pipeline on the sliding block 3 can be moved.

Example two

On the basis of the first embodiment, further:

the moving mechanism comprises a first supporting rod 7 fixedly connected to the corner position of one end of the base 1, a rotating rod 8 for pulling the sliding block 3 to reciprocate is rotatably connected to one end of the first supporting rod 7 far away from the base 1 through a pin shaft, one end of the adjusting rod 6 far away from the locking block 5 is rotatably connected with one end of the rotating rod 8 far away from the first supporting rod 7 through a pin shaft, and a second belt pulley 11 is coaxially and fixedly connected to one side of the first supporting rod 7 close to the adjusting rod 6 and the rotating rod 8;

the moving mechanism further comprises a second supporting rod 9 fixedly connected to one side, close to the first supporting rod 7, of the base 1, a first belt pulley 10 driven to rotate by a power mechanism is rotatably connected to the second supporting rod 9 through a pin shaft, a driving belt 12 enabling the first belt pulley 10 to drive the second belt pulley 11 to rotate synchronously in a fixed shaft is movably connected in a sliding groove of the outer contour of the second belt pulley 11 and the driving belt 12, and the power mechanism is a motor after being powered on.

When the device is used, the first belt pulley 10 is driven by the motor of the power mechanism to rotate on the second supporting rod 9 in a fixed shaft manner, the second belt pulley 11 arranged on the first supporting rod 7 is connected with the adjusting rod 6 through the pin shaft in a rotating manner, and the second belt pulley 11 and the transmission belt 12 arranged on the first belt pulley 10 rotate along with the first belt pulley 10 in a fixed shaft manner, so that the second belt pulley 11 rotates synchronously with the first belt pulley 10 under the action of the transmission belt 12, the rotating rod 8 rotates synchronously with the second belt pulley 11 through the rotating rod 8 arranged on the second belt pulley 11, the rotating rod 8 is connected with the adjusting rod 6 through the pin shaft in a rotating manner, and the adjusting rod 6 pushes the sliding block 3 to horizontally reciprocate on the track plate 2 under the action of the rotating rod 8.

When the adjusting rod 6 pulls the sliding block 3 to move towards the end close to the first supporting rod 7, the locking block 5 swings towards the direction close to the sliding block 3 under the pulling of the adjusting rod 6, so that the locking block 5 clamps a pipeline on the sliding block 3, the pipeline is fixed on the inner wall of the sliding block 3, stability is improved, and meanwhile the sliding block 3 moves towards the end close to the first supporting rod 7.

Example III

On the basis of the second embodiment, further:

an adjusting block 13 is coaxially and fixedly connected to the locking block 5 on the supporting plate 4 close to one side of the second supporting rod 9, a second rectangular groove 131 is formed in one end of the adjusting block 13, and a roller 14 is rotatably connected to the inner wall of the second rectangular groove 131 through a pin shaft.

When the locking device is used, the adjusting block 13 is fixedly connected with the locking block 5 coaxially through the adjusting block 13 arranged on the locking block 5, and the roller 14 arranged on the inner wall of the second rectangular groove 131 is fixed on the inner wall of the adjusting block 13 through the second rectangular groove 131 arranged on the adjusting block 13.

Be equipped with the auxiliary mechanism that releases locking piece 5 to the pipeline centre gripping on the track board 2, the equal fixedly connected with solid fixed ring 15 in both ends symmetry position that is close to second bracing piece 9 one side on the auxiliary mechanism includes track board 2, gu the inner wall activity of fixed ring 15 has the lifter 16 that goes up and down reciprocating motion, the top fixedly connected with of lifter 16 promotes regulating block 13 and rotates the rectangular plate 17 of regulation.

The auxiliary mechanism further comprises a reset spring 18 which pulls the rectangular plate 17 to move downwards and is fixedly connected to the opposite surface of the bottom of the fixed ring 15 and the lifting rod 16, and a cam 19 which pushes the rectangular plate 17 to move upwards is coaxially and fixedly connected to one side of the first belt pulley 10 away from the second supporting rod 9.

In use, cam 19 is co-axially secured with first pulley 10 by cam 19 provided on first pulley 10, such that cam 19 rotates in unison with first pulley 10.

When the adjusting rod 6 pushes the sliding block 3 to move towards the end far away from the first supporting rod 7, the outer contour of the cam 19 is contacted with the rectangular plate 17, so that the cam 19 pushes the rectangular plate 17 to move towards the end close to the adjusting block 13, the reset spring 18 is extruded and contracted under the action of the lifting rod 16 and the rectangular plate 17, so that the rectangular plate 17 pushes the adjusting block 13 to swing towards the direction B, the locking block 5 swings towards the direction far away from the sliding block 3 under the action of the adjusting block 13, the locking block 5 is enabled to release clamping of a pipeline, the sliding block 3 is connected with the pipeline in a sliding mode, and the sliding block 3 moves to the end far away from the first supporting rod 7.

