CN115027037B

CN115027037B - Double-layer water cooling device for corrugated pipe production

Info

Publication number: CN115027037B
Application number: CN202210560593.1A
Authority: CN
Inventors: 郑浩
Original assignee: Anhui Rongguan Pipe Technology Co ltd
Current assignee: Anhui Rongguan Pipe Technology Co ltd
Priority date: 2022-05-19
Filing date: 2022-05-19
Publication date: 2023-10-10
Anticipated expiration: 2042-05-19
Also published as: CN115027037A

Abstract

The invention provides a double-layer water cooling device for corrugated pipe production, belongs to the technical field of corrugated pipe manufacture, and is used for solving the technical problem that an existing corrugated pipe production line can only cool the outside of a corrugated pipe and is low in cooling efficiency. The device comprises a recovery box and a supporting seat, wherein a cooling chamber is arranged at the upper end of the recovery box, a cooling spray head is arranged in the cooling chamber, an inclined supporting rod is rotatably arranged at the upper side end of the supporting seat, a cross rod is arranged at the end part of the inclined supporting rod, a connecting mechanism is arranged between the cross rod and the inclined supporting rod, a water outlet pipe is fixed at the side end of the cross rod, a rotary spray head is connected at the end part of the water outlet pipe, a water absorbing mechanism is further arranged on the cross rod, and a supporting mechanism is arranged at the upper end of the connecting mechanism; according to the invention, users on the inner side and the outer side of the corrugated pipe are sprayed with water for cooling, so that the cooling effect is improved, and the cooling efficiency is improved; the cooling water in the corrugated pipe is discharged, so that environmental problems caused by the flowing of the cooling water around are prevented; the corrugated pipe can continuously discharge, and the cooling process is not interrupted.

Description

Double-layer water cooling device for corrugated pipe production

Technical Field

The invention belongs to the technical field of corrugated pipe manufacturing, and relates to a water cooling device, in particular to a double-layer water cooling device for corrugated pipe production.

Background

The corrugated pipe is developed and perfected for more than ten years, a complete product series is developed from a single variety, the production process and the use technology are mature, the corrugated pipe is a novel light pipe taking high-density polyethylene as a raw material, the corrugated pipe has the characteristics of light weight, high pressure resistance, good toughness, quick construction, long service life and the like, the excellent pipe wall structural design is greatly reduced in cost compared with the pipes with other structures, and the corrugated pipe is widely applied at home and abroad due to convenient and reliable connection and is used for replacing concrete pipes and cast iron pipes in large quantity;

the bellows is generally extruded raw materials through the extruder, then is shaping through the mould, in general, the bellows is the assembly line output, need carry out water-cooling or forced air cooling after the bellows is shaped, increases the hardness of pipeline, but on the production line, can only cool the outside of bellows, needs cooling time longer, and cooling efficiency is lower.

Based on the above, we design a double-layer water cooling device for corrugated pipe production.

Disclosure of Invention

The invention aims at solving the problems in the prior art, and provides a double-layer water cooling device for corrugated pipe production, which aims at solving the technical problems that: how to cool the inner and outer layers of the corrugated pipe simultaneously, and improve the cooling efficiency.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides a double-deck water cooling plant is used in bellows production, includes collection box and supporting seat, the upper end of collection box is provided with the cooling chamber, the round hole has been seted up at the cooling chamber both ends, the bellows runs through both ends round hole, the one end of cooling chamber is provided with the cold water pipe, and be connected with a plurality of branch pipes on the cold water pipe, the branch pipe extends to the cooling chamber inside, and be connected with a plurality of cooling spray heads on the branch pipe, the hole that leaks has been seted up to the lower extreme of cooling chamber, annular cutting machine is installed to the side of cooling chamber, the supporting seat upside rotates and is provided with the diagonal brace, and install on the supporting seat and be used for driving diagonal brace pivoted rotating electrical machines, the tip of diagonal brace is provided with the horizontal pole, and be equipped with coupling mechanism between horizontal pole and the diagonal brace, horizontal pole and diagonal brace are located inside the bellows, the side of horizontal pole is fixed with the outlet pipe, and the end connection of outlet pipe has rotatory nozzle, the one end that coupling mechanism was kept away from to the horizontal pole is fixed with the support, support offsets with the bellows inner wall, still be equipped with water absorbing mechanism on the horizontal pole, coupling mechanism's upper end is equipped with supporting mechanism.

