CN114960896B - Pipeline system for industrial sewage treatment and installation method thereof - Google Patents

Abstract

The utility model relates to a sewage treatment field specifically discloses a pipeline system for industrial sewage treatment and installation method thereof, pipeline system for industrial sewage treatment include a plurality of install in the pipe section of slot, be used for drawing the traction mechanism of pipe section and be used for fixing adjacently the fixed establishment of pipe section, the restriction is seted up to the slot diapire the arc wall of pipe section position, traction mechanism includes haulage rope, be used for the joint assembly of pipe section one end, be used for the winding haulage assembly of haulage rope and be used for promoting the auxiliary assembly of pipe section haulage speed, the joint assembly with the haulage rope is connected. This application has the effect of being convenient for pull the installation pipeline, promotes work efficiency.

Description

Pipeline system for industrial sewage treatment and installation method thereof

Technical Field

The present application relates to the field of sewage treatment, and in particular, to a pipeline system for industrial sewage treatment and an installation method thereof.

Background

At present, in the modern city construction process, a rainwater pipeline and a sewage pipeline are important components, and the sewage pipeline is used by people. In the prior art, the sewage pipeline is formed by splicing a section of pipeline in sequence, and the splicing mode of two adjacent sections of pipelines is generally installed and fixed through flange connection.

The Chinese patent with the application number of CN201911360525.5 in the related art proposes a sewage pipeline installation structure, which comprises a plurality of pipelines which are spliced in sequence and a base for supporting the pipelines, wherein two adjacent pipelines are a first pipeline and a second pipeline respectively, one end of the first pipeline, which is close to the second pipeline, is provided with external threads, one end of the second pipeline, which is close to the first pipeline, is provided with internal threads, and the first pipeline is connected with the second pipeline through threads; the upper surface of the base is hinged with an elastic clamping strip, the free end of the elastic clamping strip is fixedly provided with a hooking part, and the elastic clamping strip is buckled at the joint of the first pipeline and the second pipeline; a fixing component for locking and unlocking the pipeline is arranged between the hooking part and the base. The pipeline structure facilitates disassembly and assembly between adjacent pipelines, and further improves the efficiency of rush-repair of the sewage pipeline.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: in the process of installing the pipeline, each pipe section needs to be hoisted and spliced, in order to splice the pipe sections, the positions of the pipe sections need to be adjusted in the hoisting process until the two pipe sections are guaranteed to be aligned and spliced, and the defect of pipe section installation work efficiency exists.

Disclosure of Invention

In order to solve the problem that the pipe joint is inconvenient to align and splice, the application provides a pipeline system for industrial sewage treatment and an installation method thereof.

The application provides a pipeline system for industrial sewage treatment adopts following technical scheme:

the utility model provides a pipeline system for industrial sewage treatment and installation method thereof, includes a plurality of pipe sections that install in the slot, be used for drawing the traction mechanism of pipe section and be used for fixing adjacently the fixed establishment of pipe section, the slot diapire has been seted up the restriction the arc wall of pipe section position, traction mechanism includes haulage rope, is used for the joint the joint subassembly of pipe section one end, is used for the coiling the traction subassembly of haulage rope and be used for promoting the auxiliary assembly of pipe section traction speed, the joint subassembly with the haulage rope is connected.

Through adopting above-mentioned technical scheme, place the pipe section in the arc wall of slot, carry out the joint fixedly to the tip of pipe section through joint subassembly, and traction assembly winds the haulage rope, and the haulage rope drives joint subassembly motion, can pull the pipe section, and auxiliary assembly's effect for reduce the frictional force that the pipe section received, and then promote the traction speed of pipe section, improve the work efficiency of pipe section transportation concatenation.

Optionally, the joint subassembly include chuck and two with chuck swing joint's joint pole, the chuck with haulage rope tip detachable connection, the chuck is provided with and is used for driving two simultaneously the drive assembly of joint pole motion.

Through adopting above-mentioned technical scheme, according to the pipe diameter of pipe section, adjust the size that the clamping pole stretches out through drive assembly, and then realize that the chuck matches with the pipe section of different specifications, and then carry out with traction concatenation to the pipe section.

