KR20090007549U - Heat insulting glass wool of elbow - Google Patents

Abstract

The present invention relates to a glass fiber insulating material for elbow insulation, and to cut the semi-cylindrical glass fiber insulation material in a zigzag shape to obtain a plurality of pieces of heat insulating material and then to form a fan-shaped insulation to insulate the elbow tube.

Glass fiber insulation, cutting means, seam, elbow, cutting angle, stapler, cutting angle

Description

Glass Fiber Insulation for Elbow {HEAT INSULTING GLASS WOOL OF ELBOW}

The present invention relates to a glass fiber insulation for elbow insulation, and cuts the semi-cylindrical glass fiber insulation into zigzag to obtain several pieces of insulation and then insulates the elbow (pipe) by joining in a fan shape of elbow shape. It would be.

Generally, piping such as power generation and cooling / heating facilities for petroleum, textile, food and chemical plants, cooling and heating facilities for industrial equipment, cooling and heating facilities for various manufacturing equipment, and cooling and heating facilities for air conditioning equipment (mainly Elbow pipe) is equipped with heat insulation and cold insulation pipes (hereinafter referred to as 'insulation pipes') of various sizes and materials to achieve energy savings and production cost savings by blocking heat exchange with the outside.

The insulating pipe is a glass fiber insulating material or a thermal insulation material of polyethylene crosslinked foam is used, and these are usually made only for straight pipe thermal insulation, so when the pipe is to be insulated at an elbow portion bent at a certain angle, the thermal cover is forcibly bent or It is constructed by combining mosaics of several pieces cut into appropriate sizes.

However, this construction method is easy to be damaged, such as tearing the thermal cover in the process of forcibly bending the thermal cover, and also a lot of force is entered, there is a problem that the work efficiency is greatly reduced, or if you are not skilled, precisely insulate the thermal insulation material in accordance with the elbow Not only is it difficult to do, it takes a lot of work time, and if the cutting surface is incorrect, there is a problem that the insulation performance is degraded and condensation occurs.

Conventionally, when cutting the edge portion or both ends of the glass fiber insulation material, the cutting process is performed by the cut-off wheel that the worker rotates at high speed. And there was also a problem that productivity is also greatly reduced.

In addition, even if the standardized size by cutting the glass fiber insulation, the cutting accuracy is low, the insulation efficiency is lowered, the construction failure rate is high, there is a problem that a cutter of the appropriate size according to the shape or size of the glass fiber insulation.

In addition, because the manual work by the worker accumulates fatigue, musculoskeletal disorders are generated, and cutting chips, powder, and fine dust generated during cutting scatter to the work space, which damages the worker's health and pollutes the surrounding environment. there was.

In addition, when cutting a cylindrical glass fiber insulation material having a predetermined length into a semi-cylindrical shape, both sides of the cylindrical glass fiber insulation material are cut in the longitudinal direction, so that not only the cutting efficiency is greatly reduced, but also the cutting precision is greatly reduced, resulting in low workability and thermal insulation efficiency. There was a problem.

In order to solve the above problems, the glass fiber insulation is precisely cut by injecting a high pressure water jet fluid to greatly improve workability, productivity, heat insulation efficiency, and workability, and generate chips, powder, and fine dust generated during cutting. This rarely occurs, it is not scattered by moisture has a very hygienic and environmentally friendly advantage.

On the other hand, the pipes constituting the various pipes are not only different in diameter, but also vary widely in shape, such as straight, curved, elbow, or a combination thereof, but mostly linear or elbows that change the flow direction of the fluid. .

The glass fiber insulating material is molded to a considerable thickness for a predetermined heat insulation, and cut to a size that can be maintained in a size and weight (20 kg or less) suitable for the operator or construction device to work.

The glass fiber insulation material to be installed in the straight pipe body is cut into a semi-cylindrical glass fiber insulation material of a predetermined length formed into a cylindrical shape, and then fixed to the surface of the straight pipe body to achieve heat insulation of the straight pipe body. The elbow portion is tightly fixed by attaching a mosaic fiberglass insulation cut into squares or triangles to achieve heat insulation.

