KR100722680B1 - Heater for temperature control apparatus of injection mold and the manufactuering method thereof - Google Patents

Abstract

The heater for hot water heating and a method of manufacturing the same according to the present invention cover a large diameter stainless steel pipe on the outer circumferential surface of a plurality of heating wire protection pipes, and inject a metal melt into the large diameter stainless pipe to solidify the heater member to a metal melt solidified. Since it is covered with a sieve and protected, the scale is not adhered to the outer circumferential surface of the heater member, thereby preventing damage to the heater member and extending the life of the heater member.

Heater for temperature control device of injection mold and manufacturing method

Description

HEATER FOR TEMPERATURE CONTROL APPARATUS OF INJECTION MOLD AND THE MANUFACTUERING METHOD THEREOF}

1 is a perspective view schematically showing a conventional heater for hot water heating,

2 is an enlarged longitudinal sectional view of the nipple of FIG. 1;

3 is an exploded perspective view showing an exploded portion of the nipple of FIG.

Figure 4 is a perspective view schematically showing before injection of the molten metal in the metal pipe in the heater for the temperature control device of the injection mold according to an embodiment of the present invention,

5 is an exploded perspective view of FIG. 4;

6 is a longitudinal sectional view schematically showing a state in which a molten metal is injected into a metal pipe and solidified in a heater for a temperature control apparatus of an injection mold according to an embodiment of the present invention shown in FIG. 4;

Figure 7 is a perspective view schematically showing a state in which the heater for the temperature control device of the injection mold according to an embodiment of the present invention fixedly installed in the hot water tank,

8 is a flowchart illustrating a process of manufacturing a heater for a temperature control device of an injection mold according to an embodiment of the present invention.

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

50: nipple 52: hexagon

54: first male part 56: second male part

60: fastening member 70: heater member

72: terminal portion 80: metal pipe

90: metal coagulation body 100: cap

102: through hole 104: screw

110: power supply line 120: water tank

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heater for a temperature control device of an injection mold and a method of manufacturing the same, and more particularly to a heater for a temperature control device for an injection mold of a long life that can be used for a long time and can prevent breakage.

As a heater for hot water heating which is widely used in the related art, it is disclosed in Korean Patent Application Publication No. 20-1999-22257 (published date; June 25, 1999).

The heater for hot water disclosed in Korean Patent Laid-Open Publication No. 20-1999-22257 discloses three U-shaped heating wire protection pipes 4 and the heating wire as shown in FIGS. A fixing nipple (2) for fixing the protective pipe (4), a packing (22) disposed on the upper surface of the fixing nipple (2) to block water leakage, and disposed on the upper surface of the packing (22) The cover 24 which presses the packing 22 and the position fixing spacer 9 which are arrange | positioned in the middle of the said heating wire protection pipe 4, and maintain the space | interval of the said heating wire protection pipe 4 constant.

The fixing nipple (2) is bored with a pipe insertion hole (28) for inserting the heating wire protection pipe (4), and the inlet of the pipe insertion hole (28) extends inclined so that the packing (22) is press-fitted The lower watertight portion 29 is formed to a predetermined depth, and the packing 22 has a watertight ring 23 having a predetermined length so as to hold the heating wire protection pipe 4 in the middle in the vertical direction and thin in the upper and lower ends. It is formed, the lid 24, the upper watertight portion 25 for compressing the water-tight ring 23 is formed only in the upward direction in the shape of narrowing the upper portion.

In addition, the power supply connection portion 8 protruding from the lower end of the fixing nipple 2 at the end of the heating wire protection pipe 4 is connected to the heating wire 42 inside the heating wire protection pipe 4, Since the heating wire protection pipe 4 is gripped by the packing 22 made of the holding material, the pipe insertion hole on the lower surface of the fixing nipple 2 is prevented from being pushed by the external strong force. Circumferential groove 26 having a V-shaped cross section is formed around the circumference, and the heating projection protective pipe 4 is pressed while shrinking the inner projection 27 of the annular groove 26 toward the heating wire protection pipe 4. ) Is fixed.

