KR20050093736A - An asymmetric punched spiral pipe and a manufacturing machine - Google Patents

Abstract

    The present invention, the soft ground consisting of a viscous soil layer, such as coastal and lake landfills are perforated used in the water dehydration promotion method contained in the ground during the construction of the ground for the purpose of building industrial complexes such as road industrial complex, airport, housing site Manufacture of spiral corrugated perforated pipes, wherein water in the ground flows from the perforated grooves to be collected to the ground along the grooves of the spiral consisting of asymmetric caterpillar tracks. In the asymmetric spiral corrugated perforated pipe which is made of different asymmetric spirals, the inflow of water accelerates the speed of dehydration to the ground along the wide valleys of the spirals, which doubles the drainage capacity and the soft ground stabilization effect.

   Fastening of underground anchors in the construction of ultra soft ground, such as coastal landfills, requires fastening of metal anchor plates with the same protrusions as those of the asymmetrical spirals in order to secure the vertically buried grounds safely for deeper depth construction. , The perforated pipe is buried vertically underground to improve the ability to drain soft ground

Maximizing that is the technical point.

Description

Asymmetric punched spiral pipe and a manufacturing machine

   The present invention is a perforation used in the vertical drainage method of the soft ground improvement method of discharging the moisture in the ground to the ground in a short time in the construction of a soft ground composed of viscous soil layer such as coast and lake to road industrial complex, airport, etc. The present invention relates to a drainage perforated pipe used for the purpose of burying a spiral or cylindrical corrugated pipe underground and dehydrating moisture in the ground within a short period of time, and a method for manufacturing the same. In order to prevent breakage of the drainage effect or to reduce the drainage effect, the angle of the spiral and the symmetry of the uneven part are different from each other to mitigate external shocks and to form the most efficient waterway to strengthen the function of the perforated pipe.

     Filtration in soft ground for the purpose of dehydration of water contained in the ground during reinforcement of the ground for the purpose of construction of roads, harbors, large-scale housing projects, etc. in landfills or soft ground reclaimed in rivers, lakes, swamps, coasts, etc. Spiral or cylindrical corrugated perforated tube with nonwoven fabric is inserted into the steel pipe casing, and the corrugated drainage pipe and steel pipe casing are fastened with underground anchor plate to bury underground. Does not eject the incoming water to the ground properly, so it takes a long time to settle the ground.In particular, when constructing the long core, the anchor plate and the perforated pipe are separated, and when the casing is collected, the perforated pipe comes up to the ground by the casing. Is generated, and the effect of earth pressure after construction When bending occurs when the drain pipe is twisted in various directions due to the pressure generated, the shapes of the convex and concave curved portions formed by the concave and convex curves are changed, resulting in a change in the shape of the waterway in the pre-formed perforated pipe, which causes deterioration of the drainage function. Due to the long period of soft ground stabilization, the air is increased, and there is a high possibility of floating subsidence due to ground disturbance, and it is not fixed to the depth of construction and the earth pressure is not properly secured with the anchor plate during construction. There are always a lot of problems caused by not knowing the change of the merit pipe.

The present invention is devised to solve the conventional problems as described above, the purpose of which is to efficiently drain the waterway formed in the perforated pipe itself during the construction of the perforated pipe underground for the purpose of promoting the dehydration of soft ground such as landfill When the water flows into the perforated tube has a spiral of a structure that discharges a large amount of water to the ground, and if the nonwoven fabric is covered in the molded perforated tube as described above, it is natural to have a deviation between the convex curved portion and the concave curved portion of the endless spiral of the unevenness. Through the concave bend where the water flows through the non-woven fabric and the convex bend is formed, another channel is formed in the inner channel of the perforated pipe, the inner circumferential surface of the nonwoven fabric, and the concave bend, which has a double drainage effect. It is in the molding of perforated corrugated spiral perforated pipe.

 The plastic synthetic liquid resin injected from the extrusion die into the hole tube molding machine in the mandrel is vacuum formed and cooled along the asymmetric spiral outer circumferential surface formed inside the molding machine while passing through the molding machine. It is a structure designed to have a spiral structure.A liquid resin is adsorbed to the outside of the molding machine due to the rotation and vacuum of the molding machine in the mandrel to form a spiral perforated tube and simultaneously cooled to maintain the shape of the spiral perforated tube. When passing through a bunch of perforated cutters fixed to the outside of the extrusion die, a portion of the inner concave bend is naturally formed by the cutter attached to the perforated holder, and the perforated pipe is bonded to the filtration nonwoven fabric provided in a straight line. la It is a method of manufacturing a nonwoven fabric by adhesion with a non-flammable resin while passing through it, so that a perforated pipe can be formed regardless of the gap (pitch) and the shape of the spiral with different spirals, and the water permeability is doubled. It is an object of the present invention to provide a spiral perforated tube and its manufacturing method which can maximize the.