The working principle of the invention is as follows: the cold water is input into the branch pipe through the cold water pipe and sprayed out by the cooling spray head, the outside of the corrugated pipe is cooled, the cooled water enters the recovery box through the water leakage hole, the cooling water is input into the water outlet pipe through the supporting mechanism and the connecting mechanism, the inner cooling is performed by spraying the cooling water onto the inner wall of the corrugated pipe through the rotating spray head, the cooling efficiency is improved, and the water suction mechanism can discharge accumulated water in the corrugated pipe to prevent the cooling water from leaking.

The water absorption mechanism comprises an air suction pipe and a vertical pipe, the air suction pipe is fixed at the side end of the cross rod, the vertical pipe is fixed at the lower end of the cross rod, a communicating pipe is connected between the upper end of the vertical pipe and the air suction pipe, the lower end of the vertical pipe is slidably provided with the lifting pipe, the lower end of the lifting pipe is provided with a shoulder, the outer side of the lifting pipe is sleeved with a tight supporting spring, the two ends of the tight supporting spring are respectively abutted against the shoulder and the vertical pipe, a supporting rod is fixed at the lower end of the lifting pipe, and the lower end of the supporting rod is abutted against the inner wall of the corrugated pipe.

By adopting the structure, the supporting spring can extrude the lower part of the lifting pipe, so that the supporting rod is propped against the inner wall of the corrugated pipe, the distance between the lifting pipe and the inner wall of the corrugated pipe is always kept in the use process of the corrugated pipe, the recovery of cooling water can be ensured, and the inner wall of the corrugated pipe is not scratched.

The connecting mechanism comprises a groove formed in the lower surface of the cross rod, limiting holes are formed in two sides of the groove, the end portions of the diagonal braces are inserted into the groove, mounting grooves are formed in the end portions of the diagonal braces, sliding holes are formed in two sides of the mounting grooves, limiting rods are slidably arranged in the sliding holes, a first push rod motor is fixed to the bottom of each mounting groove, a moving block is fixed to the end portion of each first push rod motor, two diagonal braces are fixed to the upper portion of each moving block, one end of each limiting rod is provided with one inclined hole, the diagonal braces slide through the inclined holes, the other end of each limiting rod is inserted into each limiting hole, the lower ends of the diagonal braces are fixedly provided with a first water inlet pipe and a first air exhaust pipe, first electromagnetic valves are connected to the first water inlet pipe and the first air exhaust pipe, first one-way valves are connected to the air suction pipe and the water outlet pipe, the end portions of the first one-way valves are abutted to connecting ports of the first electromagnetic valves, and trigger switches are mounted to the side ends of the supporting seats.

By adopting the structure, when the annular cutting machine cuts off the corrugated pipe, the heat preservation pipe slides downwards along the inclined stay rod and is contacted with the trigger switch, at the moment, the supporting mechanism is connected with the end part of the cross rod, then the first push rod motor contracts, under the action of the inclined stay rod, the two limiting rods contract inwards and separate from the limiting holes, then the rotating motor drives the inclined stay rod to rotate downwards and incline downwards, meanwhile, the first electromagnetic valve is closed, after that, the corrugated pipe sleeved on the inclined stay rod slides out along the inclined stay rod, then the rotating motor drives the inclined stay rod to reset, the first push rod motor drives the two limiting rods to reset, the inclined stay rod is connected with the cross rod, then the supporting mechanism is disconnected with the cross rod, and the inner side and the outer side of the corrugated pipe can be cooled simultaneously on the assembly line by repeating the process, so that the cooling efficiency is improved.