Tapered lower watertight portion 29 is formed to incline the upper inlet of the pipe insertion hole 28 drilled in the fixing nipple 2, and the heating wire protection pipe 4 in which the heating wire 42 is built is U. After bending in the shape of a child, the heating spacer protective pipe 4 is placed in the outer spacer 9 for positioning, and the cover 24 is inserted first, then the packing 22 is fitted and the fixing nipple 2 Inserting the heating wire protection pipe 4 while abutting the packing 22 in the pipe insertion hole 28 of the), and covers the cover 24 by lowering the cover 24 on the packing 22, the tightening screw (constituting the fastening means 30) 32, the female thread hole 38 formed on the fixing nipple 2 through the first coupling hole 34 drilled in the cover 24 and the second coupling hole 36 drilled in the packing 22. Insert it into the tube and tighten it to make it waterproof.

When the inner surface of the upper watertight portion 25 and the outer surface of the watertight ring 23 abut, and the inner surface of the watertight ring 23 and the outer surface of the heating wire protection pipe 4 are also in contact, the tightening screw 32 is tightened strongly. The upper watertight part 25 is pressurized downward to the watertight ring 23.

At this time, the upper watertight portion 25 forms a tapered shape in which the upper portion is narrowed, and the lower watertight portion 29 forms a tapered shape in which the upper portion is narrowed, and the water-tight ring 23 is made of an elastic material. Part of the downward pressure transmitted to the watertight ring 23 is applied at a horizontal pressure in the direction of the central axis of the heating wire protection pipe 4. By this pressure, the contact part of the watertight ring 23 and the heating wire protection pipe 4 and the contact part of the watertight ring 23, the upper watertight part 25 and the lower watertight part 29 are brought into close contact with each other, and the packing 22 The pressure applied to the water also acts the same as the pressure applied to the upper cover 24 to increase the degree of sealing, thereby preventing water leakage.

By the way, the conventional hot water heater configured as described above can reduce the manufacturing cost and at the same time easy to assemble, and can accurately prevent water leakage, when used for a long time, the outer peripheral surface of the heating wire protection pipe (4) Scales such as iron, salt, lime, etc. are attached to the heating wire 42, so that the heat generated from the heating wire 42 is not radiated through the heating wire protection pipe 4, so that the heating wire protection pipe 4 bursts, so that the heating wire 42 is often There was a problem such as being broken.

Accordingly, the present invention has been made to solve the above various problems, and an object of the present invention is to provide a heater for a temperature control device of an injection mold that can be used for a long time and a method of manufacturing the same.

Another object of the present invention is to provide a heater for a temperature control device of an injection mold and a method of manufacturing the same, which can prevent damage to the heater member.

In order to achieve the above object, the heater for the temperature control apparatus of the injection mold of the present invention has a hexagonal surface is formed in the center, the nipple and the first and the second male threaded portion formed on both sides with respect to the hexagonal surface, respectively, A plurality of heater members each having a plurality of proximal end portions respectively inserted in the plurality of through holes formed in the through holes and fixed to the end portion of the first male screw portion of the nipple by a fastening member to form an inverted U shape for radiating heat upon application of power; A cylindrical metal pipe which is externally wound so as not to come into contact with the outside of the plurality of heater members, and whose proximal end is welded to the second male screw side end of the nipple to cover the outside of the plurality of heater members; A metal coagulum formed by injecting and solidifying a conductive metal melt into the metal pipe so as to cover the heater member in an airtight manner; The first male screw portion is joined to the first male screw portion of the nipple so as to prevent an electric shock when power is applied to the terminal portions of the plurality of heater members exposed to the end portion, and covers the terminal portion, and penetrates to draw the power line to the outside. It is characterized by consisting of a cap formed ball.

In addition, the manufacturing method of the heater for the temperature control apparatus of the injection mold of the present invention is a heater member insertion step of inserting both ends of each of the plurality of heater members forming an inverted U shape in the plurality of through holes formed in the nipple, and the heater member In the manufacturing method of the heater for the temperature control device of the injection mold consisting of a heater member fixing step of firmly fixing both ends of the plurality of heater members inserted into the nipple by a fastening member in the inserting step, in the heater member fixing step After fixing both ends of the plurality of heater members to the nipple, the metal pipe welded by placing a metal pipe so as not to contact the heater member so that one side end of the metal pipe is placed on the end of the second male screw portion of the nipple and weld fixed thereto. On the end of the second male threaded portion of the nipple in the fixing step and the metal pipe welding fixing step. Metal molten metal injection step of injecting a metal melt through the opening of the metal pipe is welded end, and the metal melt injected into the metal pipe in the metal melt injection step to combine the metal pipe and the metal melt metal solidification It characterized by consisting of a metal melt solidification step of solidifying with a sieve.