 The present invention to achieve the object as described above and to solve the conventional functions of the present invention is an injection die in which a plastic liquid resin is injected, and a liquid resin inlet molding unit chained with the mandrel to rotate the mandrel and the molding machine therein The liquid resin flowing into the rotating molding machine is sucked by the vacuum pump to adsorb the liquid resin to the inner surface of the molding machine, and cooled by cooling water to form a hollow tube, which is fixed to the outer peripheral surface of the extrusion die. Fixed perforated bundle part to automatically perforate a certain portion of the inner concave bent by the transfer of the perforated pipe, belt type drive unit for continuously moving the perforated pipe continuously by forwarding the molded perforated pipe at the same speed as the molding, Injecting non-flammable resin according to the speed Dividing parts of the nonwoven fabric bonded to the crying of a standard spiral yugonggwan different asymmetric perforated tube and a manufacturing method in the technical gist.

 The extrusion die transfers the liquid resin to the mandrel inlet in the shape of a pipe formed on the inner and outer circumferential surfaces, and the transferred liquid resin is injected into the outer wall of the molding machine by the liquid resin introduced by the centrifugal force by the rotation of the mandrel. The liquid resin moved to the outer circumferential surface is molded into the shape of the asymmetrical molding machine in the mandrel by the vacuum of the vacuum pump, and the molded liquid resin is cooled by the coolant to maintain its shape and is transported horizontally by a take-off machine. A portion of the inner concave bent portion is drilled by the cutter fixed inside the perforated pipe to form and transport the inlet hole of water, and the nonwoven fabric is continuously bonded to the nonwoven fabric by the nonflammable adhesive through the nonwoven adhesive line installed in the transfer line. Complements the asymmetric perforated corrugated spiral perforated tube with caterpillar The.

 Hereinafter, the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view illustrating a molding process of the asymmetric perforated corrugated spiral hole tube of the present invention, wherein the liquid resin introduced through the plastic synthetic liquid inlet 3 is continuously rotated by the driving of the mandrel rotation control motor 6. Moving to the surface of the molding machine by the centrifugal force of the rotating mandrel molding machine while passing through the mandrel molding machine having an asymmetric spiral pleats, and vacuum suction generated from the vacuum pump 11 is used to draw air inside the molding machine through the vacuum port hole 12. At the time of suction, the liquid resin is absorbed by the convex and concave curved surfaces of the asymmetric spiral inside the molding machine, and is formed into the same shape as the asymmetric spiral inside the molding machine, and is transferred to the adsorbed state by the rotation of the mandrel. , The liquid resin transferred to the adsorption state is cooled through the cooling water inlet 14 Is cooled and molded in the state of being adsorbed by the coolant injection hole through the cooling water discharge port 13 to complete the corrugated hole tube having an asymmetric spiral, and the forming of the asymmetric spiral hole tube is carried in a straight line by a belt driven feeder. And the inner concave bent portion is formed by the cutter blade through the punching cutter holder installed by the fixed punching cutter adjusting device 2 fixed by the extrusion die, and the punching hole 19 of a certain size is formed and transferred on the continuous straight line line. It illustrates the process to be manufactured.

 FIG. 2 is a cross-sectional view of eight asymmetric perforated corrugated spiral perforated tubes formed by the above manufacturing process, wherein the filtration nonwoven fabric 100 surrounds the convex curved portion 101 of the perforated tube, and the size of the convex curved portion 103 is the concave curved portion 104. Have a larger and deeper asymmetric pleat helix, the round of the convex bend has a gentle inclination angle with R8 (105), the concave bend is shaped to have an asymmetric round of R2.7 ~ 3.0, The wrinkle angle of the uneven portion to be formed is made of steep slopes of 33 ° to 37 ° (107), and the moisture introduced into the hole along the absorption perforation hole 108 formed at regular intervals causes a large amount of moisture to flow to the ground along the channel of the inclination angle. The constant empty space created between the discharge and the nonwoven fabric and the perforated tube forms another channel on the outside, so that moisture that does not enter the internal absorption drill hole is along the outer channel above. It is complete with asymmetrical pleated perforated tube perforated spiral structure with a dual effect drainage discharged onto.

