KR101069274B1 - Vacuum furnace - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vacuum furnace, and more particularly, to a vacuum furnace in which thermal efficiency and cooling efficiency are greatly improved, and thus productivity and product quality are greatly improved.

According to an aspect of the present invention, there is provided a vacuum furnace for dissolving and heat-treating a metal in a vacuum state, the body portion including a pressurized vacuum unit configured to pressurize a vacuum pressure to one side of a body for dissolving and heat-treating the metal in a vacuum state; A heating furnace formed at an inner center of the body part, a first opening hole formed at one side of the heating furnace, and a second opening hole formed at the other side of the heating furnace; A blocking part spaced apart from one side of the first opening hole to form a first blocking plate embedded in the body part, and a blocking cylinder to open and close the second opening hole; A cooling unit formed at one side of the first blocking plate; And a blowing unit for introducing air through the cooling unit, wherein the heating furnace further includes a plurality of cold air inlet holes.

Vacuum furnace, cooling

Description

Vacuum Furnace {VACUUM FURNACE}

The present invention relates to a vacuum furnace, and more particularly, to a vacuum furnace in which thermal efficiency and cooling efficiency are improved, and thus productivity and product quality are greatly improved.

In general, a vacuum furnace is also referred to as a vacuum melting furnace, and refers to a furnace for dissolving a metal by making the interior into a vacuum state, and the method of vacuum dissolving a metal has no contamination from surroundings, It has such characteristics as lowering the gas content in the metal. This furnace is classified into resistance type, induction type, arc type and the like according to heating method.

The above-described resistive melting furnace uses a resistor such as metal or ceramics as a heating element, and dissolves the metal by using radiant heat from the surface of the heating element. Induction melting furnace uses Joule heat by electron induction. Heat dissolving the metal by virtue of the heat dissipation, and the arc melting furnace makes contact with the lower end of the consuming electrode and the bottom of the water-cooling crucible to dissolve the electrode by the arc heat generated here.

As described above, the vacuum furnace is not only used to dissolve the metal, but also heat treatment using the vacuum furnace during the heat treatment method of displacing the characteristics of the metal according to the crystal change inside the metal while heating to a suitable temperature and cooling to the metal As the heat treatment is performed by pressurizing in the internal vacuum state, the brightness is excellent, the thermal efficiency is good, and the cooling rate is fast, thereby shortening the heat treatment time and improving productivity.

As described above, the heat-treated metal treated with the heat treatment method using the vacuum furnace has a small amount of deformation, is uniform in hardness and high in pressure cooling, has improved wear resistance, has no decarburization and surface oxidation, and has a uniform temperature so that heat treatment of a special metal is possible. By being possible, each

It is applied to hard-to-heat treatments such as longitudinal tool steel, heat resistant steel and special metals or magnetic treatment.

As described above, the vacuum furnace which is mainly supplied to the melting furnace or heat treatment is heated by the electrical resistance of the heating element to form a vacuum pressure means for pressurizing the inside with a vacuum to the outside provided as a heat insulating means, and is insulated with heat insulating means The heating element is provided inside the vacuum furnace to make the inside of the vacuum furnace, which is provided as a heat insulating means by the vacuum pressurizing means, in a vacuum pressurized state. The product is cooled by cooling means.

Such a vacuum furnace of the prior art is heated in a state in which the metal to be melted and heat-treated into the inside of the vacuum furnace is pressurized with a vacuum, and when heated for a predetermined time, the vacuum furnace is charged by cooling through a cooling means. By opening the front side and the rear side cooled by the cooling means so that the vacuum pressure is applied to the inside of the vacuum furnace in which the metal is loaded, the heat efficiency of the heating element is also acted on the outside of the vacuum furnace, and the thermal efficiency is reduced to the cooling side. There was a problem that the heat is supplied to reduce the cooling efficiency.