When the adjusting rod 6 pulls the sliding block 3 to move towards the end close to the first supporting rod 7, the outer contour of the cam 19 is separated from contact with the rectangular plate 17, so that the rectangular plate 17 moves towards the end far away from the adjusting block 13 under the action of the elastic force of the reset spring 18, and the sliding block 3 is pulled to move towards the end close to the first supporting rod 7 along with the adjusting rod 6, so that the locking block 5 clamps and fixes the inner wall pipeline of the sliding block 3, and moves.

According to the mechanism, the sliding block 3 is horizontally reciprocated, one or more pipelines can be sequentially moved towards the direction close to the first supporting rod 7, so that the working efficiency is improved, meanwhile, the roller 14 is rotationally moved on the surface of the rectangular plate 17, mutual friction between the roller 14 and the rectangular plate 17 is reduced, abrasion to the rectangular plate 17 caused by long-time work is avoided, and the service life is prolonged.

Example IV

On the basis of the third embodiment, further:

the two symmetrical positions of the inner walls of the two ends of the sliding block 3 are respectively provided with a hole groove 31, and the inner walls of the hole grooves 31 are respectively connected with the rubber roller 20 through pin shafts in a rotating mode.

When the device is used, through the hole groove 31 formed in the sliding block 3, the rubber roller 20 rotates at the inner wall of the hole groove 31 in a fixed shaft manner, the clamping is released along with the locking block 5, and meanwhile, when the sliding block 3 moves on a pipeline, the rubber roller 20 and the outer contour of the pipeline move in a rotating manner, so that abrasion of the sliding block 3 on the pipeline in the moving process is avoided.

The universal wheels 21 for enabling the base 1 to move are fixedly connected to the four corner frames at the bottom of the base 1.

In use, the base 1 can be moved to the next place by the universal wheels 21 arranged on the base 1, and then the pipeline can be laid at the next place by repeating the operation, so that the pipeline can be continuously laid.

The pipeline transferring method for municipal water supply and drainage can be used for transferring pipelines, so that manual operation is reduced, working efficiency is improved, and compared with a traditional product, the pipeline transferring method for municipal water supply and drainage is better.

Working principle: when the municipal water supply and drainage pipe feeding method is used, the first belt pulley 10 is driven by the motor of the power mechanism to rotate on the second supporting rod 9 in a fixed shaft, the second belt pulley 11 arranged on the first supporting rod 7 is driven by the transmission belt 12 arranged on the second belt pulley 11 and the first belt pulley 10 to rotate along with the first belt pulley 10 in a fixed shaft, so that the second belt pulley 11 rotates synchronously with the first belt pulley 10 under the action of the transmission belt 12, the rotating rod 8 rotates synchronously with the second belt pulley 11 through the rotating rod 8 arranged on the second belt pulley 11, the rotating rod 8 is connected with the adjusting rod 6 in a rotating way through a pin shaft, the adjusting rod 6 is driven by the rotating connection on the locking block 5, the adjusting rod 6 drives the sliding block 3 to horizontally reciprocate on the track plate 2 under the action of the rotating rod 8, when the adjusting rod 6 pulls one end of the sliding block 3 close to the first supporting rod 7, the locking block 5 swings towards the direction close to the sliding block 3, so that the locking block 5 clamps a pipeline on the sliding block 3, the inner wall of the pipeline sliding block 3 is fixed on the sliding block 3, the rotating rod 8 rotates synchronously with the rotating rod 8 through the rotating rod 8, the rotating rod 8 is connected with the adjusting rod 6 through a pin shaft, the adjusting rod 6 rotates and the sliding block 7 moves towards the first end towards the rectangular plate 17, the sliding block 17 moves towards the other end towards the lower end of the rectangular plate 17, the sliding end 17 is pushed towards the lower end of the sliding plate 17, and the sliding plate 17 moves towards the lower end of the sliding plate 17, and the sliding plate 13, when the sliding plate is pushed towards the end, and the lower end, and the sliding plate 13, and the locking piece 5 swings towards the direction away from the sliding block 3 under the action of the adjusting piece 13, so that the locking piece 5 releases clamping of the pipeline, the sliding block 3 is in sliding connection with the pipeline, the sliding block 3 moves to one end away from the first supporting rod 7, and the sliding block 3 moves horizontally in a reciprocating manner, so that one or more pipelines can be sequentially moved towards the direction close to the first supporting rod 7, and the working efficiency is improved.