 FIG. 3 is a cross-sectional view of a large diameter asymmetric perforated corrugated spiral perforated tube having 12 asymmetric spiral corrugations, and has a structure as shown in FIG. 2.

 Figure 4 is a cross-sectional view showing a fixed punch cutter holder 17 shown in the manufacturing example of Figure 1, the circular 360 ° all directions are composed of the cutter blade 312, the lower screw to secure the cutter blade Formed in the form and configured to be able to arbitrarily adjust the height of the cutter blade in the height adjustment holder 308 that is fixed in a separate circular shape fixed to the cutter bunch support 304 and extruded to the end of the cutter bunch support made in a straight line By fastening the fixing ring 305 that can be fixed to the outer peripheral surface of the die, the cutter bundle is fixed to the rear of the straight-lined cold forming inside the asymmetric spiral corrugated hole tube to be formed and to adjust the effective size of the hole drilled in the concave curved portion of the spiral. The cutter height adjustment groove 306 adjusts the size of the effective hole of the punch and is formed, and at the same time, a portion of the inner concave curved portion of the spiral is made of metal. Is configured such that the perforation by the cutter blade.

 FIG. 5 is an exemplary view illustrating a nonwoven fabric adhering process installed in a straight line by a take-up machine located in the rear of the asymmetric perforated corrugated spiral hole tube of FIG. The nonwoven fabric surrounds the outer circumferential surface of the convex curved portion 405 of the perforated corrugated perforated tube, and the nonwoven fabric cross-section 409 is sealed by the adhesive force of the liquid through the liquid resin inlet 403 of the incombustible solid resin supply device. In order to prevent foreign substances from flowing into the outside of the nonwoven fabric and the perforated pipe when the underground is buried, and the feed rate of the filtration nonwoven fabric 406 and the feed rate of the perforated pipe are the same, the resin inflow regulator is used to control the inflow of the adhesive. Efficient bonding ensures that the nonwoven fabric has the ability to completely wrap the asymmetric corrugated perforated tube To be done.

 Fig. 6 is a perspective view showing an asymmetric perforated corrugated spiral perforated tube completed through the nonwoven fabric-attached sub-line, and the adhesive line 502 of the non-combustible resin adhesive on the center line of the nonwoven fabric 501 surrounding the perforated tube 503 is perfectly. It is configured to complete the adhesive part to prevent foreign matters from penetrating the inside of the hole.

 Fig. 7 is a perspective view of a metal anchor plate for supporting underground laying of spiral perforated pipes (application number: 10-2005-0049487) filed by the applicant, and fixed anchor plate protrusions formed with the same angle and shape of the spiral of the asymmetric perforated corrugated spiral perforated pipe. The underground buried metal fixing plate of the perforated pipe by the grooves 601 and 601-a makes conical grooves 609 in the lower plate of the plate according to the soft strength of the ground, so that it is easier to bury them. The casing fixing support 607 is formed in a circular shape to prevent the flow of water, so that the anchor plate can be selected and used according to the strength and construction depth of the soft ground, and asymmetrical with the filtration nonwoven fabric 702 as shown in FIG. The spiral corrugated perforated tube 701 is completely fixed by the lower plate 704 of the metal anchor plate and the body 703 of the anchor plate (705). The asymmetric perforated corrugated spiral perforated pipe and anchor plate are constructed so that they do not escape even under the impact of pressure and earth pressure during installation.

As shown in FIG. 9, the asymmetric perforated corrugated spiral perforated tube completed by the manufacturing process as described above is a nonwoven fabric 802 due to the vertical movement of the casing 804 by consolidation of the pouring machine on the ground 801 into the ground of the soft ground 805. ) Is an exemplary view in which the asymmetric perforated spiral corrugated perforated pipe 803 is embedded inside the soft ground in a fixed state by a metal anchor plate 806 having a spiral protrusion, and FIG. 10 is completed in the soft ground. It is a corrugated perforated tube with asymmetrical spirals that are separated into the ground of the steel pipe casing and are buried underground vertically after being laid, and the double channel through the narrow channel formed outside the nonwoven fabric and perforated pipe as well as the wide channel inside the spiral perforated pipe. With drainage effect, drainage capacity is more efficient,

 As the earth pressure resistance increases due to the structure of asymmetrical spiral, it is fixed vertically in the ground to complete the dehydration promotion function smoothly.