Hereinafter, a heater for a temperature control apparatus of an injection mold according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a perspective view schematically showing before injection of the molten metal into the metal pipe in the heater for the temperature control device of the injection mold according to an embodiment of the present invention, Figure 5 is an exploded perspective view of Figure 4, Figure 6 4 is a longitudinal sectional view schematically showing a state in which a molten metal is injected into a metal pipe and solidified in a heater for a temperature control apparatus of an injection mold according to an embodiment of the present invention as shown in FIG. 4, and FIG. 4 is a perspective view schematically illustrating a state in which a heater for controlling a temperature controller of an injection mold according to an embodiment is fixed to a hot water tank.

As shown in Figure 4 to Figure 7 the heater for the temperature control device of the injection mold according to the embodiment of the present invention, the hexagonal surface 52 is formed in the center, both sides with the hexagonal surface 52 as the center The first and second male threads 54 and 56 are formed in the nipple 50, respectively, and a plurality of proximal ends are inserted into the plurality of through holes (not shown) formed in the nipple 50, respectively. A plurality of heater members 70 which are fixed to the first male thread portion 54 side end portion of the nipple 50 by 60 to form an inverted U shape to radiate heat when power is applied, and the plurality of heaters At the same time as the outer end of the member 70, the proximal end is welded to the end of the second male thread portion 56 side of the nipple 50 to cover the outer side of the plurality of heater members 70. To cover the metal pipe 80 and the plurality of heater members 70 in an airtight manner. The metal coagulation body 90 formed by injecting and solidifying a conductive metal melt into the metal pipe 80 and the plurality of heater members 70 exposed at the end portion of the first male thread portion 54 of the nipple 50. The first male screw portion 54 of the nipple 50 is joined to the terminal portion 72 so as to prevent an electric shock when power is applied to the terminal portion 72 of the terminal portion 72 to cover the terminal portion 72 and to draw the power line 110 to the outside. It consists of the cap 100 in which the through-hole 102 was formed.

The metal coagulation body 90 is preferably a non-ferrous metal or metal, most preferably using any one of solidified aluminum melt or copper melt with high thermal conductivity, the metal pipe 80 is copper pipe or stainless It is most preferable to use any one selected from the pipes.

Next, a manufacturing method of the heater for the temperature control device of the injection mold according to the embodiment of the present invention configured as described above will be described with reference to FIG. 6.

8 is a flowchart illustrating a method of manufacturing a heater for a temperature control device of an injection mold according to an embodiment of the present invention.

As shown in FIG. 8, a method for manufacturing a heater for a temperature control apparatus of an injection mold according to an embodiment of the present invention includes a plurality of through holes (not shown) formed in the nipple 50. Both ends of the plurality of heater members 70 forming a U-shape are respectively inserted (heater insertion step), and both ends of the plurality of heater members 70 respectively inserted in the nipple 50 in the heater member insertion step. It is firmly fixed by the fastening member 60 (heater member fixing step).

After fixing both ends of the plurality of heater members 70 to the nipple 50 in the heater member fixing step, the metal pipe 80 is enclosed so as not to contact the heater member 70 of the metal pipe 80. One end is placed on the end of the second male thread portion 56 of the nipple 50 and then welded (metal pipe welding fixing step), the second male screw of the nipple 50 in the metal pipe welding fixing step. Injecting the molten metal through the opening (the other end of the metal pipe 80) of the metal pipe 80, one end of which is welded and fixed on the end of the part 56 (injecting the molten metal), the metal pipe ( The metal melt injected into the metal pipe 80 in the metal melt injection step is solidified by the metal coagulation body 90 so that the metal melt 80 is combined with the metal melt (metal melt coagulation step).

The operation and effects of the heater for the temperature control device of the injection mold according to the embodiment configured as described above will be described.

First, the cylindrical metal pipe 80 is enclosed so as not to come into contact with the outside of the plurality of heater members 70, and the proximal end side of the cylindrical metal pipe 80 is the second male screw part of the nipple 50. (56) fixed to the side end to cover the outside of the plurality of heater members 70, and then injecting and solidifying the conductive metal melt through the upper opening of the cylindrical metal pipe 80 to solidify the cylindrical metal pipe. Since the metal coagulation body 90 is filled in the 80, even when a scale of iron, salt, or lime is attached to the cylindrical metal pipe 80, the heat radiated from the plurality of heater members 70 is increased. The heat is dissipated through the distal end of the metal coagulation body 90 solidified in the cylindrical metal pipe 80 and transferred to the cylindrical metal pipe 80 through the metal coagulation body 90. It is can be heated, so the water in the hot water tank 120, a warm heat.

