KR102470698B1 - Prefab Fiberglass Long Fiber Chiller - Google Patents

Abstract

The present invention relates to a prefabricated glass long fiber cooling device, wherein in order to cool discharged molten glass, cooling fins of a prefabricated glass long fiber cooling device installed below a mold bushing are configured to be attached to and detached from a cooling body in an assembly method rather than welding. Therefore, it is possible to solve all problems caused by the welding, and lower manufacturing cost. In particular, when recycling the cooling body, there is no damage to the cooling body due to the removal of the cooling fins, so that the recycling is possible.

Description

Prefab Fiberglass Long Fiber Chiller}

The present invention relates to a prefabricated glass filament cooling device, and more particularly, to cool the discharged molten glass. By configuring it to be mounted and detached in an assembly method, all problems caused by welding can be solved, and the manufacturing cost can be lowered. In particular, when recycling the cooling body, damage to the cooling body due to removal of the cooling fin It relates to a prefabricated glass long fiber cooling device that is recyclable because there is no

In general, glass fibers are manufactured by supplying molten glass made by heating glass raw materials to a high temperature to a glass fiber manufacturing apparatus.

In this glass fiber manufacturing apparatus, a number of nozzles are arranged and arranged on the bottom surface, and molten glass is discharged from these nozzles.

The molten glass discharged from the nozzle becomes a glass fiber while being cooled through a cooler.

That is, in the above glass fiber manufacturing apparatus, a throat and a feeder are installed in connection with one melting furnace, a bushing having a plurality of orifices is installed at the distal end, and a cooler, a drive roller, and a winder are installed below the bushing at regular intervals. It consists of

Here, as shown in FIG. 1, the conventional glass fiber cooler 10 described above is formed as a rectangular enclosure with a space formed therein, and has an inlet 11a on one side to allow cooling water to flow in. On the other side, the cooling body 11 is equipped with an outlet 11b so that the cooling water introduced through the inlet 11a can flow out, and the front surface of the cooling body 11 A plurality of cooling fins 12 provided at regular intervals by one end being fixed to each other by welding to cool the molten glass discharged from the nozzle, and one end on the rear surface of the cooling body 11 It is fixed and the other end is configured to include a fixing part 13 fixed to the glass fiber manufacturing device.

However, in the conventional general glass fiber cooler configured as described above, since a plurality of cooling fins fixed to the front surface of the cooling body are fixed by welding, there is a disadvantage in that it takes a lot of time to fix the plurality of cooling fins. , When recycling the cooler described above, after removing the cooling fins welded from the cooling body, the welded portion of the cooling body must be sanded to be reused, which requires a lot of cost and time, as well as sanding. If it is done multiple times, there is a disadvantage in that the thickness of the cooling body becomes thin and the cooling fin cannot be recycled because it is difficult to weld.

Figure 1

Therefore, the present invention has been made to solve the above-mentioned problems, and to cool the discharged molten glass, the cooling fins of the prefabricated glass long fiber cooling device installed below the mold bushing are assembled to the body for cooling rather than welding. By configuring it to be attached and detached in a way, it is possible to solve all problems caused by welding, lower the manufacturing cost, and in particular, when recycling the cooling body, damage to the cooling body due to removal of the cooling fin is reduced. The purpose is to provide a prefabricated glass long fiber cooling device that is recyclable without

Other objects of the present invention will become apparent as the technology progresses.

The present invention for achieving the above object is a prefabricated long glass fiber cooling device, which is installed below a mold bushing by being fixed to a glass fiber manufacturing device and has a cooling water flow space inside to cool the discharged molten glass. It is formed as a square-shaped enclosure, and the cooling body 110 is provided on the left and right sides of one side to allow cooling water to flow in and out, and each end on the front of the cooling body 110 is disassembled at regular intervals and A plurality of cooling strips formed and provided in a rectangular shape to cool the discharged molten glass by receiving cooling heat from the cooling body 110 while enabling recycling of the cooling body by being assembled to be installed. It is characterized in that it includes a dragon pin (130).

In addition, by being detachably installed in the cooling body 110, the separation preventing means 150 prevents the plurality of cooling fins 130 from being separated from the cooling body 110. ) is characterized in that it is provided.