 The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention as claimed in the claims. Such changes will fall within the scope of the claims.

 As described above, in order to prevent frequent deformation of a general spiral or circular corrugated hollow tube, the present invention is fixed inside the same line as the conveyance of the hollow tube while simultaneously forming the spiral of the uneven spiral in different asymmetry. Perforations of a certain size are automatically made to a certain portion of the inner concave line by passing through the perforated bundle, and dirt contained in the water flowing from the ground flows in, preventing the perforation holes of the perforated pipes from being blocked and reducing the drainage function. Filter nonwoven fabric adhesive line for the purpose to be installed in the rear of the take-off machine is configured to be sealed by thermoplastic resin according to the feed rate of perforated pipe, so the resistance against earth pressure is more effective than ordinary spiral when laying underground. Water along the internal and external channels Since it has a double drainage effect of draining to the top and is equipped with a dedicated metal anchor plate having the same protrusion groove as the above spiral, it is possible to bury the ground due to the problems caused by the detachment of anchor plates and perforated pipes, which frequently occur during buried construction, The construction time is shortened, and the double drainage capability of the asymmetric spiral makes it possible to shorten the period of soft ground improvement and all the work is done in one line, so productivity is more efficient and the material cost is very useful. It is an invention.

1 is a perspective view of a molded part of the asymmetric perforated corrugated spiral hole tube of the present invention;

Figure 2 is a cross-sectional view and a molding example of the eight asymmetric perforated corrugated spiral hole tube of the present invention,

Figure 3 is a cross-sectional view and molding example of the 12 asymmetric spiral corrugated hole of the present invention

Figure 4 is a cross-sectional view of the internal fixed automatic punching device for automatically drilling a certain portion of the inner concave curved portion of the asymmetric punching spiral spiral perforated pipe of the present invention regardless of the speed of the continuous extrusion-extrusion molding, moving,

5 is a perspective view of a process of adhering a filtration nonwoven fabric by a nonflammable solid resin in the same line conveyed through the forming apparatus and the drilling apparatus of the asymmetric perforated corrugated spiral hole tube of the present invention,

6 is an exemplary view of a nonwoven fabric covered with an asymmetric perforated corrugated spiral hole tube of the present invention,

7 is a cross-sectional view of the underground buried anchor plate fastened in line with the asymmetric perforated corrugated spiral perforated pipe of the present invention (applicant number: 10-2005-0049487)

8 is a perspective view of the asymmetric perforated corrugated spiral hole pipe and the exclusive anchor plate of the present invention are fastened to each other,

9 is an exemplary view in which the asymmetric perforated corrugated spiral perforated tube of the present invention is fixed by a metal fixing anchor plate, and is buried underground by casing of the pouring equipment of the vertical drainage method.

10 is an exemplary view of the asymmetric perforated corrugated spiral perforated tube of the present invention, which is embedded in the ground by vertical drainage consolidation placing equipment, and is separated from the casing and vertically embedded in the soft ground.

<Description of the symbols for the main parts of the drawings>

(1) (1-a): die extrusion machine

(2): Fixed Perforation Carter Adjusting Device

(3): plastic liquid resin inlet

(4) (4-a): forming mandrel drive shaft

(5): chain drive shaft for mandrel rotation

(6): motor for adjusting mandrel rotation

(7): auxiliary dies and mandrel rotating bearings

(8): mandrel forming machine with asymmetric spiral corrugation with rotary drive shaft

(9): molding dies and mandrel fixing auxiliary dies

10: asymmetric spiral vacuum adsorption molding sphere

11: vacuum pump

12: vacuum port hole

(13): cooling water discharge port

14: cooling water inlet

15: belt driven puller

(16): perforator cutter support

(17): Perforated Cutter Holder for Cutter Blade Height Adjustment

(18): Spiral perforated tube finished product with circular perforated cutter deformation-resistant forming part

19: concave protrusion perforation asymmetric spiral corrugated pipe forming part