The supporting mechanism comprises a supporting frame, the upper end of the supporting frame is provided with a moving assembly, the moving assembly comprises an L-shaped plate, two second electromagnetic valves are fixed at the lower end of the L-shaped plate and are respectively connected with a second water inlet pipe and a second air exhaust pipe, the L-shaped plate is provided with a clamping assembly, and the air suction pipe and the water outlet pipe are respectively connected with second one-way valves.

By adopting the structure, the L-shaped plate is moved through the moving assembly, the two second one-way valves are respectively connected with the two second electromagnetic valves, the L-shaped plate and the cross rod are fixed through the clamping assembly, the effect of the cross rod is supported when the cross rod is zero, the internal cooling and the water drainage can not be suspended, the corrugated pipe is ensured to continuously perform internal and external two-layer heat dissipation, and the cooling efficiency is further improved.

The movable assembly comprises a sliding rod and a threaded rod, the sliding rod and the threaded rod are arranged at the upper end of the supporting frame, the sliding rod and the threaded rod are distributed in parallel, an adjusting motor used for driving the threaded rod to rotate is mounted on the supporting frame, the sliding rod is provided with a movable rod in a sliding mode, the other end of the movable rod is in threaded connection with the threaded rod, a first mounting plate is fixed on the movable rod, a hydraulic cylinder is fixed on the first mounting plate, an output shaft of the hydraulic cylinder penetrates through the first mounting plate and the movable rod downwards, and an L-shaped plate is fixed at the end portion of the output shaft of the hydraulic cylinder.

By adopting the structure, the adjusting motor drives the threaded rod to rotate, the moving rod moves along the sliding rod and the threaded rod under the interaction of threads, the L-shaped plate is driven to change the position, and the height of the L-shaped plate can be changed by the expansion and contraction of the hydraulic cylinder, so that the L-shaped plate can move to the corresponding position.

The clamping assembly comprises a second mounting plate fixed on the L-shaped plate, a second push rod motor is fixed on the second mounting plate, an output shaft of the second push rod motor downwards penetrates through the second mounting plate, an extrusion block is fixed at the end of the second push rod motor, and an extrusion groove matched with the extrusion block is formed in the upper end of the cross rod.

By adopting the structure, the extrusion block is propped in the extrusion groove through the second push rod motor, so that the cross rod is extruded downwards, the tightness degree between the second electromagnetic valve and the second one-way valve is increased, water leakage and air leakage are prevented, the extrusion block is positioned in the extrusion groove, the cross rod can be prevented from shaking, and the stability of the cross rod is increased.

Compared with the prior art, the double-layer water cooling device for corrugated pipe production has the following advantages:

1. through cooling shower nozzle, diagonal brace, horizontal pole and rotatory nozzle, carry out water spray cooling to the inside and outside both sides user of bellows simultaneously, increase the cooling effect, improve cooling efficiency.

2. The cooling water inside the corrugated pipe is discharged through the water absorbing mechanism, so that environmental problems caused by the flowing of the cooling water everywhere are prevented, the pressure of the corrugated pipe to the diagonal brace can be reduced, and the equipment stability is improved.

3. Through practicing coupling mechanism and supporting mechanism, the bellows can continuous discharge, can not cause the cooling process to break, is applicable to the streamlined production more.

Drawings

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

FIG. 2 is a schematic view of the structure of the interior of the recovery tank of the present invention;

FIG. 3 is a schematic view of the structure of the inside of the bellows of the present invention;

FIG. 4 is a schematic view of the structure of the water outlet pipe and the water absorbing mechanism in the present invention;

FIG. 5 is a schematic view of a part of the water absorbing mechanism in the present invention;

FIG. 6 is a schematic perspective view of the connecting mechanism of the present invention;

FIG. 7 is a schematic view of a part of the structure of the connecting mechanism of the present invention;

FIG. 8 is a schematic view of the structure of the support mechanism of the present invention;

