KR20110139402A - Method and apparatus for manufacturing cylindrical laminated veneer lumber - Google Patents

Abstract

PURPOSE: A method and apparatus for manufacturing a cylindrical laminated veneer lumber are provided to prevent the twist of a natural lumber post. CONSTITUTION: A target single panel is formed(S100). The target single panel is composed of a first target single panel layer(S200). Adhesives are coated on the first target single panel layer(S300). A second target single panel layer is formed(S400). The adhesives are coated on the second target single panel layer(S500). A wood sheet is attached to the second target single panel layer. After the adhesives are hardened, a cylindrical steel pipe is separated(S600,S700).

Description

Manufacturing method and apparatus for manufacturing cylindrical single-layer laminates {METHOD AND APPARATUS FOR MANUFACTURING CYLINDRICAL LAMINATED VENEER LUMBER}

The present invention relates to a method and apparatus for producing a cylindrical single layer laminate.

In general, pine wood, which is mainly used as a building cultural property or pillar of building material, is a large-size or oversized material, which is much more expensive than ordinary wood, but it is difficult to purchase because it is rare. In addition, outdoor exposure of the pillar material is exposed to the weather and physical and physical degradation due to the effect of ultraviolet rays, but there is a difficulty in the preservative treatment is mostly used without preservative treatment. In addition, most of the most vulnerable fires in wooden buildings are used unprotected. In particular, large diameters of 30 cm or more or oversize materials of 50 to 90 cm are difficult to dry the wood, and it takes a long time even to apply artificial hot air drying, which is almost dependent on natural drying.

Due to this problem, most of the construction is performed in a state in which the moisture content in the interior is not even, even when the interior of the column is not completely dried. Due to these problems, deep splitting occurs along the neck, warpage occurs, and the longitudinal dimension also decreases much more than the first time. Therefore, the durability of the building is greatly shortened by defects such as dropping of the joining part. There is a problem.

In order to solve the problems described above, the present invention is made of a single end plate cut in a vertical direction with respect to the fiber direction of the wood in a belt-like object end plate, rolled it on a cylindrical steel pipe, and then coated with an adhesive By repeating the reinforcement of the object veneer again and repeating it, it is wound to overlap with a plurality of layers, and after pressing it, the cylindrical steel pipe is removed to manufacture a cylindrical single-layer laminate having an empty inside, so that cracking or warping of the natural wooden column It is an object of the present invention to provide a method and apparatus for manufacturing a cylindrical single-layer laminate that can eliminate defects such as the above.

In addition, the present invention, by preserving the preservative and flame-retardant treatment very simply and easily before bonding the end plate cut the solid wood to the rotary racer in a cylindrical shape, the penetration of the preservative and flame retardant evenly inside the end plate is made uniform. It is possible to provide a method and apparatus for manufacturing a cylindrical single layer laminate that can maintain a high antiseptic performance and maintain fire resistance through the entire layer of the single layer laminate.

In addition, the present invention provides a method and apparatus for manufacturing a cylindrical single-layer laminate that can be used as an air conditioning duct or as a formwork for a concrete cylinder pillar, and can be left as it is as a pillar of a wooden cosmetic. For that purpose.

In addition, the present invention is a cylindrical material that can effectively naturalize wood resources and improve utilization efficiency by using thinning materials or low-grade wood as raw materials for forming cylindrical single-layer laminates. It is an object of the present invention to provide a method and apparatus for producing a single layer laminate.