In addition, the vacuum furnace of the prior art as a whole of the melted and heat-treated metal when cooled by the cooling means in the state of completing the dissolution and heat treatment of the metal heated in the heat insulating means provided with the heating element of the vacuum furnace for dissolution and heat treatment. There is a problem that the quality of the metal is degraded due to the non-cooling and cooling efficiency is not cooled.

In addition, as the vacuum furnace of the prior art is dissolved and heat treated to maintain the vacuum pressurized state, the flow of the pressurized fluid is not smooth and the cooling means prevents the flow of the cooling fluid during cooling by the cooling means. There was a problem that the cooling efficiency is reduced.

In this regard, the present applicant has disclosed a vacuum furnace for solving the above problems in Patent No. 10-0722859 (name: vacuum furnace, hereinafter referred to as a registered patent).

The present invention has been made to solve the problems of the prior art, the main object of the present invention is to provide a vacuum furnace that greatly improved the cooling efficiency.

Another object of the present invention is to provide a vacuum furnace that improves the quality of the product according to the improvement of the cooling efficiency.

In order to achieve the above object, the vacuum furnace of the present invention, in the vacuum furnace for dissolving and heat-treating the metal in the vacuum state, pressurizing the vacuum pressure to the inside of one side of the body for dissolving and heat-treating the metal in the vacuum state A body part in which a vacuum part is formed; A heating furnace formed at an inner center of the body part, a first opening hole formed at one side of the heating furnace, and a second opening hole formed at the other side of the heating furnace; A blocking part spaced apart from one side of the first opening hole to form a first blocking plate embedded in the body part, and a blocking cylinder to open and close the second opening hole; A cooling unit formed at one side of the first blocking plate; And a blowing unit for introducing air through the cooling unit, wherein the heating furnace further comprises a plurality of cold air inlet holes.

In addition, the vacuum furnace for dissolving and heat-treating the metal in a vacuum state, the body portion is formed with a pressurized vacuum portion for pressurizing the vacuum pressure therein to one side of the body for dissolving and heat-treating the metal in a vacuum state; A heating furnace formed at an inner center of the body part, a first opening hole formed at one side of the heating furnace, and a second opening hole formed at the other side of the heating furnace; A blocking portion spaced apart from one side of the first opening hole to form a first blocking plate embedded in the body portion, and spaced apart from the other side of the second opening hole to form a second blocking plate embedded in the body portion; A cooling unit formed at one side of the first blocking plate; And a blowing unit for introducing air through the cooling unit, wherein the heating furnace further comprises a plurality of cold air inlet holes.

At this time, the heat exchanger is further provided between the first blocking plate and the cooling unit.

delete

According to the present invention as described above, the cooling efficiency and the thermal efficiency are greatly improved, and accordingly, the productivity is improved by providing a high-quality metal by speeding up the heating process and dissolving and heat-treating the metal at a quick and uniform temperature. It is effective to improve.

In particular, there is an effect of greatly improving the quality of the product during the cooling process, the properties of the product greatly depends on the cooling temperature and cooling time during cooling.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a vacuum furnace disclosed by a conventional applicant, Figure 2 is a rear perspective view showing a vacuum furnace disclosed by a conventional applicant, Figure 3 is a cross-sectional view showing a vacuum furnace disclosed by a conventional applicant. 4 is a configuration diagram showing a heating state of a vacuum furnace disclosed by the applicant of the related art, and FIG. 5 is a partial cutaway perspective view showing a main part of the vacuum furnace disclosed by the applicant of the prior art, and FIG. 7 is a cross-sectional view showing an internal structure according to an embodiment of a vacuum furnace according to the present invention, and FIG. 7 is a cross-sectional view showing an internal structure according to another embodiment of the vacuum furnace according to the present invention.

First, prior to explaining the configuration of the present invention, the present invention has been improved to improve the cooling efficiency of the registered patent registered by the applicant, the basic operating principle of the present invention is the same as the registered patent, so the basic configuration And the operation principle will be described based on the registered patent.