Optionally, the drive assembly include with the gear of chuck inner wall rotation connection, two with rack and the drive of gear engagement connection gear pivoted power piece, the chuck with gear rotation connection, the slide opening has been seted up along its radial direction to the chuck, the one end of slide opening is closed setting, and the other end is the opening setting, the rack with clamping rod all with slide opening sliding connection, rack one end with clamping rod fixed connection.

Through adopting above-mentioned technical scheme, power spare drives the gear and rotates, and the gear drives two racks and takes place relative motion, and then realizes that two clamping bars withdraw in the chuck or stretch out outside the chuck, realizes the effect of adjusting to the clamping bar position.

Optionally, a limit opening adapted to the wall of the pipe section is formed on one side of the clamping rod facing the pipe section, and an adsorption piece for adsorbing the clamping rod is arranged in the limit opening of the clamping rod.

Through adopting above-mentioned technical scheme, with the pipe wall interlock of spacing mouth and tube coupling, and under the adsorption of adsorption piece, be connected more firmly between clamping rod and the chuck, and then guarantee that the chuck is normally gone on to the traction work of tube coupling.

Optionally, the adsorption piece sets up to vacuum chuck, vacuum chuck with spacing mouthful inner wall fixed connection on the clamping rod, vacuum chuck with tube coupling tip inner wall adsorbs.

Through adopting above-mentioned technical scheme, laminating vacuum chuck and the pipe wall of pipe section, and extrude chuck and pipe section, vacuum chuck is inseparable with pipe section tip absorption, further guarantees the fixed firm effect of chuck and pipe section.

Optionally, the traction assembly includes support, motor, winding roller, the winding roller with the support rotates to be connected, the motor with support fixed connection and drive the winding roller rotates, the support place in the slot, the one end of haulage rope with winding roller week wall fixed connection.

Through adopting above-mentioned technical scheme, motor drive winding roller rotates, and the winding roller winds the haulage rope, and the haulage rope pulling chuck in winding process, chuck pull the pipe section towards adjacent pipe section, realizes the effect to the pipe section concatenation of pulling.

Optionally, the auxiliary assembly includes auxiliary frame, a plurality of with auxiliary frame rotates fixed pulley, auxiliary rope and oilcloth of being connected, auxiliary rope's one end with the chuck is kept away from the one end fixed connection of haulage rope, oilcloth lay in the arc wall, auxiliary frame and the support is located respectively the both ends of slot, oilcloth is provided with and is used for adjusting auxiliary rope size's adjusting part, auxiliary rope slides around locating outside the fixed pulley.

Through adopting above-mentioned technical scheme, the oilcloth is used for reducing the frictional force that the tube coupling received in traction working process, and when the tube coupling was pulled the motion, oilcloth also synchronous motion this moment, tube coupling orientation adjacent tube coupling orientation motion, and the oilcloth moves towards next tube coupling mounted position this moment, can guarantee tube coupling transportation, also can carry out preparation work to next tube coupling transportation.

Optionally, the adjusting component includes two respectively with oilcloth tip both sides fixed connection's regulating block, dancer roll and be used for locking the locking piece of dancer roll, the both ends of dancer roll respectively with two the regulating block rotates to be connected, dancer roll perisporium with haulage rope's tip fixed connection.

Through adopting above-mentioned technical scheme, the dancer roll is used for convoluteing auxiliary rope, and then realizes controlling auxiliary rope length, because along with the installation of tube coupling, the slot is close to the space reduction between the auxiliary frame this moment, consequently needs the dancer roll to convoluteing auxiliary rope, guarantees that auxiliary rope is in the state of stretching out and drawing back.

Optionally, the locking piece sets up to the screw, any screw hole has been seted up to the regulating block, the screw with screw hole threaded connection just the screw wears out the one end of screw hole with the dancer roll outer wall butt.

Through adopting above-mentioned technical scheme, screw and screw hole threaded connection, and screw tip motion to the position with the dancer roll perisporium butt, realize the locking effect to the dancer roll.