As described above, according to the prefabricated glass fiber cooling device according to the present invention, in order to cool the discharged molten glass, the cooling fins of the cooling device installed below the mold bushing are mounted on the cooling body in an assembly method rather than welding. ,It can be detached, so all problems caused by welding can be solved, the manufacturing cost can be lowered, and in particular, when recycling the cooling body, there is no damage to the cooling body due to the removal of the cooling fin, so it can be recycled. It works.

1 is a photographic view showing a typical conventional glass fiber cooler.
Figure 2 is a perspective view showing a prefabricated long glass fiber cooling device according to the present invention.
Figure 3 is a bottom perspective view showing a recyclable glass fiber cooling device according to the present invention.
Figure 4 is a perspective view showing a cooling body of the prefabricated long glass fiber cooling device according to the present invention.
Figure 5 is a bottom perspective view showing the cooling body of the prefabricated long glass fiber cooling device according to the present invention.
6 is a view showing a disassembled state of the separation prevention means of the prefabricated long glass fiber cooling device according to the present invention.

Hereinafter, an example of a prefabricated long glass fiber cooling device according to the present invention will be described in detail.

First of all, it should be noted that in the drawings, the same components or parts are denoted by the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

As shown in the figure, the prefabricated glass filament cooling device according to the present invention is configured so that the cooling fins can be installed and detached from the cooling body in an assembly method rather than welding, so that the manufacturing cost of the cooling device can be lowered, and in particular, When recycling the cooling body, the cooling body is not damaged due to removal of cooling fins, so that recycling is possible.

That is, the prefabricated long glass fiber cooling apparatus 100 according to the present invention described above is installed below the mold bushing by being fixed to the glass fiber manufacturing apparatus and has a cooling water flow space inside to cool the discharged molten glass. It is formed as a square-shaped enclosure, and the cooling body 110 is provided on the left and right sides of one side to allow cooling water to flow in and out, and each end on the front of the cooling body 110 is disassembled at regular intervals and A plurality of cooling strips formed and provided in a rectangular shape to cool the discharged molten glass by receiving cooling heat from the cooling body 110 while enabling recycling of the cooling body by being assembled to be installed. It is configured to include a dragon pin 130.

In addition, by being detachably installed in the cooling body 110, the separation preventing means 150 prevents the plurality of cooling fins 130 from being separated from the cooling body 110. ) is further provided.

Hereinafter, the prefabricated glass filament cooling device according to the present invention will be described in more detail with reference to the accompanying drawings 2 to 6.

First, the cooling body 110 of the prefabricated long glass fiber cooling device 100 according to the present invention described above is installed below the mold bushing by being fixed to the glass fiber manufacturing device to allow cooling water to flow in and out. It is provided capable of providing cooling heat to the plurality of cooling fins 130.

That is, the above cooling body 110 is installed below the mold bushing by being fixed to the glass fiber manufacturing apparatus, and can provide cooling heat to the plurality of cooling fins 130 by inflow and outflow of cooling water. It is formed as a square-shaped enclosure, and a coolant inlet 110a and an outlet 110b are formed on one side and the other side of the outer circumferential surface, and at regular intervals so that one end of the cooling fin 130 can be inserted on the front side. A plurality of receiving grooves 110c are formed, and a fixing piece 111 is formed and provided at the center of the rear surface to be fixed to the glass fiber manufacturing apparatus.

The cooling fin 130 is installed on the front surface of the cooling body 110 so that one end can be disassembled and assembled so that the molten glass can be cooled by passing between the cooling fins 130. are provided

That is, each end of the cooling fin 130 is inserted into a plurality of accommodating grooves 110c formed on the front surface of the cooling body 110 so as to be disassembled and assembled at regular intervals. As the fins 130 are removed, the cooling body 110 can be recycled, and the molten glass discharged by receiving the cooling heat from the cooling body 110 is cooled while passing between the cooling fins 130. It is formed into a square-shaped band so that it can be provided.

The separation prevention means 150 is detachably installed in the cooling body 110 to prevent the plurality of cooling fins 130 from being separated from the cooling body 110. are provided so that

That is, the separation prevention means 150 is formed in the transverse direction at one end of the upper and lower surfaces of the cooling body 110, so that the upper and lower fixing grooves ( 151 and 151'), upper and lower locking grooves 152 and 152' formed on one end of the upper and lower surfaces of the cooling fin 130, and the upper and lower fixing grooves 151 and 151' respectively, thereby cooling the cooling fin 130. It is composed of upper and lower fixing bars 153 and 153' provided to fix the cooling fin 130 by being inserted into the grooves 152 and 152' formed in the upper and lower surfaces of the cooling pin 130.

