KR100963796B1 - Manufacturing system by continuous warm rolling press for frame using magnesium panel - Google Patents

Abstract

PURPOSE: A continuous warm-rolling press manufacturing system for molded products using magnesium panel is provided to maintain the temperature of a magnesium board forming material with a forming material heating unit. CONSTITUTION: A continuous warm-rolling press manufacturing system for molded products using magnesium panel comprises a magnesium board feed unit(11), a warm-rolling press unit, forming heating units, forming cooling units(14), and transfer units. The magnesium board feed unit keeps warm-rolling temperature by the heating member. The warm-rolling press unit presses the magnesium board in one time or greater. The chamber of the forming heating unit is operated to top and bottom with the top jig by the hydraulic cylinder. The inner temperature of the chamber is maintained to the constant temperature by the heating member.

Description

Manufacturing system by continuous warm rolling press for frame using magnesium panel

The present invention relates to a continuous warm press manufacturing system of a molding using a magnesium plate, and more particularly, to a molding having a relatively complicated structure, using a magnesium plate having a low specific gravity of 1.74, which is strong in strength, light in weight, and not corrosive to alkalinity. In order to be manufactured through a continuous warm press to significantly reduce the weight of the molding itself, while the strength is significantly invented.

In recent years, moldings have been adopted by die casting, using magnesium as a raw material, which has strength, hardness, lightness, and corrosion resistance.

However, when manufacturing a magnesium molding through a die casting mold as described above, there is a problem that the strength is lowered compared to the investment cost of the mold.

Therefore, if a magnesium molded product having a complicated shape, strength, and hardness is to be manufactured, it is necessary to form a reinforcement part at a specific part in the end. It is true.

The present invention has been devised to solve such a conventional problem, and the molded product having a relatively complicated structure has a strong strength and hardness, is not corrosive to alkalinity, and has a specific gravity of 1.74. The present invention provides a continuous warm press manufacturing system for moldings using magnesium plate material, which can greatly reduce the weight itself on the molding, and greatly increase its strength and hardness, and can also help to reduce the weight. have.

A first embodiment of the present invention for achieving the above object, has a rectangular housing shape, the internal temperature of the heating means by the heating operation of the heating means to maintain a warm molding temperature (for example 250-300 ℃) several magnesium Magnesium plate supply unit for heating and injecting the plate; The inside of the rectangular housing is provided with upper and lower molds in which a heater having a heat generation temperature of 250-300 ° C. is built-in. Several warm press working parts which are press-processed over a car or more cars; An upper and lower jig and a chamber are installed inside the rectangular housing to maintain the shape of the magnesium sheet moldings. The chamber is operated up and down by a hydraulic cylinder together with the upper jig, and the internal temperature of the chamber is 250-300 by heating means. A plurality of molding heating parts having a structure for maintaining the temperature of ℃ and continuously installed at the rear of each warm press working part to maintain the warm molding temperature of the magnesium sheet moldings; The upper and lower jig and the upper jig driving hydraulic cylinder and the cooler to maintain the shape of the magnesium sheet moldings are installed in the rear part of the final warm press moving part to maintain the shape of the magnesium molding processed by the warm press, A molding cooler for lowering the jig and forcibly cooling the lower jig; Magnesium sheet molding or finished magnesium processed at least one step from the magnesium sheet supplying part to the warm press working part one by one, or from the warm press working part to the molded heating part or the molding cooling part, or from the molded heating part to the warm press working part It characterized in that it comprises a; a plurality of transfer to transfer the molded by vacuum suction.

At this time, both sides of the rectangular housing of the magnesium plate supply unit, the warm press processing unit and the molding heating unit are provided with a door for entering and entering the magnesium plate itself or the processed magnesium plate molded product or the finished magnesium molded product, respectively. It is done.

In addition, the inlet of the magnesium plate supply portion is characterized in that the conveyor belt for automatically inserting a sheet of magnesium plate cut to a desired size from the outside automatically one by one.