FIG. 9 is a schematic view of a clamping assembly according to the present invention;

in the figure: 1. a recovery box; 2. a cooling chamber; 3. a cold water pipe; 4. a branch pipe; 5. cooling the spray head; 6. a water leakage hole; 7. an annular cutting machine; 8. a support base; 9. a diagonal brace; 10. a connecting mechanism; 1001. a groove; 1002. a limiting hole; 1003. a mounting groove; 1004. a limit rod; 1005. a first push rod motor; 1006. a moving block; 1007. a diagonal rod; 1008. a first water inlet pipe; 1009. a first exhaust pipe; 1010. a first electromagnetic valve; 1011. a first one-way valve; 11. a cross bar; 12. a water outlet pipe; 13. rotating the spray head; 14. a bracket; 15. a support mechanism; 1501. a support frame; 1502. a second electromagnetic valve; 1503. a second one-way valve; 1504. a second water inlet pipe; 1505. a second exhaust pipe; 1506. a threaded rod; 1507. a slide bar; 1508. adjusting a motor; 1509. a moving rod; 1510. a first mounting plate; 1511. a hydraulic cylinder; 1512. an L-shaped plate; 1513. a second mounting plate; 1514. a second push rod motor; 1515. extruding a block; 16. a water absorbing mechanism; 1601. an air suction pipe; 1602. a vertical tube; 1603. a communicating pipe; 1604. a lifting tube; 1605. a shoulder; 1606. a spring is abutted tightly; 1607. a support rod; 17. a rotating motor; 18. the switch is triggered.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

Embodiments of the present patent are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the patent and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be configured and operated in a particular orientation, and are therefore not to be construed as limiting the patent.

In the description of this patent, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "disposed" are to be construed broadly, and may be fixedly connected, disposed, detachably connected, disposed, or integrally connected, disposed, for example. The specific meaning of the terms in this patent will be understood by those of ordinary skill in the art as the case may be.

Referring to fig. 1-9, this embodiment provides a double-layer water cooling device for bellows production, including a recovery box 1 and a support seat 8, the upper end of the recovery box 1 is provided with a cooling chamber 2, two ends of the cooling chamber 2 are provided with round holes, a bellows penetrates through the round holes at two ends, one end of the cooling chamber 2 is provided with a cold water pipe 3, the cold water pipe 3 is connected with a plurality of branch pipes 4, the branch pipes 4 extend into the cooling chamber 2, a plurality of cooling spray heads 5 are connected to the branch pipes 4, the lower end of the cooling chamber 2 is provided with water leakage holes 6, the side end of the cooling chamber 2 is provided with an annular cutter 7, the upper side end of the support seat 8 is rotatably provided with a diagonal brace 9, the support seat 8 is provided with a rotating motor 17 for driving the diagonal brace 9 to rotate, the end of the diagonal brace 9 is provided with a cross rod 11, a connecting mechanism 10 is arranged between the cross rod 11 and the diagonal brace 9, the cross rod 11 and the diagonal brace 9 is positioned in the bellows, the side end of the cross rod 11 is fixedly provided with a water outlet pipe 12, the end of the cross rod 12 is connected with a rotating spray head 13, one end of the cross rod 11 is fixedly provided with a support 14 far from the connecting mechanism 10, the end 14 of the cross rod 11 is fixedly provided with a water suction mechanism 15 on the inner wall 11, and the support mechanism is further provided with a water suction mechanism 15; cold water is input into the branch pipe 4 through the cold water pipe 3 and sprayed out by the cooling spray head 5 to cool the outer side of the corrugated pipe, the cooled water enters the recovery box 1 through the water leakage hole 6, the cooling water is input into the water outlet pipe 12 through the supporting mechanism 15 and the connecting mechanism 10, the inner cooling is performed by spraying the cooling water onto the inner wall of the corrugated pipe through the rotary spray head 13, the cooling efficiency is improved, and the water suction mechanism 16 can discharge accumulated water in the corrugated pipe to prevent the leakage of the cooling water.