In the method of manufacturing a cylindrical single-layer laminate according to the present invention, (a) by cutting a predetermined width in the vertical direction with respect to the fiber direction of wood to produce a single plate, by connecting the cut end plate in the shape of a belt to form a target single plate Step S100; (B) winding the target end plate to be inclined at a first angle to the cylindrical steel pipe to form a first target end plate layer (S200); (c) applying an adhesive in which a main material and a curing agent are mixed on the first target veneer layer (S300); (d) the object veneer is turned upside down so as to intersect with the object veneer of the first object veneer layer on the first object veneer layer to which the adhesive is applied, and wound so as to be inclined at a second angle opposite to the first angle Forming a target veneer layer (S400); (e) applying an adhesive mixed with a main agent and a curing agent on the second target veneer layer (S500); (f) attaching a veneer on the second target veneer layer to which the adhesive is applied, and curing the adhesive (S600); And (g) separating the cylindrical steel pipe (S700).

In the step (a) (S100), the predetermined width is characterized in that 1/2 of the diameter of the wood.

Step (a) (S100) is characterized in that for sealing the cut end plate with a yarn of a polyester-based material.

The step (a) is characterized in that it further comprises the step of injecting a preservative or flame retardant to the cut end plate through a pressure-sensitive or pressure-sensitive drug injection device.

The step (a) (S100) is characterized in that it further comprises the step of winding the target end plate in a cylindrical shape.

The cylindrical steel pipe is characterized in that the spiral winder (spiral winder).

The adhesives in the step (c) (S300) and the step (e) (S500) is a rizosinol-based adhesive, the resorcinol-based adhesive is characterized in that the main and the curing agent is prepared by mixing in a ratio of 100: 40 It is done.

The first target veneer layer and the second target veneer layer may be provided in plural numbers.

The first angle and the second angle is an angle formed by the cross-tree of the target end plate and the outer peripheral surface of the cylindrical steel pipe, characterized in that 10 degrees.

The step (f) (S600), characterized in that it further comprises a compacting step to hold the elastic rubber belt or rubber band.

Step (g) (S700), characterized in that it further comprises the step of finishing with sand paper on the veneer.

In addition, the apparatus for manufacturing a cylindrical single-layer laminate according to the present invention is provided with a racer (100) for producing a single plate by cutting a predetermined width in a direction perpendicular to the fiber direction of wood, the preservative on the outer surface of the single plate Alternatively, a pressurized or pressure-sensitive drug injection device 150 for injecting a flame retardant is provided, and a sewing machine 200 is provided to connect the end plate in a belt shape to form a target end plate, and the target end plate formed by the sewing machine 200 is provided. A cylindrical winding 300 is provided, and a first target veneer layer is formed on the outer circumferential surface of the cylindrical steel pipe by winding the target veneer released by the rotation of the aperture 300, and a second target veneer layer is formed on the first target veneer layer. The target veneer layer is formed, and the steel pipe rotor 400 for rotating the cylindrical steel pipe so that the veneer is pasted on the second target veneer layer is provided, and the steel pipe rotor 400 is rotated An adhesive spreader 500 is provided between the first target veneer layer and the second target veneer layer formed on the outer circumferential surface of the steel pipe to apply an adhesive mixed with a main agent and a curing agent on the second target veneer layer. A band fastener 600 is provided on the outer circumferential surface of the veneer forcibly tightening the elastic belt or the rubber band, and sandpaper 700 for finishing the upper surface of the second target end plate layer in which the cylindrical steel pipe is separated. Characterized in that is provided.

As described above, according to the present invention, the end plate cut in the vertical direction with respect to the fiber direction of the wood is made of a target end plate connected in a belt shape, rolled it on a cylindrical steel pipe, and then coated with an adhesive, and then again Repeating and repeating the object veneer and winding it so that it overlaps with a plurality of layers, and after pressing it, the cylindrical steel pipe is removed to manufacture a cylindrical single-layer laminate having an empty interior, such as cracking or warping of natural wooden columns. The defect can be eliminated.

In addition, according to the present invention, the preservative and flame retardant treatment is very simple and easy before the solid plate is cut in a cylindrical shape by the rotary racer, so that the penetration of the preservative and the flame retardant evenly and uniformly inside the single plate. Since it can be made, through this, the entire layer of the single-layer laminated material can maintain high antiseptic performance, it is possible to maintain the fire resistance.