On the other hand, after construction, the elbow is wrapped around it with insulation to insulate or insulate the fluid flowing therein. Elbows, however, are bent at approximately 90 °, making it difficult to wrap them around.

Although there is a way to wrap around the elbow with insulation tape, the appearance is not regular and the appearance is not only deteriorated. In addition, the insulation is cut and wrapped around the elbow to suit the shape of the elbow, but it depends on manual labor, resulting in a considerably high labor cost. In addition, it takes a lot of time, and in addition to the loss of precision in the process of cutting the insulation, it is not economical because a large amount of insulation is lost, and there is a problem that causes musculoskeletal diseases such as workers.

The object of the present invention is to provide an elbow insulating glass fiber insulating material using a glass fiber insulating material having excellent heat insulating efficiency.

Another object of the present invention is to provide an elbow-shaped glass fiber insulation that can cut the semi-cylindrical glass fiber insulation in a zigzag shape to obtain a plurality of pieces of heat insulating material and then insulate the elbow tube by connecting to a fan.

Another object of the present invention is to provide a fiberglass insulation material for elbows that can be easily installed by anyone, and furthermore, there is almost no loss of insulation due to the manual cutting, and thus the cost is reduced and the working time is shortened to reduce the construction cost. have.

The semi-cylindrical glass fiber insulation material of the present invention is cut into a zigzag shape having a predetermined cutting angle, separated into a plurality of pieces of insulation material, and then joined in an elbow shape (a fan shape) to make an glass fiber insulation material for elbow insulation.

In addition, the joining means of the piece heat insulating material is one of using a plurality of staplers, or a combination of a binder or a binder and a plurality of staplers, in the case of the stapler, the edges of the structurally fragile pieces of heat insulating material are connected evenly at tight intervals The glass fiber insulation of strength is comprised.

The present design is to combine the glass fiber insulation material symmetrically composed of a pair of left and right on the outer surface of the elbow (or elbow pipe), so that the insulation can be improved and the insulation effect can be improved more accurately by the accurate construction.

The present invention can be easily constructed by anyone, and furthermore, by eliminating the loss of the insulation due to the manual cutting, there is almost no loss of the insulation, and the working time is shortened and the construction cost can be reduced.

In addition, because the glass fiber insulation is precisely cut and processed by a high pressure water jet fluid, the present invention can mass-produce highly precise and standardized products with excellent thermal insulation efficiency. Not only is this greatly improved, but chips or powders and dust generated during the cutting are not scattered, so that the cutting operation is hygienic and environmentally friendly.

The present invention is a useful design with the effect that the overall center angle of the glass fiber insulating material for elbows coincides with the angle of the elbows, so that the workability is excellent and thus excellent heat insulation effect is achieved and condensation is prevented.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the embodiments of the present invention, the same elements in the drawings are denoted by the same reference numerals as much as possible, and detailed descriptions of related known configurations or functions will be omitted so as not to obscure the subject matter of the present invention.

Figure 1 shows a semi-cylindrical glass fiber insulation material (1) used in the manufacture of the glass fiber insulation material (2) for the elbow of the present invention, cutting means (saw machine or water jet cutting device for finely cutting with a high-pressure fluid) The semi-cylindrical glass fiber heat insulating material 1 is prepared by cutting the cylindrical glass fiber heat insulating material in the longitudinal direction.

FIG. 2 shows that the semi-cylindrical glass fiber insulation 1 can be cut (cut) in a zigzag shape using cutting means to obtain a plurality of pieces of heat insulating material necessary for manufacturing the glass fiber insulation 2 for elbow. 3 is a plan view of the cut state, Figure 4 is a perspective view of the above FIG.

The glass fiber insulation material 2 for the elbow of the present invention may be manufactured at various angles, and the angles of the elbow E are 30 °, 45 °, 60 °, 75 °, 90 °, 120 °, 135 °, and the like. In view of this, it is preferable in terms of efficiency to manufacture the entire center angle of the glass fiber insulation 2 at the same angle.

The present invention will be described based on the glass fiber insulation (2) for the elbow, the total center angle is 90 °, and cut the semi-cylindrical glass fiber insulation (1) into several pieces using a cutting means and then attach the glass fiber for elbows The heat insulating material 2 is completed.