In addition, the separation prevention means 150 is inserted between the cooling fins 130 and the upper and lower ends are elastically wrapped around the upper and lower fixing bars 153 and 153'. A plurality of separation prevention clips 154 having a "c"-shaped cross section are further provided to prevent the upper and lower fixing bars 153 and 153' from being separated from the upper and lower locking grooves 152 and 152'. do.

As shown in FIGS. 2 to 6, the prefabricated long glass fiber cooling device according to the present invention configured as described above is for cooling in which one end of a plurality of receiving grooves 110c formed on the front surface of the cooling body 110 is inserted and fixed. Since the fin 130 is configured to be separated from the body 110 for cooling, the body 110 for cooling can be recycled.

That is, in assembling the prefabricated long glass fiber cooling device, first, each end of the cooling fin 130 is inserted into the plurality of receiving grooves 110c formed on the front surface of the cooling body 110.

As described above, when the plurality of cooling fins 130 are inserted into the plurality of receiving grooves 110c formed on the front surface of the cooling body 110, the fixing bars 153 and 153' for the upper and lower surfaces of the separation preventing means 150 is inserted and fixed into the upper and lower fixing grooves 151 and 151'.

At this time, the fixing bars 153 and 153' for the upper and lower surfaces inserted and fixed into the fixing grooves 151 and 151' for the upper and lower surfaces are inserted into the locking grooves 152 and 152' for the upper and lower surfaces of the cooling fin 130.

Therefore, the cooling fins 130 are prevented from being separated from the receiving grooves 110c by the fixing bars 153 and 153' for the upper and lower surfaces.

On the other hand, when the function of life of the cooling fin 130 is lost during use as described above and it is desired to replace it, the separation preventing means 150 is disassembled in the opposite order to the above assembly order to cool the cooling fin 130. The cooling fin 130 can be separated from the cooling body 110 without damaging the body 110 .

As a result, recycling of the cooling body 110 is possible.

The above description is merely an example of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

100; Prefabricated Glass Long Fiber Chiller
110; body for cooling
130; cooling fins
150; Deviation Prevention Means

Claims (4)

In the prefabricated glass long fiber cooling device,
By being fixed to the glass fiber manufacturing device, it is installed below the mold bushing and is formed as a square-shaped enclosure with a cooling water flow space inside to cool the discharged molten glass, and the cooling water flows in and out on the left and right sides of one side. a cooling body 110 having a cooling water inlet 110a and an outlet 110b formed thereon, and a plurality of receiving grooves 110c formed at regular intervals on the front surface;
Each end is installed on the front surface of the cooling body 110 to be disassembled and assembled at regular intervals so that the cooling body can be recycled while receiving cooling heat from the cooling body 110 and discharging it. Including a plurality of cooling fins 130 formed and provided with a rectangular band to cool the molten glass,
The cooling body 110 is detachably installed in the cooling body 110 to prevent the plurality of cooling fins 130 from being separated from the cooling body 110. Upper and lower fixing grooves 151 and 151' formed to communicate with the receiving groove 110c by being formed in the transverse direction at one end of the upper and lower surfaces, and formed on the upper and lower ends of the cooling fin 130 By being inserted into the upper and lower engaging grooves 152 and 152' and the upper and lower fixing grooves 151 and 151', respectively, the cooling fin 130 is inserted into the upper and lower engaging grooves 152 and 152' formed in the cooling fin 130. It is inserted between the upper and lower fixing bars 153 and 153' provided to fix the cooling fin 130, and the cooling fin 130 and the cooling fin 130 so that the upper and lower ends are the upper and lower ends. A plurality provided to prevent the upper and lower fixing bars 153 and 153' from being separated from the upper and lower engaging grooves 152 and 152' by being elastically bound while wrapping the lower fixing bars 153 and 153' A prefabricated glass filament cooling device, characterized in that the separation prevention means 150 consisting of a separation prevention clip 154 is further provided.
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