In addition, according to the present invention, the hollow formed therein can be used as an air conditioning duct, or can be used as a formwork for a concrete cylinder pillar, and can also be left as it is a pillar of a wood cosmetic.

In addition, according to the present invention, since thinning materials and low-grade wood can be used as raw materials for forming a cylindrical single-layer laminate, wood resources can be usefully naturalized and the utilization efficiency can be improved.

Specific matters other than the problem to be solved, the problem solving means, and the effects of the present invention as described above are included in the following embodiments and the drawings. Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. Like reference numerals refer to like elements throughout.

1 is a flow chart showing a method of manufacturing a cylindrical single-layer laminate according to the present invention.
2 is a view schematically showing the cylindrical manufacturing method of FIG.
Figure 3 is a block diagram showing an apparatus for producing a cylindrical single layer laminate according to the present invention.
4 is a view showing an application example of the cylindrical single-layer laminate prepared by Figures 1 to 3.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings are only described in order to more easily disclose the contents of the present invention, but the scope of the present invention is not limited to the scope of the accompanying drawings that will be readily available to those of ordinary skill in the art. You will know.

1 is a flow chart showing a method of manufacturing a cylindrical single-layer laminate according to the present invention, Figure 2 is a view schematically showing the cylindrical manufacturing method of Figure 1, Figure 3 shows a manufacturing apparatus of a cylindrical single-layer laminate according to the present invention 4 is a block diagram, and FIG. 4 is a diagram showing an application example of the cylindrical single-layer laminate manufactured by FIGS. 1 to 3. Hereinafter, on the basis of the description of the manufacturing method of the cylindrical single layer laminate according to the present invention shown in Figs. 1 to 2 and the manufacturing device of the cylindrical single layer laminate according to the present invention shown in Fig. 3 and the cylindrical single plate shown in Fig. Application examples of the laminate will be described.

First, in the manufacturing method of the cylindrical single layer laminate according to the present invention, as shown in Figures 1 to 3, by cutting a predetermined width in the vertical direction with respect to the fiber direction of wood to produce a single plate (10). Here, the timber may be used conifers such as pine, pine, larch, radiata pine. From such wood, the end plate 10 is manufactured by a rotary racer or a pencil sharpener racer 100 (hereinafter referred to as Lathe). In addition, the thickness of the end plate 10 is preferably manufactured to about 2.5 ~ 3.5mm. In addition, the predetermined width of the end plate 10 is preferably 1/2 of the diameter of the solid wood. For example, the predetermined width of the end plate 10 may be 10 to 50 cm wide at right angles to the fiber direction of the end plate when the diameter of the end plate is 20 to 100 cm.

On the other hand, in general, the typesetting (ie, the end plate in the present invention) used in the plywood processing process can not be used in the case of short material because it requires a certain size, the width of the end plate in the manufacturing method of the cylindrical single layer laminate material It is also possible to make use of timber resources, since narrow boards can also be used, or narrow plates cut into short materials can be used. In addition, since this cylindrical single-layer laminated material is manufactured in a cylindrical shape, it can be utilized also when cutting a small diameter material by a pencil sharpening method. In other words, low quality solid wood or small hardwood can be used without using high quality wood such as aggregate or solid wood. Therefore, according to the cylindrical single-layer laminate, since such low-quality solid wood and small-size wood can be used, wood resources can be naturalized and the utilization efficiency can be improved.

Then, the cut end plate 10 is sewing the sewing machine through the sewing machine 200 and connected to the belt shape and processed into the target end plate 20. At this time, the sewing sewing machine is to connect the end of the end plate 10 with the yarn of the polyester-based material (S100).