The application also provides an installation method of the pipeline system for industrial sewage treatment, which adopts the following technical scheme:

a method for installing a pipeline system for industrial sewage treatment comprises the following steps,

s1, digging a groove, digging the groove in sections, digging an arc-shaped groove on the bottom wall of the groove, and ensuring the size of the arc-shaped groove to be matched with a pipe joint;

s2, installing the bracket and the auxiliary frame, respectively placing the bracket and the auxiliary frame at two ends of the arc-shaped groove, placing the oilcloth at the bottoms of the groove and the arc-shaped groove, and fixing the oilcloth and the auxiliary rope;

s3, installing pipe joints and chucks, placing the first section of pipe joints at a position close to a bracket, hoisting the second section of pipe joints, and enabling a traction rope to sequentially penetrate through the first section of pipe joints and the second section of pipe joints, wherein the traction rope and an auxiliary rope are fixedly connected with two ends of the chucks respectively in a hooking mode;

s4, pulling the second pipe joint, clamping the second pipe joint with the end of the pipe joint through a clamping connection rod, ensuring that the auxiliary rope is in a straightened state through an adjusting roller, pulling the pulling rope through a winding roller, enabling the pipe joint to move to the end position of the adjacent pipe joint, and simultaneously enabling part of the tarpaulin to be pulled to the installation position of the next pipe joint;

s5, fixing adjacent pipe sections, sequentially towing the pipe sections, and fixing the adjacent pipe sections after towing is completed.

By adopting the technical scheme, the outer groove is opened in sections, and the arc-shaped groove is excavated at the bottom wall of the groove, so that the size of the arc-shaped groove is ensured to be matched with the pipe joint; and preparing tarpaulin, traction rope and auxiliary rope, wherein the sizes of the traction rope and the auxiliary rope are not smaller than the size of the groove, and the size of the tarpaulin is not smaller than the size of each pipe joint. The bracket and the auxiliary frame are respectively placed at two ends of the arc-shaped groove, the spines of the bracket and the auxiliary frame can be inserted into the soil, the oilcloth is placed at the bottoms of the groove and the arc-shaped groove, and the oilcloth and the auxiliary rope are fixed; one end of the traction rope is fixedly connected with the peripheral wall of the winding roller. Placing the first section of pipe joint at a position close to the bracket, hoisting the second section of pipe joint, and sequentially penetrating the traction rope through the first section of pipe joint and the second section of pipe joint, wherein the traction rope and the auxiliary rope are fixedly connected with two ends of the chuck respectively in a hooking manner; the power piece drives the gear to rotate, the gear drives the two racks to slide in the sliding hole, and the clamping rods extend out of the chuck until the distance between the end parts of the two clamping rods is larger than the outer diameter of the pipe joint. The clamping rod is clamped with the end part of the pipe joint, the limiting port is meshed with the pipe wall of the pipe joint, the vacuum chuck is adsorbed with the end part of the pipe joint, and the effect of stable clamping between the chuck and the end part of the pipe joint is achieved; the auxiliary rope is wound on the peripheral wall of the adjusting roller through the rotation of the adjusting roller, the rotation of the adjusting roller is limited through a screw, the auxiliary rope is ensured to be in a straightened state, the traction rope is pulled through the winding roller, the pipe joint moves to the end position of the adjacent pipe joint, and meanwhile, part of tarpaulin is pulled to the installation position of the next pipe joint; and (3) sequentially pulling the pipe sections, and fixing the adjacent pipe sections by adopting flange connection after the pulling is completed.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the pipe joint is placed in an arc-shaped groove of the groove, the end part of the pipe joint is clamped and fixed through the clamping assembly, the traction assembly winds the traction rope, the traction rope drives the clamping assembly to move, the pipe joint can be pulled, and the auxiliary assembly acts to reduce the friction force born by the pipe joint, so that the traction speed of the pipe joint is improved, and the working efficiency of pipe joint transportation and splicing is improved;

2. the oil cloth is used for reducing the friction force of the pipe joint in the traction working process, when the pipe joint is in traction movement, the oil cloth synchronously moves at the moment, the pipe joint moves towards the direction of the adjacent pipe joint, and the oil cloth moves towards the installation position of the next pipe joint at the moment, so that the pipe joint transportation can be ensured, and the next pipe joint transportation can be prepared for work;

3. the regulating roller is used for winding the auxiliary rope, so that the length of the auxiliary rope is controlled, and the space between the grooves close to the auxiliary frames is reduced along with the installation of the pipe joints, so that the auxiliary rope is required to be wound by the regulating roller, and the auxiliary rope is ensured to be in a straight state.