According to a second embodiment of the present invention for achieving the above object, it has a rectangular housing shape having doors on both sides and its internal temperature is warmed by a heating operation of a heating means (for example, 250-300 ° C.). A magnesium plate supply unit which maintains and heats several magnesium plates which are automatically fed on a conveyor belt; Inside the rectangular housing having doors on both sides, upper and lower bases with heaters having a heat generation temperature of 250-300 ° C. are installed. It is installed at regular intervals, and between the lower molds, a structure in which several transfers are formed by vacuum suction of the magnesium sheet molded product pressed in the previous mold to move to the next mold, and in response to the operation of the hydraulic cylinder, the magnesium sheet itself or A warm press working portion for simultaneously pressing the first or more magnesium molded product molded over the first or more times; The upper and lower jig and the upper jig driving hydraulic cylinder and the cooler to maintain the shape of the magnesium sheet moldings are installed in the rear part of the warm press movable portion to maintain the shape of the magnesium molding processed by the warm press, A molding cooler for lowering the jig and forcibly cooling the lower jig; It is characterized in that it comprises a supply for supplying and withdrawing transfer of the magnesium plated by the magnesium plate material supply unit from the magnesium plate material supply unit to the warm press processing unit one by one, or vacuum-absorbing the processed magnesium molding from the warm press processing unit to the molding cooling unit.

The third embodiment of the present invention for achieving the above object, has a rectangular housing shape, the internal temperature is maintained by the heating operation of the heating means to maintain the warm molding temperature (for example 250-300 ℃) and the conveyor belt A magnesium plate supply unit which heats several magnesium plates that are automatically loaded into the vehicle; Magnesium sheet itself or a magnesium sheet molded product which has a hydraulic cylinder and upper and lower molds and is installed at a predetermined angle inside a cylindrical body having a warm forming temperature at a predetermined angle and press-processed at least a primary, Several warm press working parts sequentially press-processed over a car; Several molding heating parts having upper and lower jigs and chambers and installed between the warm press working parts inside the cylindrical body to maintain the warm forming temperature of the magnesium sheet moldings processed by the warm press working parts. Wow; Magnesium plate material which is provided with a radial vacuum suction part and is rotatably installed at the center point of the cylindrical body, and is supplied from the magnesium plate material supply part to the primary warm press working part, and is processed by primary press or more by the warm press working parts. A rotary transfer which simultaneously transfers the molded magnesium sheet molding to the molding heating unit and simultaneously transfers the primary or more processed magnesium sheet molding heated by the molding heating unit to the next warm press working unit through vacuum adsorption; The upper and lower jig, the upper jig driving hydraulic cylinder and the cooler to maintain the shape of the magnesium sheet moldings and the cooler are installed in the rear part of the final warm press working part among the warm press moving parts installed in the cylinder. A molded product cooling unit for cooling by forcibly installing upper and lower jigs for maintaining a processed magnesium molded product shape; It characterized in that it comprises a take-out transfer for vacuum-sucking and transporting the processed magnesium molding from the final warm press working part to the molding cooling part.

As described above, according to the present invention, a molded product having a relatively complicated structure is manufactured through continuous warm press using magnesium plate having a high strength, hardness, light weight, corrosion resistance to alkalinity, and low specific gravity of 1.74. Between the processing sections, the molding heating unit is installed to maintain the temperature of the magnesium sheet molding to prevent cracking when the magnesium sheet is formed through the press, thereby enabling continuous warm press processing using the magnesium sheet. It is a very useful invention that can greatly increase the strength and hardness while significantly reducing the weight itself, and can also help to reduce the weight.

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

1 shows a schematic block diagram according to a first embodiment of the present invention, FIG. 2 shows a schematic block diagram of a modification according to a first embodiment of the present invention, and FIG. 3 shows a second block diagram of the present invention. 4 shows a schematic block diagram according to an embodiment, and FIG. 4 shows a schematic block diagram according to a third embodiment of the present invention.

Accordingly, according to the first embodiment of the present invention, as shown in FIG.

Magnesium having a rectangular housing 11a shape, the internal temperature of which is maintained by the heating operation of the heating means 11b, and maintained by a warm forming temperature (for example, 250-300 ° C.), and heated by several magnesium plates 1 Plate supply section 11;

The inside of the rectangular housing 12a is provided with upper and lower molds 12c and 12d in which a heater 12b having a heat generation temperature of 250 to 300 ° C is built in, and in response to the operation of the hydraulic cylinder 12e, magnesium Several warm press working portions 12 1-12 _n which press-process the sheet metal 1 itself or the magnesium plate-molded product 2 which has been press-processed for at least one primary;