Looking at this, as shown in Figures 1 to 5, the front cover 113 provided to the front side of the flange portion 112 formed on both sides in the body 111 of the body portion 110 to heat or melt the metal In the opened state by rotating around the hinge portion 114, a metal for dissolving and heat treatment is charged to the front opening 124 side of the heating furnace 121 provided with the heat insulating member 122.

Thus, in the state in which the metal is charged in the heating furnace 121, the front cover 113 is closed by the hinge portion 114 and fixed by the fastener 115 to press the side portion of the body 111 in a closed state. The study 118 is operated to press the inside of the body portion 110 with a vacuum pressure.

As described above, when the inside of the body portion 110 of the vacuum furnace 100 is pressed by the vacuum pressure, the front blocking cylinder 132 formed on one side of the front cover 113 is operated to prevent the front blocking rod 133 from being coupled to the front blocking rod 133. The sphere 131 closes the front opening port 124 formed to the front side of the heating furnace 121, and is coupled to the rear blocking rod 136 by operating the rear blocking cylinder 135 provided at the side of the body 111. The rear shut-off opening 134 closes the rear opening 125 formed at the rear side of the heating furnace 121 to apply electric power to the heating element in a state in which the open portions on both sides of the heating furnace 121 are completely closed. Heated for dissolution and heat treatment.

In this way, by heating the heating element 121 in the state in which the heating furnace 121 is completely closed, only the volume of the heating furnace 121 is heated, thereby increasing the thermal efficiency and rapidly heating the metal inside the heating furnace, whereby the characteristics of the metal are improved. To improve.

As described above, when the melting furnace and the heat treatment are finished in the closed state of the heating furnace 121, the front blocking cylinder 132 is operated to open the front blocking opening 131 coupled to the front blocking rod 133, and the rear blocking cylinder. Cooling supply unit 143 is supplied to the cooling water is supplied to the cooling exchange unit 142 is exchanged in the cooling tower 141 in the state of opening the front block opening 131 coupled to the rear blocking rod 136 by operating (135) Cooling water supplied from the cooling frame 147 is provided with a cooling frame 144 is provided to be coupled to a plurality of cooling pipes 145 provided with a pleat portion 146 to increase the exchange volume of cold air to supply the cooling water. .

As such, when the coolant is supplied, the air is provided with guide vanes 153 in the cooling space 147 in a state where cold air is formed in the cooling space 147 while circulating inside the cooling pipe 145 connected to the cooling frame 144. The blower 152 is supplied to the heating furnace 121 in which metal is charged through the inside of the body 111 through the inside of the body 111 by the blowing motor 151 by the blowing pressure by the blowing pressure.

At this time, the heating furnace opened through the outside of the body 111 as cold air is supplied to the rear side with the blowing pressure in a state in which the front opening opening 124 and the rear opening opening 125 are open to both sides of the heating furnace 121. (121) By supplying the coolant while convection to the inner side, to increase the cooling efficiency.

As described above, by supplying a cooling fluid of the cooling unit 140 by the operation of the blower 150 to cool the metal of the heating furnace 121 and the cooled and heated fluid is the air flow hole 117 of the rear cover 116 It is cooled while finishing the melting and heat treatment.

Therefore, as the heating element 123 is operated in a state in which the heating unit 121 is closed by the blocking unit 130, melting and heat treatment are performed, thereby rapidly heating while increasing the thermal efficiency, and supplied to the cooling unit 140. The cooling fluid cooled by the cooling water is supplied by convection to the inside of the body at the blowing pressure of the blower 150 to cool.

As described above, the basic configuration and operation principle of the present invention have been described based on the above-mentioned patent, and the present invention is to improve the cooling efficiency and the quality of the heat-treated product (metal) based on the above. The rear blocking cylinder 135 is removed from the front blocking cylinder 132 and the rear blocking cylinder 135, and as illustrated in FIG. 6 or 7, the first blocking plate 31 is installed or the front is blocked. And removing the rear blocking cylinders 132 and 135 and installing the first blocking plate 31 and the second blocking plate 32.