In addition, preservatives or flame retardants may be injected into the outer surface of the cut end plate 10 through a pressure-sensitive or pressure-sensitive drug injection device 150. Therefore, according to the manufacturing method of the cylindrical single layer laminate, the preservative or flame retardant is injected into the end plate formed by cutting the wood, so that the penetration of the preservative or flame retardant can be uniformly uniform inside the end plate, thereby through The entire layer can maintain high antiseptic performance and fire resistance.

Then, the target end plate 20 is wound in a cylindrical 300 in a cylindrical shape. This is to make it easy to unwind toward the cylindrical steel pipe 30 to be described later.

Then, the target end plate 20 is wound to be inclined at a first angle to the cylindrical steel pipe 30 by the steel pipe rotor 400 to form a first target end plate layer 35 (S200). At this time, the cylindrical steel pipe 30 is preferably a spiral winder (spiral winder), but is not limited to this, steel pipes of various shapes may be applied by the shape of the single plate laminated material according to the manufacturer's design purpose. In addition, by adjusting the thickness of the cylindrical steel pipe 30 freely, it is possible to manufacture a cylindrical single-layer laminate having a final diameter. Here, the first angle is an angle formed by the cross fly of the target end plate 20 and the outer circumferential surface of the cylindrical steel pipe 30, preferably 10 degrees. In addition, the first target veneer layer 35 may be composed of a plurality of layers instead of one layer. In this case, an adhesive 40 described later is applied on one layer.

Then, the adhesive 40 is mixed with the main material and the curing agent on the first target end plate layer 35 (S300). At this time, the adhesive 40 is preferably a risinol-based adhesive, and the risinol-based adhesive is applied onto the first target end plate layer 35 through the adhesive coater 500. In addition, the mixing ratio of the main agent and the curing agent constituting the adhesive 40 is preferably designed to be 100: 40, the coating amount of the adhesive 40 is preferably 200 ~ 350g / ㎡. In this case, since the resorcinol-based adhesive is cured at room temperature, it is not necessary to raise the temperature, but it is preferable to clean the coating apparatus with water or compressed air after the end of the work.

Then, the object end plate 20 'is turned over so as to cross the object end plate 20 of the first object end layer 35 on the first object end layer layer 35 to which the adhesive 40 is applied. The second target end plate layer 45 is wound to be inclined at a second angle opposite to the first angle (S400). That is, the second target veneer layer 45 is formed by inverting the target veneer 20 'and being wound at an angle of 10 degrees while being arranged to intersect the target veneer 20 of the first target veneer layer 35 below. do. Here, the second angle is an angle formed by the cross fleeing f2 of the target end plate 20 'and the outer peripheral surface of the target end plate 20 of the first target end layer layer 35, and preferably 10 degrees. In addition, the second target veneer layer 35 may be composed of a plurality of layers instead of one layer. In this case, an adhesive 50 described later is applied on one layer. At this time, when winding the target veneer 20 'on the first target veneer layer 35, because it is wound in reverse by one layer, the fiber direction between the two layers is about 10 degrees when viewed in the longitudinal direction of the cylindrical steel pipe (30) They are arranged crosswise at an angle. This improves the accuracy of the dimensions and prevents surface splitting between the two layers.

Then, although not shown, the adhesive 40 mixed with the main material and the curing agent is applied on the second target veneer layer 45 (S500). At this time, the adhesive 40 is preferably a risinol-based adhesive, and the risinol-based adhesive is applied onto the second target end plate layer 45 through the adhesive coater 500. In addition, the mixing ratio of the main agent and the curing agent constituting the adhesive 40 is preferably designed to be 100: 40, the coating amount of the adhesive 40 is preferably 200 ~ 350g / ㎡. In this case, since the resorcinol-based adhesive is cured at room temperature, it is not necessary to raise the temperature, but it is preferable to clean the coating apparatus with water or compressed air after the end of the work.