Upper and lower jigs 13b and 13c and a chamber 13d are installed in the rectangular housing 13a to maintain the shape of the magnesium sheet moldings 2, and the chamber 13d is an upper jig 13b. And up and down by the hydraulic cylinder 13e and having a configuration in which the internal temperature of the chamber is maintained at 250-300 ° C. by the heating means 13f, and behind each of the warm press working parts 12 1-12 _n . are continuously arranged on the plate material of magnesium molding (2) are several moldings heating unit (13 ₁₎ which is heated to maintain the warm compaction temperature - (13n) and;

The rear part of the final warm press movable part 12n is provided with the upper and lower jig 14a, 14b, the upper jig driving hydraulic cylinder 14c, and the cooler 14d, which maintain the shape of the magnesium sheet moldings 2; A molding cooling unit 14 installed at the upper and lower jigs for maintaining the shape of the processed magnesium molding 3 by a warm press and forcibly cooling the molded article;

The magnesium sheet material 1 is supplied to the primary warm press working part 12 ₁ from the magnesium sheet supplying part 11 one by one, or the molding heating part 13 _{1 is} supplied from the warm press working parts 12 _{1 to} 12 _n . Magnesium sheet moldings (2) processed more than one-by-one by 13- (13n) or by molding cooler (14) or by hot-pressing (12 ₂ )-(12n) by molding heating (13 ₁ )-(13n) Or several transfers 15 1-15 _n for vacuum-adsorbing the processed magnesium molding 3 in vacuum.

In this case, the magnesium sheet supply section 11 and the warm press-forming portion (12 ₁₎ - (12n) and the molding heating unit (13 ₁₎ - (13n) rectangular housing (11a) (12a) (13a ) opposite sides has a respective magnesium Door plate (1) itself or the first or more processed magnesium plate molding (2) or the finished magnesium molding (3) is characterized in that it is provided with a door (D) capable of drawing in and out.

In addition, the inlet of the magnesium plate supply unit 11 is characterized in that the conveyor belt (11c) for automatically inserting one by one to the magnesium plate 1 cut to the desired size from the outside as shown in FIG.

In addition, the second embodiment of the present invention, as shown in Figure 3,

It has the shape of a rectangular enclosure 21a having a door D on both sides, and its internal temperature is maintained by the heating operation of the heating means 21b to maintain a warm molding temperature (for example, 250-300 ° C.) and the conveyor belt 21c. Magnesium plate supply unit 21 for heating the several magnesium plate (1) that is automatically added to take a);

The upper and lower bases 22c and 22d in which the heater 22b having a heat generation temperature of 250-300 ° C are built are installed inside the rectangular housing 22a having the door D on both sides. On the bottom and upper surfaces of the lower bases 22c and 22d, a plurality of upper and lower molds 22e and 22f are provided at predetermined intervals, respectively, and the lower molds 22f are processed by a previous mold between the lower molds 22f. It has a structure in which several transfers 22g for vacuum-suctioning the formed magnesium plate molding 2 to be transferred to the next mold are installed, and the magnesium plate 1 itself or the first or more presses are made in response to the operation of the hydraulic cylinder 22h. A warm press working portion 22 for simultaneously press-processing the magnesium plate-molded product 2 over a primary or higher difference;

The rear part of the warm press movable part 22 is provided with upper and lower jigs 24a and 24b, an upper jig driving hydraulic cylinder 24c and a cooler 24d, which maintain the shape of the magnesium sheet moldings 2. A molded article cooling unit 24 installed at the upper and lower jigs for maintaining the shape of the processed magnesium molded article 3 by a warm press and forcibly cooling it;

Magnesium moldings (3) that have been supplied by checking the magnesium plate (1) one by one from the magnesium plate supply unit 21 to the warm press working part 22, or processed into a molding cooling part (24) in the warm press working part (22) It is characterized in that it comprises a; and the transfer (25a, 25b) for supplying and withdrawing the vacuum suction.