(100): Filtration nonwoven wrapping 8 holes asymmetric spiral corrugated pipe

(101): Convex curve of small-diameter asymmetric spiral corrugated tube

(102): Channels created outside of nonwovens and perforated pipes

(103): Spiral channel that drains large amounts of water

(104): Water inflow through the filtered nonwoven fabric, drilled at regular intervals

        Concave bend

105: R8 convex bend

(106): concave curved portion of R3.5 ~ 3.0

(107): Asymmetric spiral corrugation with infinitely orbital angle of inclination of 33 ° to 37 °

         Convex curve

(108): Water inflow hole drilled at regular intervals

(200): Filtration nonwoven wrapping 12 holes asymmetric spiral corrugated pipe

201: convex curve of large diameter asymmetric spiral corrugated tube

(202): concave curved portion of large diameter asymmetric spiral corrugated pipe

301: punch cutter blade

302: Perforated Cutter Fixed Holder

303: Perforated Cutter Height Adjustable Holder

304: Cutter Bundle Support

305: perforator fixing ring

306: groove cutter height adjustment groove

307: perforated cutter height adjustment screw bundle

308: Perforated Cutter Height Adjustable Holder

312: Circular Punch Cutter

313: bolt-type punching cutter fixed part

401: incombustible solid resin inlet

402: low temperature heater device for resin dissolution

(403): liquid resin inlet for bonding

404: liquid resin inflow regulator

405: asymmetric spiral wrinkled perforated tube convex curve

406: Filtration Nonwoven

408: Filtration Nonwoven Adhesive Line Part

(409): nonwoven crossing

501: Filtration nonwoven fabric surrounding asymmetric spiral pleated perforated tube

502: Nonwoven Fabric Line

503: asymmetric perforated corrugated spiral perforated tube

601: fixing anchor plate protrusion groove

602: fixed anchor plate body portion having a circular shape

(603): anchor plate lower plate for casing support

604: reverse bending part for casing protection when bending under pressure

(607): Casing outer leveling fixed support when constructing long depth

609: conical groove for strong ground burial

701: asymmetric perforated corrugated spiral perforated tube

702: Filtration Nonwoven

(703): Anchor plate body fastened identically to asymmetric spiral corrugated pipe

704: dedicated anchor plate fixed bottom

(705): Expansion of the shape where the anchor plate protrusion fixing part is fixed to the corrugated pipe

(801): soft ground surface display unit

802: Filtration Nonwoven

(803): asymmetric spiral corrugated perforated tube

804: steel pipe casing connected to the consolidation pouring machine

(805): Soft ground

806: Dedicated metal anchor plate for holding and supporting the lower part of the asymmetric spiral corrugated perforated tube

(901): perforated asymmetric spiral corrugated perforated tube

(902): filtered nonwoven fabric wrapping perforated pipe

(903): soft ground

(904): Metal anchor plate perfectly fixed in the ground by deformation by pressure when buried vertically in the ground while fixing and supporting spiral perforated pipe

(905): Metal anchor plate which is in close contact with the anchor plate and is fixed and supported to prevent foreign matter from entering into the perforated tube

Claims (4)

At the same time as the mandrel rotates, the liquid resin injected into the molding machine through the vacuum port is in close contact with the outer wall of the molding machine by the centrifugal force caused by the rotation of the molding machine and the suction power of the vacuum pump. Asymmetric perforated corrugated spiral perforated tube molded by a molding machine having a different corrugation shape, and a manufacturing method thereof. The method of claim 1,        In the forming process of the asymmetric spiral corrugated perforated tube, the inner concave curved portion by the circular cutter of the perforated bundle mounted on the extrusion support outer peripheral surface fixed support inside the perforated tube is uniformly drilled at a constant feed rate, so that the asymmetric spiral corrugated wrinkle is formed at the same time. Asymmetric perforated corrugated spiral perforated tube to be perforated, and a method of manufacturing the same. The method of claim 2,        An asymmetric perforated corrugated spiral perforated tube in which a filtration nonwoven fabric is hermetically sealed around the outer circumferential surface of the perforated asymmetric spiral corrugated pipe by a thermoplastic resin bonding apparatus installed after the transfer process of the asymmetric perforated corrugated spiral perforated tube, and a manufacturing method thereof       In the above-mentioned perforation device of the asymmetric perforated corrugated spiral perforated pipe, the internal fixed perforator of the asymmetric spiral corrugated pipe having a fixed perforated cutter blade of a screw structure to arbitrarily adjust the height and the number of perforations of the circular cutter blade.