In general, laminated veneer lumber (LVL) developed for engineered timber is a laminated laminate bonded in a fiber direction by cutting a rotary racer, and is mainly used as a shaft material such as aggregate or lumber. On the other hand, the cylindrical single-layer laminated material manufactured by the manufacturing method of this cylindrical single-layer laminated material laminated | stacked and laminated the target end plate 20 to cylindrical shape, so that the neck of the target end plate 20 may be equal to the orientation of the microfibrils of a wood structure. By laminating and adhering, the strength and rigidity can be improved. In addition, since the error range of the material decreases as the number of the target single layer layers 35 and 45 to be laminated increases, the present cylindrical single layer laminate material can be sufficiently used as a structural material in the axial direction.

Then, the veneer 60 is attached to the second target end plate layer 45 to which the adhesive 50 is applied, and the adhesive 50 is cured (S600). That is, after winding the second target veneer layer 45 by an arbitrary number of laminations, the veneer 60 is attached to the surface thereof. Since the veneer 60 of the untreated material is pasted on the second target veneer layer 45, the preservative or the flame retardant does not leak directly to the outside, and thus can be safely handled from harmful substances.

In addition, the outer circumferential surface of the veneer 60 is fastened by elastic bands or rubber bands (not shown) by the band fastener 600.

Then, the surface of the veneer 60 is cleanly finished with sandpaper 700 on the second target veneer layer 45.

Finally, the cylindrical steel pipe 30 is separated to complete the cylindrical single layer laminate A of FIG. 2B (S700).

The cylindrical single-layer laminated material produced through the above process has a donut shape, the cross section of which can secure the strength while saving the material, and especially has a reasonable structure as a pillar material because it is strong against buckling. For example, as shown in FIG. 4, a house structural material or signboard (a) is attached to the outer circumferential surface of the cylindrical single-layer laminated materials 35 and 45 separated from the cylindrical steel pipe 30. It can be used as, and attaching the decorative veneer (60 ') to the outer circumferential surface of the single laminated laminated material (35', 45 ') laminated on the wood solid wood (30') as a wooden structural pillar or crosslinking material and a joint column (b) It can be used, it can be used as RC column pillar (c) by attaching the decorative end plate 60 ″ on the outer circumferential surface of the single plate laminated material 35 ″, 45 ″ laminated on the cylindrical steel pipe 30 ″.

In addition, the present cylindrical single-layer laminated material, the hollow is formed therein, the outer shape is cylindrical, so can be applied to the following special uses. For example, it can be used to cover the pillars of air conditioning ducts or round pillars of concrete structures that also serve as concrete formwork. Also, it can be used as a high-strength fence material when the end plates are rolled and bonded using steel pipes instead of steel pipes. Can be. At this time, since the end of the steel pipe can be used as a connector such as bolt nut, it can be very easy to join the material. For example, it can be used as a substitute for cylindrical single-layer laminates, such as the handles of bus stops, or the steel fences of bus stops, by using a single plate that continuously cut thinning materials, such as pencil sharpening. Also available for the neck.

As described above, it is to be understood that the technical structure of the present invention can be embodied in other specific forms without departing from the spirit and essential characteristics of the present invention.

Therefore, the exemplary embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and their All changes or modifications derived from equivalent concepts should be construed as being included in the scope of the present invention.

Claims (12)

