KR101454772B1 - Producing method for waterdraining board with non-woven filter thermobonded thereon - Google Patents

Abstract

The present invention provides a method for manufacturing a drain board which is characterized by including: a heating unit transfer step of transferring a thermoplastic-extruded flat board wound around a feed roller for the thermoplastic-extruded flat board to a heating unit; a heating step of heating the thermoplastic-extruded flat board transferred to the heating unit by using a heater; a molding unit transfer step of transferring the thermoplastic-extruded flat board heated in the heating step to a molding unit; a drain board molding step of disposing a lower mold on which a protrusion protruding from a bottom surface of the thermoplastic-extruded flat board transferred in the molding unit transfer step, is formed at a regular interval and arrangement, transferring and supplying a nonwoven fabric wound around a nonwoven fabric feed roller between upper molds disposed on a top surface of the thermoplastic extruded-flat board, descending the upper mold and concurrently elevating a lower mold so as to contact each other, starting to mold upper surfaces of a plurality of protrusions, and concurrently heat-bonding and fixing the nonwoven fabric on the upper surface of the protrusion to complete the molding to the lower surface of the protrusions; a cooling step of in a state after descending the upper mold and elevating the lower mold to mold in the drain board molding step, cooling by using the drain board is cooled in this state by water flowing inside of the lower mold in order to prevent a wrinkle and deformation of the drain board; and a cutting the drain board by using water introduced into the lower mold in order to prevent wrinkles and deformation of the drain board; and a cutting step of elevating the upper mold and descending the lower mold when the drain board is cooled at the cooling step, and transferring the cooled drain board to a cutter to cut the drain board.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a manufacturing method of a non-woven heat-

The present invention relates to a method for manufacturing a nonwoven heat-sealable drainage board in which a foreign matter is filtered and a nonwoven fabric through which rain and moisture pass therethrough is installed, and a drainage board is installed on the surface of artificial ground such as concrete, asphalt and cement, The drainage function necessary for the growth of the landscaped trees planted in the landscape section, and the provision of the antifreeze function to prevent the roots of the landscaped trees from penetrating into the artificial soil.

In recent years, there has been a tendency to make landscaping work on a certain area to provide landscaping and rest space along with insulation reinforcement on the roof or top of an underground parking lot such as an apartment or a large building in recent years. Drainage boards having a function of protecting the artificial ground at the same time as drainage are used.

The drain board is produced individually or in a limited quantity through a mold, and a non-woven fabric is disposed on the drain board to filter foreign matter and penetrate only moisture and moisture.

However, when the nonwoven fabric is placed on the upper surface of the drain board during the landscaping work, the nonwoven fabric is merely covered with the drainboard rather than fixed to the drainboard, so that the nonwoven fabric is detached or pressed, There is a problem that the drainage is not smooth and there is a problem that the root of the tree is infiltrated into the inside of the building structure for safety.

Korean Patent Publication No. 2007-0046509

In order to solve the above problems, the present invention provides a method for manufacturing a non-woven and heat-sealable drain board having both a drainage and a minus function by simultaneously fixing the nonwoven fabric positioned on the upper surface of the drainage board by heat- We will do it.

A method for manufacturing a nonwoven fabric heat-seal drain board according to the present invention comprises the steps of:

A heating part feeding step of feeding a thermoplastic extrusion flat board wound on a thermoplastic extrusion flat board feeding roller to a heating part; A heating step of heating the thermoplastic extrusion flat board transferred to the heating unit with a heating unit; A molding part feeding step of feeding the heated thermoplastic extrusion flat board heated in the heating step to a molding part; A lower mold having projections protruding from the thermoplastic extruded flat board bottom surface conveyed in the forming part feeding step is formed at regular intervals and in an array and is wound on the nonwoven fabric supply roller between upper molds positioned on the upper surface of the thermoplastic extrusion flat board The nonwoven fabric is transferred and fed. At the same time as the lower mold is lowered, the upper mold starts to be formed on the upper surface of the plurality of protrusions while the upper mold starts to be formed. At the same time, the nonwoven fabric is thermally adhered to the upper surface of the protrusions, A drainage board forming step of completing the drainage board forming step; In order to prevent wrinkling and deformation of the drain board in this state after the drain board is formed while the upper mold is lowered and the lower mold is raised at the drain board formation step, the drain board is cooled by the water introduced into the lower mold A cooling step; And a cutting step of, when the drain board is cooled in the cooling step, the upper mold is raised, the lower mold is lowered, and the cooled drain board is transferred to a cutter to cut.