In other words, iron, salt, or lime scales are not directly attached to the outer circumferential surfaces of the plurality of heater members 70, so that the stainless pipes constituting the plurality of heater members 70 do not burst, and they are embedded in the stainless pipes. Since the heater wires (not shown) may be disconnected, the lifespan of the plurality of heater members 70 may be extended.

Then, the threaded portion 104 formed on the inner circumferential surface of the cap 100 is screwed into the first male screw portion 54 of the nipple 50 so that the cap 100 is connected to the first male screw portion 54 of the nipple 50. Since it is installed, the terminal portions 72 of the plurality of heater members 70 exposed to the end portions of the first male screw portion 54 side of the nipple 50 through the through holes 102 formed in the cap 100. Since it is covered by the cap 100, a safety accident such as an electric shock may be prevented even when power is applied to the terminal portions 72 of the plurality of heater members 70 via the power line 110.

In the above description, the specific embodiments have been shown and described, but the present invention is not limited thereto, for example, by those skilled in the art without departing from the concept of the present invention. Of course, the design can be changed in various ways.

As described above, according to the heater for a thermoregulator of the injection mold of the present invention and a manufacturing method thereof, a large diameter stainless steel pipe is covered on the outer circumferential surfaces of a plurality of heating wire protection pipes, and a metal melt is injected into the large diameter stainless steel pipe. Therefore, since the heater member is covered and protected by a metal solidified body in which the molten metal is solidified, the scale is not attached to the outer circumferential surface of the heater member, thereby preventing breakage of the heater member and thus prolonging the life of the heater member.

Claims (6)

A nipple 50 having a hexagonal surface 52 formed at a center thereof, and having first and second male thread portions 54 and 56 formed at both sides of the hexagonal surface 52, respectively; A plurality of proximal end portions are respectively inserted into the plurality of through holes formed in the nipple 50 and fixed to the end portions of the first male screw portion 54 side of the nipple 50 by the fastening member 60 to be opened when power is applied. A plurality of heater member 70 and forming a reverse U-shaped to radiate, At the same time as the outer end of the plurality of heater members 70, the outer end side is welded and fixed to the end of the second male thread portion 56 side of the nipple 50, the outer side of the plurality of heater members 70 Cylindrical metal pipe 80 to cover the, A metal solidified body 90 formed by injecting and solidifying a molten conductive metal into the metal pipe 80 so as to cover the plurality of heater members 70 in an airtight manner; First male screw of the nipple 50 to prevent an electric shock when power is applied to the terminal portions 72 of the plurality of heater members 70 exposed at the ends of the first male screw portion 54 side of the nipple 50. Temperature control of the injection mold, characterized in that the cap 100 is formed in the through-hole 102 to be joined to the portion 54 to cover the terminal portion 72, withdraw the power line 110 to the outside. Heater for the device. delete The heater of claim 1, wherein the metal pipe (80) is one selected from a copper pipe or a stainless pipe. A heater member insertion step of inserting both ends of each of the plurality of heater members 70 forming an inverted U-shape in a plurality of through holes formed in the nipple 50, and respectively inserted into the nipple 50 in the heater member insertion step. In the manufacturing method of the heater for the temperature control device of the injection mold consisting of a heater member fixing step of firmly fixing both ends of the plurality of heater members 70 by the fastening member 60, After fixing both ends of the plurality of heater members 70 to the nipple 50 in the heater member fixing step, one side of the metal pipe 80 by covering the metal pipe 80 so as not to contact the heater member 70 A metal pipe welding fixing step of placing an end on the end of the second male thread portion 56 of the nipple 50, and then welding and fixing the weld; A metal melt injection step of injecting a metal melt through an opening of the metal pipe 80 in which one end is welded and fixed on an end of the second male thread portion 56 of the nipple 50 in the metal pipe welding fixing step; , It characterized in that it comprises a metal melt solidification step of solidifying the metal melt injected into the metal pipe 80 in the metal melt 80 in the metal melt injection step so that the metal pipe 80 and the metal melt is combined. Method of manufacturing a heater for a thermoregulator of an injection mold. delete The method of claim 4, wherein the metal pipe 80 is any one selected from copper pipes or stainless pipes.

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