Drawings

Fig. 1 is a schematic overall structure of a first embodiment of the present application.

Fig. 2 is a schematic view of a clamping assembly according to a first embodiment of the present application.

Fig. 3 is a schematic view of a fixing mechanism, a traction mechanism and a pipe joint according to the first embodiment of the present application.

Fig. 4 is an enlarged view at a in fig. 3.

FIG. 5 is a flow chart of a second embodiment of the present application

Reference numerals: 1. a groove; 2. a pipe section; 3. an arc-shaped groove; 4. a traction rope; 5. a chuck; 6. a clamping rod; 7. a gear; 8. a rack; 9. a slide hole; 10. a power member; 11. a limit opening; 12. a vacuum chuck; 13. a bracket; 14. a motor; 15. a winding roller; 16. an auxiliary frame; 17. a fixed pulley; 18. an auxiliary rope; 19. a tarpaulin; 20. an adjusting block; 21. an adjusting roller; 22. and (5) a screw.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

Example 1

The embodiment of the application discloses a pipeline system for industrial sewage treatment. Referring to fig. 1 and 2, a pipeline system for industrial sewage treatment includes a plurality of pipe sections 2 installed in a groove 1, a traction mechanism for traction of the pipe sections 2, and a fixing mechanism for fixing adjacent pipe sections 2, in this embodiment, the pipe sections 2 are installed by construction in sections, so that the sections of the groove 1 need to be excavated in sections, the adjacent pipe sections 2 are connected through the fixing mechanism, the fixing mechanism adopts a flange plate and a plurality of bolts for fixing, and the flange plate can adopt a T shape in this embodiment, so that the outer diameter of the abutting positions of the two adjacent flange plates is identical with the outer diameter of the pipe sections 2, and the effect of the flange plate on the dragging work of the pipe sections 2 is avoided.

The arc groove 3 that is used for placing restriction tube coupling 2 positions has been seted up to slot 1 diapire, arc groove 3 and tube coupling 2 outer wall adaptation, and then restriction tube coupling 2 is along the length direction motion of arc groove 3, traction mechanism includes haulage rope 4, be used for the joint subassembly of joint tube coupling 2 one end, be used for the coiling haulage rope 4 draw the subassembly, and be used for promoting tube coupling 2 traction speed's auxiliary assembly, the joint subassembly is connected with haulage rope 4, the joint subassembly includes chuck 5 and two clamping bars 6 with chuck 5 swing joint, chuck 5 can set up to discoid, the one end of chuck 5 and the one end releasable connection of haulage rope 4 can be adopted in this embodiment to hang between couple and the link to establish the cooperation, be convenient for fix haulage rope 4 and chuck 5.

Referring to fig. 1 and 2, the drive assembly includes the gear 7 that rotates with chuck 5 inner wall and is connected, rack 8 and the pivoted power piece 10 of drive gear 7 that meshes with the gear 7, chuck 5 has seted up slide hole 9 along its radial direction, slide hole 9's one end is closed, the other end is the opening setting, clamping rod 6 sliding connection is in slide hole 9, the axis direction of gear 7 sets up along chuck 5's axis direction, two racks 8 all are connected with the gear 7 meshing, and two racks 8 are located the both sides of gear 7 symmetry plane respectively, rack 8's one end and clamping rod 6 tip fixed connection, rack 8 also slides in slide hole 9, and slide hole 9 is provided with the sliding sleeve that is used for rack 8 to slide, the sliding connection of rack 8 of being convenient for.

The power piece 10 can be set as power pole or hand wheel, and power piece 10 is fixed with the axis of rotation of gear 7 coaxially, and according to the internal diameter of tube coupling 2, and then control power pole drive gear 7 rotates, and gear 7 rotates the in-process and drives two racks 8, and two racks 8 are towards the direction motion that keeps away from each other, and clamping rod 6 outwards moves from slide hole 9, and the distance between the tip of two clamping rod 6 is greater than the external diameter of tube coupling 2, stops the drive work of power rod to gear 7.