In addition, a heat exchanger 60 is further provided, and the heating furnace 21 forms a plurality of cold air inlet holes 24 formed in a predetermined size so that cold air flows during cooling.

Since the main configuration and operation principle of the present invention have been described in detail in the registered patent, the following briefly examines the operation process of the present invention, and will be described based on the flow of cold air during the cooling treatment and the operation principle therefor.

First, as shown in FIG. 5, in a vacuum furnace for dissolving and heat-treating metal in a vacuum state, a pressurized vacuum part pressurizing a vacuum pressure to one side of the body 11 for dissolving and heat-treating metal in a vacuum state. Body portion 10 is formed (12); A heating furnace 21 is formed at the inner center of the body portion 10, and a first opening hole 22 is formed at one side of the heating furnace 21, and a second side is formed at the other side of the heating furnace 21. A heating furnace part 20 in which an opening hole 22 is formed; The first blocking plate 31 formed in the body part 10 is spaced apart from one side of the first opening hole 22 of the heating part 20, and the heating part of the heating part 20 is formed. Blocking unit 30 is formed with a blocking cylinder 33 for opening and closing the second opening hole 23; A cooling unit 40 formed on one side of the first blocking plate 31; And a blowing unit 50 for introducing air into the body 11 through the cooling unit 40.

The heat exchanger 60 is further provided between the first blocking plate 31 and the cooling unit 40, and the plurality of cold air inlet holes 24 are further provided in the heating furnace 21.

The main configuration and operation principle are the same as the registered patent, but in the above configuration, the rear blocking cylinder 135 is removed, and the first opening hole 22 (the rear opening opening 125 of the registered patent) The first blocking plate 31 is installed at a position apart from the same length).

Although the size of the first blocking plate 31 may be variously manufactured, it is preferable that the size of the first blocking plate 31 be larger than the size of the first opening hole 22.

In addition, although not shown in detail, the first blocking plate 31 and the second blocking plate 32 to be described below are supported at one side inside the body 11 to allow the first opening hole 22 and the following. It is installed so that its center is located in the central part of the 2nd opening hole 23 to be demonstrated.

The heating furnace 21, the first blocking plate 31 and the second blocking plate 32 to be described below are preferably made of an insulating material.

When the inside of the heating furnace 21 is heated, the blocking cylinder 33 is closed, and the first opening hole 22 is open, but is discharged to the outside when the inside of the heating furnace 21 is heated. The heat shielding part of the first blocking plate 31 is blocked.

After the heat treatment is finished, when the blocking cylinder 33 is opened and the blower unit 50 is operated, air cooled through the cooling unit 40 is circulated, as shown in FIG. 6.

Although not shown in detail, cold air flows into the heating furnace 21 through the cold air inlet hole 24, and circulates inside the body 11 to open the second opening hole 23 and the cold air inlet hole ( Air introduced into the heating furnace 21 through 24 is discharged to the outside through the heat exchange part 60 through the first opening hole 22.

The heat exchanger 60 cools the air heated again while passing through the heating furnace 21, and the air cooled through the heat exchanger 60 exits to one side of the body portion 10.

As the air is circulated as described above, the inside of the heating furnace 21 is cooled.

In addition, in the vacuum furnace for dissolving and heat-treating the metal in a vacuum state, the body portion is formed with a pressurized vacuum portion 12 for pressurizing a vacuum pressure therein to one side of the body 11 for dissolving and heat-treating the metal in a vacuum state 10; A heating furnace 21 is formed at the inner center of the body portion 10, and a first opening hole is formed at one side of the heating furnace 21, and a second opening hole is formed at the other side of the heating furnace 21. A heating furnace unit 20 in which 23 is formed; A first blocking plate 31 formed in the body part 10 is spaced apart from one side of the first opening hole 22 of the heating part 20, and the second of the heating part 20 is formed. A blocking part 30 spaced apart from the other side of the opening hole 23 to form a second blocking plate 32 embedded in the body part 10; A cooling unit 40 formed on one side of the first blocking plate 31; And a blowing unit 50 for introducing air into the body 11 through the cooling unit 40.