The water absorbing mechanism 16 comprises an air suction pipe 1601 and a vertical pipe 1602, the air suction pipe 1601 is fixed at the side end of the cross rod 11, the vertical pipe 1602 is fixed at the lower end of the cross rod 11, a communicating pipe 1603 is connected between the upper end of the vertical pipe 1602 and the air suction pipe 1601, a lifting pipe 1604 is slidably arranged at the lower end of the vertical pipe 1602, a retaining shoulder 1605 is arranged at the lower end of the lifting pipe 1604, a supporting spring 1606 is sleeved outside the lifting pipe 1604, two ends of the supporting spring 1606 respectively abut against the retaining shoulder 1605 and the vertical pipe 1602, a supporting rod 1607 is fixed at the lower end of the lifting pipe 1604, and the lower end of the supporting rod 1607 abuts against the inner wall of the corrugated pipe; the supporting spring 1606 can extrude the lower part of the lifting pipe 1604, so that the supporting rod 1607 is supported against the inner wall of the corrugated pipe, the distance between the lifting pipe 1604 and the inner wall of the corrugated pipe is always kept in the use process of the corrugated pipe, the recovery of cooling water can be ensured, and the inner wall of the corrugated pipe is not scratched.

The connecting mechanism 10 comprises a groove 1001 formed in the lower surface of the cross rod 11, limit holes 1002 are formed in two sides of the groove 1001, the end parts of the diagonal brace 9 are inserted into the groove 1001, a mounting groove 1003 is formed in the end parts of the diagonal brace 9, slide holes are formed in two sides of the mounting groove 1003, a limit rod 1004 is arranged in the slide holes in a sliding mode, a first push rod motor 1005 is fixed at the bottom of the mounting groove 1003, a moving block 1006 is fixed at the end part of the first push rod motor 1005, two diagonal rods are fixed on the moving block 1006, one end of the limit rod 1004 is provided with a diagonal hole, the diagonal rod 1007 slides through the diagonal hole, the other end of the limit rod 1004 is inserted into the limit hole 1002, a first water inlet pipe 1008 and a first air exhaust pipe 1009 are fixed at the lower end of the diagonal brace 9, a first electromagnetic valve 1010 is connected to the first water inlet pipe 1008 and the first air exhaust pipe 1009, a first one-way valve 1011 is connected to the air suction pipe 1601 and the water outlet pipe 12, the end part of the first one-way valve 1011 abuts against a connecting port of the first electromagnetic valve 1010, and a trigger switch 18 is mounted at the side end of the supporting seat 8; when the annular cutting machine 7 cuts off the corrugated pipe, the heat-insulating pipe slides downwards along the inclined stay bar 9 and is contacted with the trigger switch 18, at the moment, the supporting mechanism 15 is connected with the end part of the cross rod 11, then the first push rod motor 1005 contracts, under the action of the inclined stay bar 1007, the two limiting rods 1004 contract inwards and separate from the limiting holes 1002, then the rotating motor 17 drives the inclined stay bar 9 to rotate downwards and incline downwards, meanwhile, the first electromagnetic valve 1010 is closed, then the corrugated pipe sleeved on the inclined stay bar 9 slides out along the inclined stay bar 9, the rotating motor 17 drives the inclined stay bar 9 to reset, the first push rod motor 1005 drives the two limiting rods 1004 to reset, the inclined stay bar 9 is connected with the cross rod 11, then the supporting mechanism 15 is disconnected with the cross rod 11, and the inner side and the outer side of the corrugated pipe can be cooled simultaneously on the assembly line by repeating the process, so that the cooling efficiency is improved.

The supporting mechanism 15 comprises a supporting frame 1501, a moving assembly is arranged at the upper end of the supporting frame 1501, the moving assembly comprises an L-shaped plate 1512, two second electromagnetic valves 1502 are fixed at the lower end of the L-shaped plate 1512, the two second electromagnetic valves 1502 are respectively connected with a second water inlet pipe 1504 and a second air exhaust pipe 1505, a clamping assembly is arranged on the L-shaped plate 1512, and a second one-way valve 1503 is connected on each of the air suction pipe 1601 and the water outlet pipe 12; through the position of remove the subassembly removal L shaped plate 1512 for two second check valves 1503 are connected with two second solenoid valves 1502 respectively, when fixed L shaped plate 1512 and horizontal pole 11 through the joint subassembly, play the effect of zero hour support horizontal pole 11, can not pause inside cooling and drainage moreover, guarantee that the bellows can last to carry out inside and outside two-layer heat dissipation, further improve cooling efficiency.