Referring to fig. 1 and 3, the traction assembly comprises a support 13, a motor 14 and a winding roller 15, the winding roller 15 is rotationally connected with the support 13, the motor 14 is fixedly connected with the support 13 and drives the winding roller 15 to rotate, one end of the traction rope 4, which is far away from the clamping disc, is fixedly connected with the peripheral wall of the winding roller 15, the traction rope 4 and the winding roller 15 can be bound through iron wires in the embodiment, the operation is simple, the motor 14 can rotate positively and reversely, the winding and paying-off of the traction rope 4 are achieved, the support 13 is placed in the arc-shaped groove 3, the chucks 5 and the support 13 are respectively placed at two ends of the pipe joint 2, the chucks 5 are placed at one end of the pipe joint 2 and are abutted against the end wall surface of the pipe joint 2, the chucks 5 are driven to move by the traction rope 4 through the motor 14, and then the chucks 5 regulate the pipe joint 2 to move along the direction of the arc-shaped groove 3, and further traction splicing is achieved on the pipe joint 2.

Referring to fig. 3 and 4, the spacing mouth 11 with the pipe wall adaptation of pipe section 2 is offered to the one end of clamping rod 6 towards pipe section 2, spacing mouth 11 interlock is at the tip pipe wall of pipe section 2, under the restriction effect of spacing mouth 11, realize the effect of clamping rod 6 and pipe section 2 adaptation, avoid clamping rod 6 to take place sideslip at pipe section 2 tip, influence the work efficiency to pipe section 2 traction, clamping rod 6 is provided with the adsorption piece that is used for adsorbing clamping rod 6 in spacing mouth 11, the adsorption piece sets up to vacuum chuck 12, the back of vacuum chuck 12 and the spacing mouth 11 inner wall fixed connection of clamping rod 6 can adopt threaded connection in this embodiment, when clamping rod 6 interlock is on the pipe wall of pipe section 2, vacuum chuck 12 and pipe section 2 tip butt this moment, when haulage rope 4 pulls chuck 5, vacuum chuck 12 adsorbs with pipe section 2 tip inner wall, further guarantee the fixed firm effect between chuck 5 and the pipe section 2 tip.

Referring to fig. 1 and 3, in order to facilitate traction of the pipe joint 2, the auxiliary assembly comprises an auxiliary frame 16, a plurality of fixed pulleys 17 rotatably connected with the auxiliary frame 16, an auxiliary rope 18 and a tarpaulin 19, wherein the surface of the tarpaulin 19 can be coated with materials for increasing lubrication degree such as lubricating oil, the tarpaulin 19 is paved on the inner wall of the arc-shaped groove 3, one end of the tarpaulin 19 facing the auxiliary frame 16 is connected with the auxiliary rope 18, the other end of the auxiliary rope 18 is fixedly connected with one end of the chuck 5 far away from the traction rope 4, and the auxiliary rope 18 and the chuck 5 can be connected in a matched manner through a hook and a hanging ring; the number of the fixed pulleys 17 is two in the embodiment, wherein the height of one fixed pulley 17 is consistent with that of the traction rope 4, the traction rope 4 and the auxiliary rope 18 are in a horizontal state, the position of the other fixed pulley 17 is close to the wall surface of the arc-shaped groove 3, and the traction rope 4 is in the same horizontal plane with the tarpaulin 19 after bypassing the fixed pulley 17 as much as possible.

The auxiliary frame 16 is placed in the arc-shaped groove 3, the auxiliary frame 16 and the support 13 are respectively positioned at two ends of the groove 1, namely, two ends of the pipe joint 2 to be spliced, the oilcloth 19 is provided with an adjusting component for adjusting the size of the auxiliary rope 18, the adjusting component comprises two adjusting blocks 20 which are respectively fixedly connected with two sides of the end part of the oilcloth 19, an adjusting roller 21 and locking pieces for locking the adjusting roller 21, two ends of the adjusting roller 21 are respectively connected with the two adjusting blocks 20 in a rotating mode, and the locking pieces are used for locking the rotation of the adjusting roller 21.