Further, the heating temperature of the thermoplastic extruded flat board in the heating step to 180 ° C to 200 ° C by the heating unit of the heating unit is characterized.

The nonwoven fabric may be thermally adhered to the upper surface of each of the plurality of protrusions at a temperature of 120 ° C.

Further, when the drain board is cooled by the water flowing into the lower mold in the cooling step, when the temperature of the drain board itself becomes 20 ° C to 25 ° C, the upper mold is raised and the lower mold is lowered.

In the present invention, the drainage board of the present invention is applied to the rooftop landscaping of artificial grounds such as concrete, asphalt, and cement, or a building to drain water through a space formed between a plurality of protrusions and protrusions formed on the drainage board There is no effect on the bottom of the landscaping soil, and the inside of the building structure has the effect of providing the antiproting function that the roots of the landscaping water are not penetrated.

In addition, since the process of forming a plurality of protrusions, the thermal bonding process of thermally adhering the nonwoven fabric to the upper surfaces of the plurality of protrusions, and the cooling process of the drain board are performed simultaneously, the manufacturing process is simple and the drain board is short It has the effect of mass production within hours.

1 is a perspective view showing a protrusion according to the present invention;
2 is an exploded perspective view showing a drain board according to the present invention.
3 is a perspective view showing a drain board according to the present invention.

The process of manufacturing a drainage board according to the present invention will be described in detail with reference to the drawings.

Thermoplastic extrusion flat board heating part transfer step

Thermoplastic Extrusion Flat Board The thermoplastic extrusion flat board in the form of a flat plate wound on a feed roller is transferred to the hitting unit using a roller.

In the present invention, polyethylene or polypropylene is used as the material of the thermoplastic extrusion flat board. In the present invention, any one of polyethylene or polypropylene can be selected and used, or polyethylene and polypropylene can be mixed Can be used.

Thermoplastic extrusion flat board heating step

The thermoplastic extruded flat board conveyed from the thermoplastic extrusion flat board feed roller is heated to a temperature of 180 ° C to 200 ° C by a heating unit of the heating unit.

If the heating temperature is 180 DEG C or less, there is a problem in that the protrusions formed at regular intervals and in an array at the subsequent molding step can not be formed, and the nonwoven fabric adhered to the upper surfaces of the protrusions by thermal bonding is not properly adhered ,

If the temperature is higher than 200 ° C, it takes a long time to cool the substrate after the protrusions are formed, or the strength is weakened and the substrate is easily deformed.

Molding section transfer step

In the heating step, the thermoplastic extruded flat board heated by the heating unit of the heating unit is transferred to the forming unit using a roller.

Drain board molding step

A lower mold having projections protruding from the thermoplastic extruded flat board bottom surface conveyed in the forming part feeding step is formed at regular intervals and in an array, and the upper mold positioned at the upper surface of the thermoplastic extruded flat board is wound on the non- The nonwoven fabric is fed and fed.

At the same time as the lower mold is lowered, the lower mold is raised and the upper surfaces of the plurality of protrusions start to be formed. At the same time, the nonwoven fabric is thermally adhered to the upper surface of the protrusions to be fixed to the lower surface of the protrusions, do.

On the other hand, the upper surface temperature of the plurality of protrusions to which the nonwoven fabric is abutted is 120 ° C.

When the thermoplastic extruded flat board heated to a temperature of 180 ° C to 200 ° C is transferred to the forming unit through the heating unit, the temperature starts to drop and when the nonwoven fabric comes into contact with the upper surface of the projection, The temperature of 120 ° C is a temperature condition in which the nonwoven fabric, the thermoplastic extruded flat board material properties, the thermal deformation temperature and the softening temperature are insufficient in adhesive strength or molding, and the lower mold is lowered when the nonwoven fabric comes in contact with the protrusions. The upper surface of the protrusion is flattened so that the area of the portion to which the nonwoven fabric is adhered is widened to prevent the nonwoven fabric from being separated from the drainage board to be completed later .