The moving assembly comprises a sliding rod 1507 and a threaded rod 1506, the sliding rod 1507 and the threaded rod 1506 are arranged at the upper end of a supporting frame 1501, the sliding rod 1507 and the threaded rod 1506 are distributed in parallel, an adjusting motor 1508 for driving the threaded rod 1506 to rotate is arranged on the supporting frame 1501, a moving rod 1509 is arranged on the sliding rod 1507 in a sliding mode, the other end of the moving rod 1509 is in threaded connection with the threaded rod 1506, a first mounting plate 1510 is fixed on the moving rod 1509, a hydraulic cylinder 1511 is fixed on the first mounting plate 1510, an output shaft of the hydraulic cylinder 1511 penetrates through the first mounting plate 1510 and the moving rod 1509 downwards, and an L-shaped plate 1512 is fixed at the end portion of the output shaft of the hydraulic cylinder 1511; the adjusting motor 1508 drives the threaded rod 1506 to rotate, and under the interaction of the threads, the moving rod 1509 moves along the sliding rod 1507 and the threaded rod 1506, so that the L-shaped plate 1512 is driven to change positions, and the height of the L-shaped plate 1512 can be changed by the extension and retraction of the hydraulic cylinder 1511, so that the L-shaped plate 1512 can move to the corresponding position.

The clamping assembly comprises a second mounting plate 1513 fixed on an L-shaped plate 1512, a second push rod motor 1514 is fixed on the second mounting plate 1513, an output shaft of the second push rod motor 1514 downwards penetrates through the second mounting plate 1513, an extrusion block 1515 is fixed at the end part of the second push rod motor 1514, and an extrusion groove matched with the extrusion block 1515 is formed in the upper end of the cross rod 11; the extrusion block 1515 is abutted in the extrusion groove through the second push rod motor 1514, so that the cross rod 11 is extruded downwards, the tightness degree between the second electromagnetic valve 1502 and the second one-way valve 1503 is increased, water and air leakage are prevented, the extrusion block 1515 is located in the extrusion groove, the cross rod 11 can be prevented from shaking, and the stability of the cross rod 11 is increased.

The fixing modes are all the most commonly used fixing connection modes in the field, such as welding, bolting and the like; the above electrical components, such as the rotating motor 17, the adjusting motor 1508, the first electromagnetic valve 1010, the second electromagnetic valve 1502, the annular cutter 7, and the trigger switch 18, are all products of the prior art, and can be directly purchased and used in the market, and the specific principle is not repeated.

The working principle of the invention is as follows:

cold water is input into the branch pipe 4 through the cold water pipe 3 and sprayed out of the cooling spray head 5 to cool the outer side of the corrugated pipe, the cooled water enters the recovery box 1 through the water leakage hole 6 to realize external cooling, the cooling water is input into the water outlet pipe 12 through the first water inlet pipe 1008, the first electromagnetic valve 1010 and the first one-way valve 1011, then sprayed onto the inner wall of the corrugated pipe through the rotary spray head 13 to perform internal cooling, the air extractor is connected with the first air extraction pipe 1009, suction force is generated to the air suction pipe 1601 through the other group of the first one-way valve 1011 and the first electromagnetic valve 1010, the cooling water in the corrugated pipe is sucked through the lifting pipe 1604, the lower part of the lifting pipe 1604 can be extruded by the abutting spring 1606, the supporting rod 1607 abuts against the inner wall of the corrugated pipe, the distance between the lifting pipe 1604 and the inner wall of the corrugated pipe is always kept in the use process of the corrugated pipe, the device can ensure the recovery of cooling water without scratching the inner wall of the corrugated pipe, when the corrugated pipe is cut off by the annular cutting machine 7, the heat preservation pipe slides downwards along the inclined supporting rod 9 and contacts with the trigger switch 18, at the moment, the adjusting motor 1508 drives the threaded rod 1506 to rotate, the moving rod 1509 moves along the sliding rod 1507 and the threaded rod 1506 under the interaction of threads, the L-shaped plate 1512 is driven to change positions, the two second one-way valves 1503 are respectively connected with the two second electromagnetic valves 1502, the extrusion block 1515 is abutted in the extrusion groove through the second push rod motor 1514, the cross rod 11 is extruded downwards, the tightness degree between the second electromagnetic valves 1502 and the second one-way valves 1503 is increased, the air leakage is prevented, the extrusion block 1515 is positioned in the extrusion groove, the cross rod 11 can be prevented from shaking, the stability of the cross rod 11 is increased, then the second electromagnetic valves 1502 are opened, the first electromagnetic valves 1010 are disconnected, then the first push rod motor 1005 contracts, under the action of the diagonal rod 1007, the two limiting rods 1004 contract inwards and separate from the limiting holes 1002, then the rotating motor 17 drives the diagonal rod 9 to rotate downwards and incline downwards, then the corrugated pipe sleeved on the diagonal rod 9 slides out along the diagonal rod 9, then the rotating motor 17 drives the diagonal rod 9 to reset, the first push rod motor 1005 drives the two limiting rods 1004 to reset, the diagonal rod 9 is connected with the cross rod 11, after that, the supporting mechanism 15 resets, the connection with the cross rod 11 is disconnected, the inner side and the outer side of the corrugated pipe can be cooled simultaneously on the assembly line by repeating the processes, the cooling efficiency is improved, and the output speed of the corrugated pipe cannot be influenced

In conclusion, through the cooling spray heads 5, the diagonal braces 9, the cross bars 11 and the rotary spray heads 13, water spray cooling is carried out on users on the inner side and the outer side of the corrugated pipe, so that the cooling effect is improved, and the cooling efficiency is improved; the cooling water in the corrugated pipe is discharged through the water absorbing mechanism 16, so that environmental problems caused by the flowing of the cooling water around are prevented, the pressure of the corrugated pipe on the diagonal brace 9 can be reduced, and the stability of equipment is improved; through practicing coupling mechanism 10 and supporting mechanism 15, the bellows can continuous discharge, can not cause the cooling process to break, is applicable to the streamlined production more.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. The utility model provides a double-deck water cooling plant is used in bellows production, including collection box (1) and supporting seat (8), a serial communication port, the upper end of collection box (1) is provided with cooling chamber (2), round hole has been seted up at cooling chamber (2) both ends, the bellows runs through both ends round hole, the one end of cooling chamber (2) is provided with cold water pipe (3), and be connected with a plurality of branch pipes (4) on cold water pipe (3), branch pipe (4) extend to cooling chamber (2) inside, and be connected with a plurality of cooling shower nozzles (5) on branch pipe (4), leak hole (6) have been seted up to the lower extreme of cooling chamber (2), annular cutting machine (7) are installed to the side end of cooling chamber (2), supporting seat (8) upper side end rotation is provided with diagonal brace (9), and install on supporting seat (8) and be used for driving diagonal brace (9) pivoted rotating motor (17), the tip of diagonal brace (9) is provided with horizontal pole (11), and be equipped with coupling mechanism (10) between horizontal pole (11) and diagonal brace (9), horizontal pole (11) and diagonal brace (9) are located inside (11), water outlet pipe end (12) are kept away from in fixed connection with horizontal pole (14), the bracket (14) is propped against the inner wall of the corrugated pipe, the cross rod (11) is also provided with a water absorbing mechanism (16), and the upper end of the connecting mechanism (10) is provided with a supporting mechanism (15); the utility model provides a mechanism (16) absorbs water, including breathing pipe (1601) and vertical pipe (1602), the side of breathing pipe (1601) at horizontal pole (11) is fixed, vertical pipe (1602) is fixed in the lower extreme of horizontal pole (11), and be connected with communicating pipe (1603) between the upper end of vertical pipe (1602) and breathing pipe (1601), the lower extreme slip of vertical pipe (1602) is provided with lifting tube (1604), and the lower extreme of lifting tube (1604) is provided with keeps off shoulder (1605), the cover is equipped with and supports tight spring (1606) in lifting tube (1604) outside, and support the both ends of tight spring (1606) and keep off shoulder (1605) and vertical pipe (1602) respectively offset, the lower extreme of lifting tube (1604) is fixed with bracing piece (1607), and the lower extreme of bracing piece (1607) offsets with the bellows inner wall.