Referring to fig. 1 and 3, the end fixed connection of dancer 21 perisporium and haulage rope 4 also can adopt the iron wire to carry out the ligature between haulage rope 4 and the dancer 21, the locking piece sets up to screw 22, any regulating block 20 is provided with the screw hole, the regulating block 20 has been seted up and is used for dancer 21 tip pivoted rotation hole, the screw hole sets up along the radial direction of rotation hole, and screw hole and rotation hole intercommunication, screw 22 and screw hole threaded connection and screw 22 wear out the one end and the dancer 21 outer wall butt of screw hole, under the effect of frictional force between screw 22 and dancer 21 tip, realize carrying out the effect of locking to dancer 21.

The oilcloth 19 is paved at the position of the pipe joint 2 to be spliced, the length dimension of the oilcloth 19 is not smaller than the length dimension of each pipe joint 2 in the embodiment, the pipe joint 2 is placed at the position, close to one end of the traction rope 4, of the oilcloth 19, the other end of the oilcloth 19 is close to the position of the pipe joint 2 which is already installed, the motor 14 controls the winding roller 15 to rotate, the winding roller 15 winds the traction rope 4, under the matching effect of the chuck 5 and the clamping rod 6, the pipe joint 2 is pulled to move towards the pipe joint 2 which is already installed, at the moment, under the effect of the traction rope 4 and the fixed pulley 17, the oilcloth 19 is driven to move towards the auxiliary frame 16, if the length distance of one pipe joint 2 is wound by the traction rope 4, the oilcloth 19 also moves by the length distance of the pipe joint 2, at the moment, the oilcloth 19 moves to the tail end of the pipe joint 2, and traction installation of the next pipe joint 2 is facilitated.

Referring to fig. 1 and 3, as the pipe joint 2 is assembled, the pulling-out size of the pulling rope 4 is lengthened, and the pulling-out size of the auxiliary rope 18 needs to be shortened at the moment, so that by rotating the adjusting roller 21, the adjusting roller 21 winds the auxiliary rope 18 in the rotating process, the pulling-out pulling rope 4 is shortened, the pulling rope 4 is ensured to be in a straightened state at the moment, the driving screw 22 moves to be in contact with the outer wall of the end part of the adjusting roller 21 at the moment, and under the action of friction force between the screw 22 and the adjusting roller 21, the rotation of the adjusting roller 21 is locked, so that the oilcloth 19 is pulled to move towards the auxiliary frame 16 in the pulling process of the pipe joint 2.

The embodiment of the application provides a pipeline system for industrial sewage treatment and an installation method thereof, wherein the implementation principle is as follows: one side fixed connection with haulage rope 4 and joint drives gear 7 through power spare 10 and rotates, and the motion is kept away from each other to two racks 8, and rack 8 drives joint pole 6 and moves outward towards slide hole 9, with spacing mouth 11 and the pipe wall interlock of pipe section 2, and vacuum chuck 12 and the closing absorption of pipe section 2 realize chuck 5 and pipe section 2's fixed effect.

And the oilcloth 19 is paved on the inner wall of the arc-shaped groove 3, one end of the traction rope 4 is fixedly connected with the other side of the chuck 5, the traction rope 4 winds around the two fixed pulleys 17 and is fixedly connected with the peripheral wall of the adjusting pipe, the adjusting roller 21 is used for limiting the adjusting roller 21 through the screw 22, the traction rope 4 is ensured to be in a straightened state, the motor 14 drives the winding roller 15 to rotate, the chuck 5 is pulled by the traction rope 4, the chuck 5 pulls the pipe section 2 on the oilcloth 19, at the moment, the oilcloth 19 is pulled towards the direction of the auxiliary frame 16, and the work efficiency of pulling the pipe section 2 can be improved while the oilcloth 19 and the pipe section 2 relatively move.

Example two

The embodiment of the application discloses an installation method of a pipeline system for industrial sewage treatment. Referring to fig. 1 and 5, a method of installing a piping system for industrial sewage treatment includes the steps of,

s1, digging a groove 1, sectionally digging an outer groove 1, digging an arc-shaped groove 3 on the bottom wall of the groove 1, and ensuring that the size of the arc-shaped groove 3 is matched with a pipe joint 2; and the tarpaulin 19, the traction rope 4 and the auxiliary rope 18 are prepared, and the sizes of the traction rope 4 and the auxiliary rope 18 are not smaller than the size of the groove 1, and the size of the tarpaulin 19 is not smaller than the size of each pipe section 2.