Meanwhile, as shown in FIG. 4, the third embodiment of the present invention,

Several magnesiums having a rectangular housing 31a shape, the internal temperature of which is maintained by the heating operation of the heating means 31b, and which is maintained automatically at the warm forming temperature (for example, 250-300 ° C.) and is automatically fed on the conveyor belt 31c. Magnesium plate supply unit 31 for heating the plate (1);

It is provided with a hydraulic cylinder 32e and upper and lower molds 32c and 32d and installed at a predetermined angle inside a cylindrical body 36 having a warm forming temperature therein, so that the magnesium sheet 1 itself or 1 is provided. a car than pressing the magnesium plate moldings (2), the number of warm-press processing unit (32 ₁₎ to sequentially press work over a first or higher order - and (32n);

The upper and lower jig (33b) and 33c and the chamber (33d) and the inside of the cylindrical body 36 is installed radially between the warm press processing portion (32 ₁ )-(32n) each warm press processing unit (32 ₁₎ a magnesium plate processed by the (32n), the molding (2) are several moldings heating unit (33 ₁₎ to maintain the warm compaction temperature - (33n) and;

Primary warm press working of the magnesium plate 1 supplied from the magnesium plate supply unit 31 having a radial vacuum suction unit 35a-1 and rotatably installed at the center point of the cylindrical body 36. a (33n), - part (32 _1), the warm press-forming part (32 ₁₎ - (32n) of the first or above the magnesium plate molded article (2) the formed product heating unit (33 ₁₎ processed primarily by the A rotatable transfer 35a for simultaneously transferring the primary or higher processed magnesium plate molding 2 heated by the heating sections 33 _{1 to} 33 _n to the next warm press working section through vacuum suction;

The upper and lower jigs 34a and 34b, the upper jig driving hydraulic cylinder 34c and the cooler 34d, which maintain the shape of the magnesium sheet moldings 2, are provided in the cylindrical body 36. The upper and lower jigs are installed in the rear part of the final warm press working part among the warm press working parts 32 ₁ and 32 n to maintain the shape of the magnesium molded product 3 processed by the warm press and are forcibly cooled. Molding cooling unit 34 to be made;

And a take-out transfer 35b for vacuum-suctioning and transporting the processed magnesium molding 3 from the final warm press working part to the molding cooling part 34 in a vacuum.

Referring to the effect of the continuous warm press manufacturing system of the molding using the present invention magnesium plate material configured as described above are as follows.

First, the first embodiment of the present invention is largely a magnesium plate supply portion 11, several warm press working parts (12 ₁ )-(12n), several molding heating parts (13 ₁ )-(13n), molding cooling parts (14) and several transfers 15 _{1 to} 15 _n are the main technical components.

In the above, the magnesium plate supply unit 11 is provided with a heating means 11b inside a rectangular housing 11a having a door D on both sides thereof, and is provided with a heating means 11b controlled by a controller (not shown). The internal temperature is maintained by the heating operation of the magnesium to maintain a warm forming temperature (for example 250-300 ℃), heating several magnesium plate 1 and several warm press through the transfer (15 ₁ ) to be described later The _first part of the processing parts 12 _{1 to} 12 _n is supplied to the warm press working part 12 ₁ .

At this time, the magnesium plate supply unit 11 may be laminated to several sheets of magnesium plate 1 cut to a desired size as shown in FIG. 1 and heated at 250-300 ° C. through a heating means 11b. In addition, if necessary, as shown in FIG. 2, a conveyor belt 11c is installed at the inlet of the magnesium plate supply unit 11 to automatically receive magnesium plate 1, and a 250-300 ° C. through a heating means 11b. to to give to input one by one to the first number of warm-press processing unit (12 ₁₎ of the (12n) - warm was heated to the molding temperature and then transfer (15 _1), the number of warm-press processing unit through _{(12: 1)} It may be.

In addition, the several warm press working parts 12 _{1 to} 12 _n described above are heaters 12b each having a heat generation temperature of 250 to 300 ° C. in each rectangular enclosure 12a having doors D on both sides thereof. ), Upper and lower molds 12c and 12d having a built-in, and a hydraulic cylinder 12e whose operation is controlled by a controller (not shown) are installed on the upper mold 12c. 15 ₂ ) Magnesium sheet 1 itself or magnesium sheet molded article 2 pressed over at least primary, supplied to lower mold 12d by ₂ )-(15n) over a primary or higher difference in the desired shape. Each press is processed.

In addition, the above-mentioned several molding heating parts (13 ₁ )-(13n) is the upper and lower parts to maintain the shape of the magnesium plate moldings (2) inside the rectangular housing (13a) having a door (D) on both sides Jig 13b, 13c and chamber 13d are installed, wherein the chamber 13d is operated up and down by the hydraulic cylinder 13e together with the upper jig 13b, and the internal temperature of the chamber is applied to the heating means 13f. It has a configuration to maintain the warm forming temperature of 250-300 ℃, it is installed in the rear portion of each of the warm press processing parts (12 ₁ )-(12n) so that the magnesium sheet moldings (2) to maintain the warm molding temperature It will heat up.