2. The double-layer water cooling device for corrugated pipe production according to claim 1, wherein the connecting mechanism (10) comprises a groove (1001) formed in the lower surface of the cross rod (11), limiting holes (1002) are formed in two sides of the groove (1001), the end portions of the limiting rods (9) are inserted into the groove (1001), mounting grooves (1003) are formed in the end portions of the limiting rods (9), sliding holes are formed in two sides of the mounting grooves (1003), limiting rods (1004) are slidably arranged in the sliding holes, a first push rod motor (1005) is fixedly arranged at the bottom of the mounting grooves (1003), a moving block (1006) is fixedly arranged at the end portion of the first push rod motor (1005), two inclined rods (1007) are fixedly arranged on the moving block (1006), one ends of the limiting rods (1004) are provided with inclined holes, the other ends of the inclined rods (1007) are slidably inserted into the limiting holes (1002), a first water inlet pipe (1008) and a first air suction pipe (1009) are fixedly arranged at the lower ends of the inclined rods (1004), a first water inlet pipe (1008) and a first air suction pipe (1009), a first air suction valve (1010) is fixedly connected with the first electromagnetic valve (1010) and a first electromagnetic valve (1011) are fixedly connected with the first electromagnetic valve (1011) at the end portion of the first electromagnetic valve (1010), and a trigger switch (18) is arranged at the side end of the supporting seat (8).

3. The double-layer water cooling device for corrugated pipe production according to claim 1 or 2, wherein the supporting mechanism (15) comprises a supporting frame (1501), a moving assembly is arranged at the upper end of the supporting frame (1501), the moving assembly comprises an L-shaped plate (1512), two second electromagnetic valves (1502) are fixed at the lower end of the L-shaped plate (1512), the two second electromagnetic valves (1502) are respectively connected with a second water inlet pipe (1504) and a second air exhaust pipe (1505), a clamping assembly is arranged on the L-shaped plate (1512), and second check valves (1503) are respectively connected on the air suction pipe (1601) and the water outlet pipe (12).

4. A double-deck water cooling plant is used in bellows production according to claim 3, characterized in that, remove the subassembly and include slide bar (1507) and threaded rod (1506), slide bar (1507) and threaded rod (1506) set up in the upper end of support frame (1501), and slide bar (1507) and threaded rod (1506) parallel distribution, install on support frame (1501) and be used for driving threaded rod (1506) pivoted accommodate motor (1508), slide bar (1507) are last to slide and are provided with movable rod (1509), and the other end and threaded rod (1506) of movable rod (1509) threaded connection, be fixed with first mounting panel (1510) on movable rod (1509), and be fixed with pneumatic cylinder (1511) on first mounting panel (1510), the output shaft of pneumatic cylinder (1511) runs through first mounting panel (1510) and movable rod (1509) downwards, L shaped plate (1512) is fixed at the output shaft tip of pneumatic cylinder (1511).

5. The double-layer water cooling device for corrugated pipe production according to claim 3, wherein the clamping assembly comprises a second mounting plate (1513) fixed on the L-shaped plate (1512), a second push rod motor (1514) is fixed on the second mounting plate (1513), an output shaft of the second push rod motor (1514) penetrates through the second mounting plate (1513) downwards, an extrusion block (1515) is fixed at the end of the second push rod motor, and an extrusion groove matched with the extrusion block (1515) is formed in the upper end of the cross rod (11).