For example, when connecting the six pieces of heat insulating material (P1 ~ P6) to form the glass fiber insulating material (2) for the elbow, the cutting angle (θ1) (θ2) of the glass fiber insulating material 1 is cut in a zigzag form as shown in FIG. ) Is 15 °, and when joining the six pieces of insulation insulation (P1 ~ P6) as shown in Fig. 3, 4, the short side (L6) as shown in Fig. 5 is connected to the short side (L6), and the long side ( L7) when the long side (L7) is attached to each other, the elbow-shaped glass fiber insulating material (2) as shown in Figs. 7, 8 is produced, the glass fiber insulating material (2) symmetrically configured in a pair of left and right as shown in Figs. Since (2a) is to be combined with the outer surface of the elbow (E: or elbow pipe) to be insulated, it is possible to improve the thermal insulation effect with the convenience of construction and accurate construction.

In Figures 3 and 4, the remaining piece of insulation (P0) (P7) is not necessary part of the rim, it can minimize the waste of material by minimizing the size during cutting.

When joining the pieces of heat insulating material (P1 ~ P6) separated into six pieces in the above by the joining means, by connecting a plurality of staplers (S1) (S2) along the joining line (BL) or fixed to the bonding surface ( Bonding), or a bonding agent and stapler (S1) (S2) can be used together.

The outer joining line BL of the piece heat insulating material (P1 ~ P6) is connected and joined by a stapler (S1), the inner joining line (BL) of the piece heat insulating material (P1 ~ P6) is connected by another stapler (S2), the overall solid bond Is maintained.

When the pieces of heat insulating material (P1 ~ P6) are bonded to the stapler (S1) (S2), the edge strength of the pieces of heat insulating material (P1 ~ P6) is greatly required, so as shown in Figure 7 the edge of the joint line (BL) The part connects staplers S1 and S2 at close intervals to maintain even bonding strength and even strength as a whole.

The glass fiber insulation (2) (2a) for the elbow is divided into the left and right for use as shown in Figure 8, when insulated, but is not distinguished for the left and right for manufacturing. In other words, one of the two elbow glass fiber insulating materials (2) may be used by flipping symmetrically.

When cutting the semi-cylindrical glass fiber insulation material (1) using the cutting means in the present invention, when cutting in a zigzag shape as shown in Figure 2 to prevent material waste of the glass fiber insulation material, glass fiber using a high pressure water jet fluid As the insulation material is precisely cut and processed, it has excellent insulation efficiency and can mass-produce precisely standardized products.The cutting efficiency is greatly improved by evenly and precisely precision cutting by CNC program, as well as chips or powders generated during cutting. Since dust and the like are not scattered, it is possible to cut hygienically and environmentally.

Since the cutting line CL is offset (θ3) even in the present invention, since the cutting line CL is offset (θ3), the short side L6 of the fragment insulation P1 to P6 is maintained at the same length, and the long side L7 is also maintained at the same length. When attached to the fiberglass insulation material (2) bent in the elbow form is obtained, since the entire center angle coincides with the angle of the elbow (E) can achieve a secure bonding without a seamless, thereby maximizing the thermal insulation effect.

The starting point and the end point of the cutting line CL start or end from the vanishing line CA, which maintains a predetermined distance L1 from the center line O of the semi-cylindrical glass fiber insulation 1, and the vanishing line CA ) Is determined depending on the length and / or the number of pieces or the cutting angle θ1 (θ2) of the short side L6 or long side L7.

For example, when the semi-cylindrical glass fiber insulation 1 is cut into six pieces, the separation distance L1 is obtained when the glass fiber insulation material 2 for elbows of less than 90 ° is obtained or an elbow of a larger size is obtained. The longer and the vane line (CA) is farther away, on the contrary, the separation distance (L1) becomes shorter and the vanishing line (in case of obtaining an elbow glass fiber insulation material (2) exceeding 90 ° or a smaller elbow). CA) gets closer.