(A) manufacturing the end plate 10 by cutting by a predetermined width in the vertical direction with respect to the fiber direction of the wood, and connecting the cut end plate 10 in the shape of a belt to form a target end plate 20 (S100) );
(B) winding the target end plate 20 to be inclined at a first angle to the cylindrical steel pipe 30 to form a first target end plate layer 35 (S200);
(c) applying an adhesive 40 mixed with a main agent and a curing agent on the first target veneer layer 35 (S300);
(d) the object end plate 20 'is turned over so as to intersect the object end plate 20 of the first object end layer layer 35 on the first object end layer layer 35 to which the adhesive 40 is applied, Winding to incline at a second angle in a reverse direction with respect to the first angle to form a second target end plate layer (45);
(e) applying an adhesive 40 mixed with a main agent and a curing agent on the second target veneer layer 45 (S500);
(f) attaching the veneer (60) on the second object veneer layer (45) to which the adhesive (40) is applied, and curing the adhesive (40) (S600); And
(g) separating the cylindrical steel pipe (30) (S700); manufacturing method of the cylindrical single-layer laminated material comprising a. The method of claim 1,
In the step (a) (S100), the predetermined width is a method for producing a cylindrical single layer laminate, characterized in that 1/2 of the diameter of the wood. The method of claim 2,
Step (a) (S100) is a method of manufacturing a cylindrical single layer laminate, characterized in that for sealing the cut end plate 10 with a yarn of a polyester-based material. The method of claim 3,
The step (a), the method of manufacturing a cylindrical single layer laminate, further comprising the step of injecting a preservative or flame retardant to the outer surface of the cut end plate 10 through a pressure-sensitive or pressure-sensitive drug injection device (150). The method of claim 3,
Wherein (a) step (S100) is the manufacturing method of the cylindrical single layer laminate, characterized in that it further comprises the step of winding the target end plate 20 in the cage 300. The method of claim 1,
The cylindrical steel pipe 30 is a spiral winder (spiral winder) characterized in that the manufacturing method of the cylindrical single-layer laminate. The method of claim 1,
The adhesive 40 in the step (c) (S300) and the step (e) (S500) is a risinol-based adhesive, the risinol-based adhesive is prepared by mixing the main and the curing agent in a ratio of 100: 40 Method for producing a cylindrical single-layer laminate, characterized in that. The method of claim 1,
The first target veneer layer 35 and the second target veneer layer 45 may be provided in plural, characterized in that the manufacturing method of the cylindrical single plate laminate. The method of claim 1,
The first angle and the second angle is an angle formed by the cross necks f1 (f2) of the target end plate 20, 20 'and the outer peripheral surface of the cylindrical steel pipe 30, characterized in that the cylindrical Method for producing single plate laminate. The method of claim 1,
Wherein (f) step (S600), the manufacturing method of the cylindrical single layer laminate, characterized in that it further comprises a pressing step of holding the elastic rubber belt or rubber band. The method of claim 1,
The step (g) (S700), the method of manufacturing a cylindrical single layer laminate, characterized in that further comprising the step of finishing the sand paper on the veneer (60). There is provided a racer (100) for manufacturing the end plate (10) by cutting by a predetermined width in a direction perpendicular to the fiber direction of wood,
A pressurized or pressure-sensitive drug injection device 150 for injecting a preservative or flame retardant is provided on the outer surface of the end plate 10,
A sewing machine 200 is provided to connect the end plate 10 in a belt shape to form the target end plate 20.
The ear 300 is wound around the target end plate 20 formed by the sewing machine 200 in a cylindrical shape,
The first end plate layer 35 is formed on the outer circumferential surface of the cylindrical steel pipe by winding the end plate 20 that is released by the rotation of the ear 300, and the second end plate on the first end plate layer 35. A layer 45 is formed, and the steel pipe rotator 400 for rotating the cylindrical steel pipe 30 so that the veneer 60 is pasted on the second target veneer layer 45,
The steel pipe rotating unit 400 is rotated between the first target end plate layer 35 and the second target end plate layer 45 formed on the outer circumferential surface of the cylindrical steel pipe 30, on the second target end plate layer 45 An adhesive spreader 500 is provided to apply an adhesive 40 mixed with a main agent and a curing agent.
Band fastener 600 is provided on the outer peripheral surface of the veneer 60 forcibly tightening the elastic belt or rubber band,
Apparatus for manufacturing a cylindrical single-layer laminate, characterized in that the sand paper 700 for finishing the upper surface of the second target end plate layer 45 is separated from the cylindrical steel pipe (30) is provided.

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