At this time, the reason why the internal temperature of the chamber 13d is maintained at 250-300 ° C., which is a warm forming temperature, is because the temperature of the magnesium sheet moldings 2 which have been previously pressed by the warm press working part is during press working or the (13n) - then tea warm case falls below the molding of the transfer portion pressing the warm temperature, and then warm during pressing in the press processing of magnesium plate molded article itself, or a portion thereof is broken, so the molding heating unit (13 ₁₎ in order to prevent this By using the temperature of the magnesium sheet moldings (2) to maintain the warm forming temperature of 250-300 ℃.

In addition, the molding cooler 14 includes upper and lower jigs 14a and 14b for maintaining the shape of the magnesium sheet moldings 2, an upper cylinder jig driving hydraulic cylinder 14c, and a cooler 14d. When the magnesium molded product 3 processed by the warm press is automatically transferred by the transfer in the state of being installed at the rear part of the final warm press movable part 12n, the upper and lower jigs 14a and 14b are gripped to deform the deformation. Cooling is performed by forced air blowing or cooling water supply in such a state that it does not occur so that a molded article of a desired shape is completed.

In addition, the several transfers 15 _{1 to} 15 _n have a configuration provided between the respective parts, and the magnesium plate material (1 1) from the magnesium plate material supply part 11 to the primary warm press working part 12 ₁ . 1) feed, or the check one by one the warm press-forming portion (15 ₂₎ - (13n) or the molded article cooling section 14 to or formed product heating unit (13 ₁₎ - (15n) molding the heating unit (13 ₁₎ in the - (13n), the warm press-forming portion (12 ₂₎ - the (12n) 1 primary molded article more than the magnesium plate (2) or the processing is completed the magnesium molding (3) to the processing and performs the function of moving the vacuum suction.

At this time, the transfer is provided with a rotating means (not shown) and the lifting, lowering means and adsorption means, such as magnesium plate material (1) to be moved or the first or more processed magnesium plate material (2) or finished magnesium molded product ( In response to the position of 3), the rotation, lifting, lowering and adsorption functions are performed to absorb each of the components of the previous step and move them to the components installed in the next step as described above.

On the other hand, the second embodiment of the present invention, as shown in Figure 3, largely the magnesium plate supply portion 21, the warm press working portion 22, the molded article cooling portion 24, the supply and take-out transfer 25a ( 25b) is the main technical component.

At this time, since the magnesium plate supply unit 21 has the same configuration and function as the modified example of the first embodiment described above, description of the detailed operation state is omitted in order to avoid redundant description.

However, unlike the first embodiment, the warm press working part 22 is provided with several upper and lower molds 22e and 22f in one warm press working part 22 without the molding heating part. (22g) was provided.

That is, the warm press working part 22 has an upper and a lower base having a heater 22b having a heat generation temperature of 250-300 ° C. in a rectangular housing 22a having a door D on both sides thereof. 22c) and 22d are provided, and several upper and lower molds 22e and 22f are provided at predetermined intervals on the bottom and top surfaces of the upper and lower bases 22c and 22d, respectively. Between 22f), several transfer 22g which vacuum-sucks the magnesium plate molding 2 pressed by the previous metal mold | die to the next metal mold | die is installed.

The warm press working part 22 of the second embodiment of the present invention having such a configuration has a primary phase in the magnesium plate supply part 21 when the upper die 22e is operated in response to the operation of the hydraulic cylinder 22h. Magnesium sheet material (1) itself, which is supplied between the lower molds or the first or more presses, and then the magnesium plate moldings (2) adsorbed and transported to the next upper and lower molds are pressed at the same time over the primary or higher difference. do.

Of course, when the press working of the magnesium plate molding 2 having a predetermined shape at the same time in each of the upper and lower molds 22e and 22f by the first operation of the hydraulic cylinder 22h is completed, respectively, In addition to the transfer 22g provided between the lower molds 22f, the supply transfer 25a provided between the outlet of the magnesium plate supply part 22 and the inlet of the warm press working part 22 is provided. The magnesium plate moldings (2) press-worked in the previous mold, including the magnesium plate (1) which is in operation and preheated to the warm forming temperature in the magnesium plate supplying unit (11), are vacuum-adsorbed into the mold of the next step. It will be moved automatically.