S2, installing the bracket 13 and the auxiliary frame 16, respectively placing the bracket 13 and the auxiliary frame 16 at two ends of the arc-shaped groove 3, inserting the spikes of the bracket 13 and the auxiliary frame 16 into the soil, placing the tarpaulin 19 at the bottoms of the groove 1 and the arc-shaped groove 3, and fixing the tarpaulin 19 and the auxiliary rope 18; one end of the traction rope 4 is fixedly connected with the peripheral wall of the winding roller 15.

S3, installing the pipe joint 2 and the chuck 5, placing the first section of pipe joint 2 at a position close to the bracket 13, hoisting the second section of pipe joint 2, and sequentially penetrating the traction rope 4 through the first section of pipe joint 2 and the second section of pipe joint 2, wherein the traction rope 4 and the auxiliary rope 18 are fixedly connected with two ends of the chuck 5 respectively in a hooking manner; the power piece 10 drives the gear 7 to rotate, the gear 7 drives the two racks 8 to slide in the sliding holes 9, and the clamping connection rods 6 extend out of the chucks 5 until the distance between the end parts of the two clamping connection rods 6 is larger than the outer diameter of the pipe joint 2.

S4, pulling the second pipe joint 2, clamping the end part of the pipe joint 2 through the clamping connection rod 6, enabling the limiting opening 11 to be meshed with the pipe wall of the pipe joint 2, enabling the vacuum sucker 12 to be adsorbed with the end part of the pipe joint 2, and achieving the effect of clamping and stabilizing the end part of the pipe joint 2 and the chuck 5; the auxiliary rope 18 is wound on the peripheral wall of the adjusting roller 21 through the rotation of the adjusting roller 21, the rotation of the adjusting roller 21 is limited through the screw 22, the auxiliary rope 18 is ensured to be in a straightened state, the traction rope 4 is pulled through the winding roller 15, the pipe section 2 moves to the end position of the adjacent pipe section 2, and meanwhile, part of the tarpaulin 19 is pulled to the installation position of the next pipe section 2;

s5, fixing the adjacent pipe sections 2, sequentially towing the pipe sections 2, and fixing the adjacent pipe sections 2 by adopting flange connection after towing is completed.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (7)

1. A pipeline system for industrial sewage treatment, which is characterized in that: the pipe joint traction device comprises a plurality of pipe joints (2) arranged in a groove (1), a traction mechanism used for traction of the pipe joints (2) and a fixing mechanism used for fixing adjacent pipe joints (2), wherein an arc-shaped groove (3) used for limiting the positions of the pipe joints (2) is formed in the bottom wall of the groove (1), the traction mechanism comprises a traction rope (4), a clamping assembly used for clamping one end of the pipe joints (2), a traction assembly used for winding the traction rope (4) and an auxiliary assembly used for improving the traction speed of the pipe joints (2), and the clamping assembly is connected with the traction rope (4);

the clamping assembly comprises a chuck (5) and two clamping rods (6) movably connected with the chuck (5), the chuck (5) is detachably connected with the end part of the traction rope (4), and the chuck (5) is provided with a driving assembly for simultaneously driving the two clamping rods (6) to move;

the traction assembly comprises a bracket (13), a motor (14) and a winding roller (15), wherein the winding roller (15) is rotationally connected with the bracket (13), the motor (14) is fixedly connected with the bracket (13) and drives the winding roller (15) to rotate, the bracket (13) is placed in the groove (1), and one end of the traction rope (4) is fixedly connected with the peripheral wall of the winding roller (15);

the auxiliary assembly comprises an auxiliary frame (16), a plurality of fixed pulleys (17) which are rotationally connected with the auxiliary frame (16), an auxiliary rope (18) and tarpaulin (19), wherein one end of the auxiliary rope (18) is fixedly connected with one end of the chuck (5) which is far away from the traction rope (4), the tarpaulin (19) is laid in the arc-shaped groove (3), the auxiliary frame (16) and the bracket (13) are respectively positioned at two ends of the groove (1), the tarpaulin (19) is provided with an adjusting assembly for adjusting the size of the auxiliary rope (18), and the auxiliary rope (18) is glidingly wound outside the fixed pulleys (17); the chuck (5) can move to drive the tarpaulin (19) connected with the auxiliary rope (18) to move in opposite directions with the chuck (5), so that the tarpaulin (19) moves to the installation position of the next pipe joint (2).