The heat exchanger 60 is further provided between the first blocking plate 31 and the cooling unit 40, and the plurality of cold air inlet holes 24 are further provided in the heating furnace 21.

That is, as shown in FIG. 7, the blocking cylinder is removed in the configuration of FIG. 6, and the second blocking plate is installed on the other side of the second opening hole.

Therefore, when the inside of the heating furnace 21 is heated, the first blocking plate 31 and the second blocking plate 32 are pulled out through the first opening hole 22 and the second opening hole 23. Block some outgoing heat.

After the heat treatment is completed, when the blower 50 is operated, air generated in the blower 50 is cooled through the cooler 40 and circulated as shown in FIG. 7.

Although not shown in detail, cold air is also introduced through the cold air inlet hole 24, and the cold air introduced into the heating furnace 21 through the second opening hole 23 and the cold air inlet hole 24 is formed. It passes through the heat exchange part 60 through the first opening hole 22 to the outside.

The heat-treated product inside the furnace is cooled by the circulation of cold air according to the structure of the present invention as described above, which greatly improves the cooling efficiency and thereby increases the quality of the product.

While the present invention has been illustrated and described with respect to preferred embodiments, the invention is not limited to the above-described embodiments, and is commonly used in the field of the invention without departing from the spirit of the invention as claimed in the claims. Anyone with a variety of variations will be possible.

1 is a perspective view showing a vacuum furnace disclosed by the applicant of the prior art,

Figure 2 is a rear perspective view showing a vacuum furnace disclosed by the present applicant,

3 is a cross-sectional view showing a vacuum furnace disclosed by the applicant of the prior art,

4 is a block diagram showing a heating state of a vacuum furnace disclosed by the present applicant,

Figure 5 is a partial cutaway perspective view showing the main part of the vacuum furnace disclosed by the present applicant,

6 is a cross-sectional view showing an internal structure according to an embodiment of a vacuum furnace according to the present invention;

7 is a cross-sectional view showing an internal structure according to another embodiment of a vacuum furnace according to the present invention.

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

10: body portion 11: body

12: Pressurized vacuum part

20: heating furnace part 21: heating furnace

22: first opening hall 23: second opening hall

24: cold air inlet hole

30: breaking part 31: the first blocking plate

32: 2nd blocking plate 33: blocking cylinder

40: cooling part

50: blower

60: heat exchanger

Claims (4)

In a vacuum furnace for dissolving and heat-treating metal in a vacuum state, A body part having a pressurized vacuum part configured to pressurize a vacuum pressure to one side of a body for dissolving and heat-treating metal in a vacuum state; A heating furnace formed at an inner center of the body part, a first opening hole formed at one side of the heating furnace, and a second opening hole formed at the other side of the heating furnace; A blocking part spaced apart from one side of the first opening hole to form a first blocking plate embedded in the body part, and a blocking cylinder to open and close the second opening hole; A cooling unit formed at one side of the first blocking plate; And A blowing unit for introducing air through the cooling unit; To include, The heating furnace is a vacuum furnace, characterized in that the plurality of cold air inlet hole is further provided. In a vacuum furnace for dissolving and heat-treating metal in a vacuum state, A body part having a pressurized vacuum part configured to pressurize a vacuum pressure to one side of a body for dissolving and heat-treating metal in a vacuum state; A heating furnace formed at an inner center of the body part, a first opening hole formed at one side of the heating furnace, and a second opening hole formed at the other side of the heating furnace; A blocking portion spaced apart from one side of the first opening hole to form a first blocking plate embedded in the body portion, and spaced apart from the other side of the second opening hole to form a second blocking plate embedded in the body portion; A cooling unit formed at one side of the first blocking plate; And A blowing unit for introducing air through the cooling unit; To include, The heating furnace is a vacuum furnace, characterized in that the plurality of cold air inlet hole is further provided. The method according to claim 1 or 2, And a heat exchange part is further provided between the first blocking plate and the cooling part. delete

Images