Drainboard cooling stage

In order to prevent the wrinkle and deformation of the drain board in this state when the upper mold is lowered and the lower mold is raised at the same time and the nonwoven fabric is thermally bonded to the upper surfaces of the protrusions to form the drain board, And the drain board is cooled.

At this time, when the temperature of the drain board itself is between 20 ° C and 25 ° C as the water flowing into the lower mold circulates, the upper mold is raised and at the same time, the lower mold is lowered, (10) is completed.

Although the present invention has been described in terms of the steps of forming the drain board and cooling the drain board, it is also possible to perform a forming process in which a plurality of protrusions are formed at regular intervals and arrangements, a thermal bonding process for thermally bonding the non-woven fabric to the upper surfaces of the plurality of protrusions, The drainage board cooling process for cooling the drainage board is performed simultaneously with the lowering of the upper mold and the rising of the lower mold, so that the manufacturing process is simple and the drainage board can be mass-produced in a short time.

Drain board cutting stage

The drain board completed in the cooling step is cut to a size desired by the customer using a cutter. Alternatively, the drainage board can be wound by using rollers without cutting.

On the other hand, the drainage board 10 completed through the above-mentioned steps smoothly discharges rainwater or moisture penetrating the landscaping soil in the artificial ground such as concrete, asphalt, and cement, or rooftop landscaping of buildings, thereby preventing necrosis of landscaping trees And also has the effect of providing a roughening function for preventing roots from penetrating into an inside of an architectural structure such as an artificial ground,

If foreign matter is introduced from the outside after the completion of the installation of the drain board 10, the foreign matter introduced into the nonwoven fabric 14 passes through the nonwoven fabric 14 while the foreign matter is filtered by the nonwoven fabric 14, The water is drained through a plurality of spaces formed between the protrusions 12 and the plurality of protrusions 12 formed on the drainboard 10 and the drainage board 10 does not pass through the drainage board 10, 10) Inside the artificial ground located on the bottom, inside the rooftop of the building, there is a movement effect that the roots of the landscape trees do not penetrate.

10: Drain board
12: protrusion
14: Nonwoven

Claims (4)

A heating part feeding step of feeding a thermoplastic extrusion flat board wound on a thermoplastic extrusion flat board feeding roller to a heating part;
A heating step of heating the thermoplastic extrusion flat board transferred to the heating unit with a heating unit;
A molding part feeding step of feeding the heated thermoplastic extrusion flat board heated in the heating step to a molding part;
A lower mold having projections protruding from the thermoplastic extruded flat board bottom surface conveyed in the forming part feeding step is formed at regular intervals and in an array and is wound on the nonwoven fabric supply roller between upper molds positioned on the upper surface of the thermoplastic extrusion flat board The nonwoven fabric is transferred and fed. At the same time as the lower mold is lowered, the upper mold starts to be formed on the upper surface of the plurality of protrusions while the upper mold starts to be formed. At the same time, the nonwoven fabric is thermally adhered to the upper surface of the protrusions, A drainage board forming step of completing the drainage board forming step;
In order to prevent wrinkling and deformation of the drain board in this state after the drain board is formed while the upper mold is lowered and the lower mold is raised at the drain board formation step, the drain board is cooled by the water introduced into the lower mold Cooling step:
And a cutting step of, when the drain board is cooled in the cooling step, the upper mold is raised and the lower mold is lowered, and the cooled drain board is transferred to a cutter to cut the non-woven heat and drain board .
The method of claim 1,
Wherein the temperature for heating the thermoplastic extrusion flat board to the heating unit of the heating unit in the heating step is 180 ° C to 200 ° C.
The method of claim 1,
Wherein the nonwoven fabric is thermally adhered to the upper surface of each of the plurality of protrusions at a temperature of 120 캜 in the drainboard molding step.
The method of claim 1,
Wherein the upper mold is raised and the lower mold is lowered when the temperature of the drain board itself becomes 20 ° C to 25 ° C when the drain board is cooled by the water flowing into the lower mold in the cooling step. ≪ / RTI >

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