In addition, the molded article cooling unit 24 also has the same configuration and function as the molded article cooling unit in the above-described first embodiment, and thus detailed description of the operating state is omitted in order to avoid redundant description.

In addition, the supply and withdrawal transfers 25a and 25b are separate from the several transfers 22g provided in the warm press forming portion 22, and the magnesium plate supply portion 11 and the warm press forming portion 22 are different from each other. Between each and the warm press working part 22 and the molding cooling part 24, respectively, supply the magnesium plate material 1 one by one from the magnesium plate supply part 21 to the warm press working part 22, or warm In the press working part 22, the processed magnesium molding 3 is vacuum-adsorbed to carry out the function of transferring to the molding cooling part 24.

Meanwhile, according to the third embodiment of the present invention, as shown in FIG. 4, the magnesium plate material supply part 31, the several warm press working parts 32 _{1 to} 32 n, and the several molding heating parts 33 _{1 are} shown. The main technical components include-33n, rotatable transfer 35a, molding cooler 34 and take-out transfer 35b.

In this case, since the magnesium plate supply unit 31 and the molding cooling unit 34 have the same configuration and function as in the first and second embodiments as described above, detailed description thereof will be omitted.

However, several warm press working parts 32 _{1 to} 32 n applied in the third embodiment of the present invention include a hydraulic cylinder 32e and upper and lower molds 32c and 32d. It has a configuration installed radially from the center point at a predetermined angle inside the cylindrical body 36 having a warm forming temperature, in each of the warm press working portion magnesium plate (1) itself or the first or more press Magnesium sheet molding 2 performs a function of sequentially pressing the first or more difference over the difference.

In addition, the above-mentioned several molding heating parts 33 _{1 to} 33 _n have a configuration including upper and lower jigs 33b and 33c, a chamber 33d, and a hydraulic cylinder 34e as in the first embodiment. And a magnesium plate molding formed by the warm press working parts 32 ₁ and 32 n in a state of being installed between the warm press working parts 32 ₁ and 32 n inside the cylindrical body 36. 2) The warm molding temperature is maintained so that they will not be broken in the next process.

On the other hand, the number of warm-press processing unit (32 ₁₎ in the third embodiment of the invention the interior of the cylindrical body 36 as the above described (33n) - (32n) to the number of molding the heating unit (33 ₁₎ As the radially installed at an angle alternately with each other in the radial direction, the magnesium plate (1) to the primary warm press working portion (32 ₁ ), or by the warm press working portion (32 ₂ )-(32n) Or the primary or more primary processed magnesium plate molding (2) heated by molding heating parts (33 ₁ )-(33n) or by molding heating parts (33 ₁ )-(33n). The transfer plate 35a, which simultaneously transfers the magnesium sheet molding 2 to the next warm press working portion through vacuum adsorption, was configured to be rotatably installed at the center point of the cylindrical body 36.

That is, the rotary transfer 35a applied in the present invention includes a radial vacuum suction unit 35a-1 and has a configuration rotatably installed at the center point of the cylindrical body 36. part (32 ₁₎ - magnesium supplied from the rotary type transfer (35a) is the magnesium sheet supply section (31) after the (33n) is activated each for a predetermined time - (32n) to the number of molding the heating unit (33 ₁₎ The sheet heating part 1 is made into the primary warm press working part 32 ₁ , and the magnesium sheet molding 2 processed by primary or more by the warm press working parts 32 ₂ and 32 n is heated. (33 ₁ )-(33n), vacuum adsorption of primary or more secondaryly processed magnesium sheet moldings (2) heated by the molding heating sections (33 ₁ )-(33n) simultaneously to the next warm press working section, respectively Rotate by a predetermined angle, and then It will be moved to the parts at the same time.

In addition, in the third embodiment of the present invention, since the cylindrical body 36 has a shape, the pull-out transfer 35b is installed at the position where the final warm press working part is installed, and the finished magnesium compact 3 is finally warm pressed. It was made to be vacuum-sucked from a process part and to be transferred to the molded object cooling part 34.

As described above, in the present invention, a molded product having a relatively complicated structure is manufactured through continuous warm press using a magnesium plate having a high strength, hardness, light weight, alkali resistance, and low specific gravity, and a magnesium plate molding between each warm press processed part. It is possible to prevent magnesium from breaking down due to the lowering of the temperature of the magnesium sheet molding when the magnesium sheet is formed into a molding through a press by installing a heating material that maintains the warm molding temperature. It is possible to use continuous warm press processing, which can greatly increase the strength and hardness while greatly reducing the weight itself on the molding, and can also help to reduce the weight.