2. A pipeline system for industrial sewage treatment according to claim 1, wherein: the driving assembly comprises a gear (7) rotationally connected with the inner wall of the chuck (5), two racks (8) meshed with the gear (7) and a power piece (10) for driving the gear (7) to rotate, the chuck (5) is rotationally connected with the gear (7), a slide hole (9) is formed in the radial direction of the chuck (5), one end of the slide hole (9) is in a closed arrangement, the other end of the slide hole is in an opening arrangement, the racks (8) and the clamping rod (6) are in sliding connection with the slide hole (9), and one end of the racks (8) is fixedly connected with the clamping rod (6).

3. A pipeline system for industrial sewage treatment according to claim 1, wherein: the clamping rod (6) faces to one side of the pipe joint (2) and is provided with a limiting opening (11) which is matched with the pipe wall of the pipe joint (2), and the clamping rod (6) is provided with an adsorption piece used for adsorbing the clamping rod (6) in the limiting opening (11).

4. A pipeline system for industrial sewage treatment according to claim 3, wherein: the adsorption piece is provided with a vacuum chuck (12), the vacuum chuck (12) is fixedly connected with the inner wall of a limit opening (11) on the clamping connection rod (6), and the vacuum chuck (12) is adsorbed with the inner wall of the end part of the pipe joint (2).

5. A pipeline system for industrial sewage treatment according to claim 1, wherein: the adjusting assembly comprises two adjusting blocks (20) which are fixedly connected with two sides of the end part of the tarpaulin (19), an adjusting roller (21) and a locking piece for locking the adjusting roller (21), wherein two ends of the adjusting roller (21) are respectively and rotatably connected with the two adjusting blocks (20), and the peripheral wall of the adjusting roller (21) is fixedly connected with the end part of the traction rope (4).

6. A pipeline system for industrial sewage treatment according to claim 5, wherein: the locking piece is provided with a screw (22), any one of the adjusting blocks (20) is provided with a threaded hole, the screw (22) is in threaded connection with the threaded hole, and one end of the screw (22) penetrating out of the threaded hole is abutted to the outer wall of the adjusting roller (21).

7. A method of installing an industrial sewage treatment piping system according to any one of claims 1 to 6, characterized in that: comprises the following steps of the method,

s1, digging a groove (1), digging the groove (1) in sections, digging an arc-shaped groove (3) on the bottom wall of the groove (1), and ensuring that the size of the arc-shaped groove (3) is matched with a pipe joint (2);

s2, installing the bracket (13) and the auxiliary frame (16), respectively placing the bracket (13) and the auxiliary frame (16) at two ends of the arc-shaped groove (3), placing the oilcloth (19) at the bottoms of the groove (1) and the arc-shaped groove (3), and fixing the oilcloth (19) with the auxiliary rope (18);

s3, installing the pipe joint (2) and the chuck (5), placing the first section of pipe joint (2) at a position close to the bracket (13), hoisting the second section of pipe joint (2), and sequentially penetrating the traction rope (4) through the first section of pipe joint (2) and the second section of pipe joint (2), wherein the traction rope (4) and the auxiliary rope (18) are fixedly connected with two ends of the chuck (5) respectively in a hooking manner;

s4, pulling the second pipe joint (2), clamping the end part of the pipe joint (2) through a clamping connection rod (6), ensuring that an auxiliary rope (18) is in a stretched state through an adjusting roller (21), pulling the pulling rope (4) through a winding roller (15), enabling the pipe joint (2) to move to the end part position of the adjacent pipe joint (2), and simultaneously enabling part of tarpaulin (19) to be pulled to the installation position of the next pipe joint (2);

s5, fixing the adjacent pipe sections (2), sequentially towing the pipe sections (2), and fixing the adjacent pipe sections (2) after towing is completed.