The pipeline transferring method for municipal water supply and drainage can be used for transferring pipelines, so that manual operation is reduced, working efficiency is improved, and compared with a traditional product, the pipeline transferring method for municipal water supply and drainage is better.

The standard components used in the present embodiment may be purchased directly from the market, and the nonstandard structural components according to the descriptions of the specification and the drawings may also be obtained directly by unambiguous processing according to the common general knowledge in the prior art, and meanwhile, the connection manner of each component adopts the conventional means mature in the prior art, and the machinery, the components and the equipment all adopt the conventional types in the prior art, so that the specific description will not be made here.

Claims (5)

1. The municipal water supply and drainage pipe feeding method comprises the following steps:

s1, clamping a pipeline: putting the pipeline into the inner wall of the sliding block (3), and fixing the pipeline through the locking block (5);

s2, pipeline transportation: the fixed shaft rotation is carried out through the rotating rod (8), so that the adjusting rod (6) pulls the sliding block (3) to horizontally reciprocate, and the pipeline on the sliding block (3) is transported;

s3, clamping is released: the rectangular plate (17) is pushed to move towards the direction close to the adjusting block (13) through the cam (19), so that the roller (14) drives the locking block (5) to rotate to release the clamping of the pipeline;

the pipeline transporting device is characterized by further comprising a base (1), wherein one side of the base (1) is fixedly connected with a track plate (2), and the inner wall of the track plate (2) is in limit sliding connection with a sliding block (3) for transporting the pipeline;

the two symmetrical positions on the sliding block (3) are fixedly connected with supporting plates (4), and the opposite surfaces of the two supporting plates (4) are rotationally connected with locking blocks (5) for clamping and fixing the pipeline in the sliding block (3) through pin shafts;

a first rectangular groove (51) is formed in one end, far away from the sliding block (3), of the locking block (5), an adjusting rod (6) is connected to the inner wall of the first rectangular groove (51) in a rotating mode through a pin shaft, and a moving mechanism for driving the sliding block (3) to move the pipeline is arranged on the base (1); the moving mechanism comprises a first supporting rod (7) fixedly connected to the corner position of one end of the base (1), a rotating rod (8) for pulling the sliding block (3) to reciprocate is rotatably connected to one end of the first supporting rod (7) away from the base (1) through a pin shaft, one end of the adjusting rod (6) away from the locking block (5) is rotatably connected with one end of the rotating rod (8) away from the first supporting rod (7) through a pin shaft, and a second belt pulley (11) is coaxially and fixedly connected to one side of the first supporting rod (7) close to the adjusting rod (6) and the rotating rod (8); the moving mechanism further comprises a second supporting rod (9) fixedly connected to one side, close to the first supporting rod (7), of the base (1), a first belt pulley (10) is rotationally connected to the second supporting rod (9) through a pin shaft and driven by a power mechanism, a driving belt (12) enabling the first belt pulley (10) to drive the second belt pulley (11) to synchronously rotate in a fixed shaft is movably connected in a sliding groove of the outer outline of the driving belt (12), and the power mechanism is a motor connected with a power supply; an adjusting block (13) is coaxially and fixedly connected with the locking block (5) on the supporting plate (4) close to one side of the second supporting rod (9), a second rectangular groove (131) is formed in one end of the adjusting block (13), and a roller (14) is rotatably connected to the inner wall of the second rectangular groove (131) through a pin shaft; be equipped with the complementary unit who releases locking piece (5) to the pipeline centre gripping on track board (2), complementary unit includes that the both ends symmetry position that is close to second bracing piece (9) one side on track board (2) all fixedly connected with solid fixed ring (15), the inner wall activity of solid fixed ring (15) has lifter (16) that go up and down reciprocating motion, the top fixedly connected with of lifter (16) promotes rectangular plate (17) that regulating block (13) rotated and adjusted.

2. The municipal water supply and drainage pipe feeding method according to claim 1, wherein: the auxiliary mechanism further comprises a reset spring (18) which is fixedly connected with the opposite surface of the bottom of the fixed ring (15) and the lifting rod (16) and pulls the rectangular plate (17) to move downwards.

3. The municipal water supply and drainage pipe feeding method according to claim 2, wherein: one side of the first belt pulley (10) far away from the second supporting rod (9) is coaxially and fixedly connected with a cam (19) for pushing the rectangular plate (17) to move upwards.

4. The municipal water supply and drainage pipe feeding method according to claim 1, wherein: hole grooves (31) are formed in two symmetrical positions of the inner walls of the two ends of the sliding block (3), and rubber rollers (20) are connected to the inner walls of the hole grooves (31) through pin shafts in a rotating mode.

5. The municipal water supply and drainage pipe feeding method according to claim 1, wherein: the universal wheels (21) for enabling the base (1) to move are fixedly connected to the four corner frames at the bottom of the base (1).