It should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

1 is a schematic block diagram of a first embodiment of the present invention.

2 is a schematic block diagram of a modification according to the first embodiment of the present invention;

3 is a schematic block diagram according to a second embodiment of the present invention.

4 is a schematic block diagram according to a third embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

11, 21, 31: magnesium plate supply unit

12 ₁ -12n, 22, 32 ₁ -32n: Warm press processing part

13 ₁ -13n, 33 ₁ -33n: molding heating part

14, 24, 34: molding cooler

_{15 1 -15n, 22g, 25a,} 25b, 35a, 35b: Transfer

Claims (6)

A magnesium plate supply unit which has a rectangular housing shape and is heated by several magnesium plate materials while maintaining a warm forming temperature by a heating operation of a heating means; Inside or outside of the rectangular housing, the upper and lower molds are provided with a heater having a constant heat generation temperature, and the magnesium sheet molding itself or a magnesium sheet molding press-molded more than one times in response to the operation of the hydraulic cylinder is used. Several warm press working parts which are press-worked over the difference; An upper and lower jig and a chamber are installed inside the rectangular housing to maintain the shape of the magnesium sheet moldings. The chamber is operated up and down by a hydraulic cylinder together with the upper jig, and the internal temperature of the chamber is controlled by a heating means. A plurality of molding heating parts which are configured to be held, and which are continuously installed at the rear of each warm press working part to maintain the warm molding temperature of the magnesium sheet moldings; The upper and lower jig and the upper jig driving hydraulic cylinder and the cooler to maintain the shape of the magnesium sheet moldings are installed in the rear part of the final warm press moving part to maintain the shape of the magnesium molding processed by the warm press, A molding cooler for lowering the jig and forcibly cooling the lower jig; Magnesium sheet molding or finished magnesium processed at least one step from the magnesium sheet supplying part to the warm press working part one by one, or from the warm press working part to the molded heating part or the molding cooling part, or from the molded heating part to the warm press working part It includes; several transfer to transfer the molding by vacuum adsorption; Both sides of the rectangular housing of the magnesium plate supplying unit, the warm press processing unit, and the molding heating unit are provided with doors capable of drawing in and out of the magnesium plate member itself, or a magnesium plate molded product processed or more than one primary, or a processed magnesium molded product, respectively. Continuous warm press production system of molding using magnesium plate. delete The method according to claim 1, And a conveyor belt for automatically inserting a sheet of magnesium sheet cut into a desired size from the outside at the inlet of the magnesium sheet supplying unit. delete A magnesium plate supply unit which has a rectangular housing shape and maintains a warm forming temperature by a heating operation of a heating means, and heats several magnesium plates which are automatically fed on a conveyor belt; Magnesium sheet itself or a magnesium sheet molded product which has a hydraulic cylinder and upper and lower molds and is installed at a predetermined angle inside a cylindrical body having a warm forming temperature at a predetermined angle and press-processed at least a primary, Several warm press working parts sequentially press-processed over a car; Several molding heating parts having upper and lower jigs and chambers and installed between the warm press working parts inside the cylindrical body to maintain the warm forming temperature of the magnesium sheet moldings processed by the warm press working parts. Wow; Magnesium plate material which is provided with a radial vacuum suction part and is rotatably installed at the center point of the cylindrical body, and is supplied from the magnesium plate material supply part to the primary warm press working part, and is processed by primary press or more by the warm press working parts. A rotary transfer which simultaneously transfers the molded magnesium sheet molding to the molding heating unit and simultaneously transfers the primary or more processed magnesium sheet molding heated by the molding heating unit to the next warm press working unit through vacuum adsorption; The upper and lower jig, the upper jig driving hydraulic cylinder and the cooler to maintain the shape of the magnesium sheet moldings and the cooler are installed in the rear part of the final warm press working part among the warm press moving parts installed in the cylinder. A molded product cooling unit for cooling by forcibly installing upper and lower jigs for maintaining a processed magnesium molded product shape; A continuous warm press manufacturing system for a molded product using a magnesium sheet, characterized in that it comprises a take-out transfer for vacuum-sucking and transferring the processed magnesium molding from the final warm press working part to the molding cooling part. delete

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