The inner and outer short side L6 and the inner and outer long side L7 of the semi-cylindrical glass fiber insulation 1 are located on the cutting angle θ1 (θ2), and the inner short side L9 and the inner long side L10. ) Is 1/6 of the short arc length and the long arc length of the elbow (E).

In this invention, since the inner arc length and outer arc length of the glass fiber insulation material for elbow 2 varies according to the outer diameter and radius of the elbow (E) to be insulated, the present invention in view of the outer diameter, radius and length of the elbow (E). The inner diameter, radius and length of the glass fiber insulation 2 for elbows are determined.

In the present invention, the zigzag cutting angles θ1 and θ2 are the number of pieces of engraving insulation materials P1 to P6 and the angles of the elbows E (30 °, 45 °, 60 °, 75 °, 90 °, 120 °, 135 °). Etc.), and the distance L1 between the start point and the end point of the zigzag cut line CL is determined from the center line O of the semi-cylindrical glass fiber insulation 1 according to the number of pieces.

5 is connected to the six pieces of heat insulating material (P1 ~ P6) by using the assembly plate (B) provided with the raised protruding frame (F1) (F2) in a right angle direction is composed of an elbow glass fiber insulation (2). , The edge surface M is in close contact with the inner surfaces of the frames F1 and F2, respectively, and the joining surfaces CF between the pieces of heat insulating materials P1 to P6 are closely bonded to each other, and in this state, the stapler S1 When connecting (S2) is connected without a gap of the joint surface (CF), the thermal insulation efficiency is greatly improved.

The present invention is insulated when combined with the glass fiber insulating material (2) (2a) symmetrically configured in a pair of left and right as shown in Figure 7 on the outer surface of the elbow (E), respectively, so that the insulation and the convenience of the construction and keep accurate The effect can be further improved.

The glass fiber insulating material 2 for the elbow of the present invention has the same center angle as that of the elbow (E), so that the insulation construction of the elbow (E) is convenient and the construction can be further improved by the accurate construction.

In the drawings, reference numeral IL denotes an inner edge of the semi-cylindrical glass fiber insulation, and OL denotes an outer edge of the semi-cylindrical glass fiber insulation.

The present invention described above is not limited to the present embodiment and the accompanying drawings, various substitutions, modifications and changes are possible without departing from the technical spirit of the present invention, which is usually in the art It is self-evident for those who have knowledge.

1 is a perspective view of a semi-cylindrical glass fiber insulating material used in the present invention.

Figure 2 is a plan view illustrating a cutting state of the semi-cylindrical glass fiber insulation in the present invention.

3 is a plan view of the semi-cylindrical glass fiber insulation material cut in several pieces in the present invention.

4 is a perspective view of the present invention FIG.

Figure 5 is a plan view of a state of assembling the glass fiber insulating material cut into several pieces in the present invention in the form of elbow.

Figure 6 is an exemplary cross-sectional view of the present invention use state.

7 is a perspective view of the glass fiber insulating material assembled in the elbow form in the present invention.

8 is a bottom perspective view of the left and right glass fiber insulating materials assembled in the elbow form in the present invention.

6: The present invention is an exemplary state of use longitudinal section.

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

(1)-semi-cylindrical glass fiber insulation (2) (2a)-elbow glass fiber insulation

(B)-assembly plate (BL)-junction

(CA)-The Vanishing Line (E)-Elbow

(F1) (F2)-Frame (O)-Centerline

(P0 ~ P7)-Piece Insulation (θ1) (θ2)-Cutting Angle

(θ3)-dangle (L6)-short side

(L7)-Long Side (M)-Mug

(S1) (S2)-Stapler

Claims (3)

A semi-cylindrical glass fiber insulation material is cut into a zigzag of a predetermined angle to obtain a plurality of pieces of insulation material, and the short side is connected by short sides, the long side is connected by long sides, and then the joining line is joined by a joining means. The method according to claim 1; Joining means is a plurality of staplers, or a glass fiber insulating material for elbow, characterized in that one of using a plurality of stapling agent or a binder and a plurality of staplers in combination. The method according to claim 2; The stapler connected to the edge of the seam line is a glass fiber insulation for elbow, characterized in that the dense spacing.

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