KR102169911B1 - Continuous heat treatment system for aluminum wheel - Google Patents

Abstract

The present invention relates to a heat treatment apparatus for heat treatment of a cast product manufactured by a casting machine, and more particularly, a low energy continuity of a rotating rail method of an aluminum wheel cast product that reduces energy by minimizing heat loss and reducing energy by simplifying the structure. It relates to a heat treatment system.
A low-energy continuous heat treatment system of a rotary rail method of an aluminum wheel cast according to the present invention includes a heating tunnel; A pair of rotating rail rods arranged in the inner passage direction of the heating tunnel to guide the transfer of the cast product; And a transfer unit installed in the inner passage of the heating tunnel and pushing the cast product to be transferred along the rotating rail bar.

Description

Continuous heat treatment system for aluminum wheel using rotary rail method of cast aluminum wheel

The present invention relates to a heat treatment apparatus for heat treatment of a cast product manufactured by a casting machine, and more particularly, a rotating rail method of an aluminum wheel cast product that saves energy by minimizing wasted heat loss and reducing installation and manufacturing cost by simplifying the structure. It relates to a low energy continuous heat treatment system.

In general, castings made of metal are molded into a casting machine in a casting machine, and then heat treated to reinforce strength and change material properties.

Among the metal materials, aluminum alloys are widely used in various fields because they are light and have good corrosion resistance as well as excellent heat resistance.

The aluminum alloy can be increased in strength by the addition of other elements and the aging precipitation of the intermediate phase thereof, and heat treatment such as solution treatment and aging treatment are performed for aging precipitation.

The sloution treatment is a heat treatment to obtain a uniform solid solution at room temperature by solidifying a non-equilibrium crystallized during solidification at high temperature and then quenching (water cooling) to obtain a uniform solid solution at room temperature, and aging treatment. While maintaining a lower temperature than during the solution treatment, the solid solution is precipitated into the intermediate phase and hardened. If this heat treatment process is performed, the mechanical properties of the aluminum alloy can be improved.

In particular, in the case of aluminum wheels used in automobile wheels, heat treatment through solution treatment and aging treatment must be performed, and a continuous automatic heat treatment device is provided to treat them in large quantities.

As for the technology related to the heat treatment apparatus, Korean Patent Office Registration Patent Publication No. 0994860, Publication Patent Publication No. 2007-0073826, and Registration Patent No. 10-14809011 have been disclosed.

The heat treatment apparatus according to the prior art includes a heating tunnel in which the interior is heated by a heater, and a number of transfer rollers continuously rotatably installed in a direction crossing the passage of the heating tunnel.

In the prior art constructed as described above, the transport stability of the cast product is high by using a number of transport rollers, but the installation cost is high as the structure of the heat treatment device becomes complicated. And the burden of manpower and cost for maintenance is high.

And in the prior art, the rotation axis of the transfer roller is disposed outside the wall of the heating tunnel. When the rotating shaft is placed inside the heating tunnel, the space that is not used in the passage inside the heating tunnel increases, resulting in low thermal efficiency, and the installation and maintenance work of the transfer roller becomes difficult.

The rotating shaft of the transfer roller disposed outside the heating tunnel discharges the high temperature inside the heating tunnel to the outside. The transfer rollers are arranged in a row and the number of them is 200 to 300, so the amount of heat radiated to the outside through the rotating shaft of the transfer rollers 24/7 cannot be ignored.

Therefore, the heat treatment apparatus according to the prior art consumes more energy to maintain the inside of the heating tunnel at a high temperature (eg, 530 degrees).

The present invention was conceived to solve the problem of the low-energy continuous heat treatment system of the rotary rail type of aluminum wheel casting according to the prior art, and the heat treatment apparatus using a pair of rotary rail rods and a transfer unit instead of numerous transfer rollers. The aim is to provide a low-energy continuous heat treatment system of aluminum wheel castings that minimizes heat loss by simplifying the structure and preventing parts from being placed outside the heating tunnel as much as possible.

In addition, it is another object of the present invention to provide a low-energy continuous heat treatment system of a rotary rail type aluminum wheel cast product having a structure that allows the cast product to be transported stably and smoothly.

The low-energy continuous heat treatment system of the aluminum wheel cast product according to the present invention for achieving this object is

Heating tunnel;

A pair of rotating rail rods arranged in the inner passage direction of the heating tunnel to guide the transfer of the cast product;

And a transfer unit installed in the inner passage of the heating tunnel and pushing the cast product to be transferred along the rotating rail bar.

And each of the pair of rotating rail rods is provided with a rotating gear engaged and coupled to each other so that the pair of rotating rail rods rotate,

The rotating rail rod is supported by support units in various places,

The support unit is characterized in that it is provided with a lubricant supply unit for supplying a lubricant to the surface of the rotating rail rod,

The support unit

A support block disposed under the rotating rail bar,

A carbon pad provided on the upper surface of the support block to support the rotating rail rod in contact,

It characterized in that it comprises a static pressure spring for elastically supporting the support block,

The transfer unit

A transfer rod disposed between the pair of rotating rail rods and transferred;

A push rod rotatably provided on the upper portion of the transport rod in the transport direction and pushed in contact with the cast product;

And a push spring elastically supporting the push rod so that it is inclined in a transport direction.

The low-energy continuous heat treatment system of the rotating rail method of the aluminum wheel casting according to the present invention uses a pair of rotating rail rods and a conveying unit that pushes and transports the castings by replacing numerous conveying rollers. And maintenance is easy. In addition, the rotating rail rod and the transfer unit are arranged in the passage inside the heating tunnel so that there is no heat loss to the outside through them, preventing a large amount of energy waste. It is a rotary rail type continuous heat treatment system of aluminum wheel cast products. Units and transfer units are highly durable products that stably transfer cast products, and are very useful inventions for the development of related industries.

1 is a view schematically showing a casting machine and a heat treatment apparatus according to the present invention.
2 is a view showing the planar structure of the heat treatment apparatus according to the present invention.
3 is a view showing a side structure of a heat treatment apparatus according to the present invention.
4 is a view showing the front structure of the heat treatment apparatus according to the present invention.
5 is a view for explaining a structure in which the transfer unit according to the present invention lifts the cast product.

Hereinafter, a low-energy continuous heat treatment system of a rotary rail method of an aluminum wheel casting according to the present invention will be described in more detail with reference to the drawings.

Prior to describing in more detail about the low-energy continuous heat treatment system of the rotary rail method of the aluminum wheel casting according to the present invention with reference to the drawings, the present invention can be modified in various ways and can have various forms. (態樣, aspect) (or examples) will be described in detail in the text. However, this is not intended to limit the present invention to a specific form of disclosure, and it should be understood that all changes, equivalents, and substitutes included in the spirit and scope of the present invention are included.

In each drawing, the same reference numerals, in particular the number of tens and ones, or the same number of tens, ones, and alphabet indicate members having the same or similar functions, and unless otherwise specified, each of the drawings The member indicated by the reference number can be identified as a member conforming to these criteria.

In addition, the components in each drawing are expressed by exaggeratingly large (or thick) or small (or thin) or simplified the size or thickness in consideration of the convenience of understanding, but this limits the scope of protection of the present invention. It shouldn't be.

The terms used in the present specification are only used to describe specific embodiments (sun, 態樣, aspect) (or examples), and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as ~include~ or ~consist~ are intended to designate the presence of features, numbers, steps, actions, components, parts, or a combination thereof described in the specification, but one or more other features It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance the possibility of being added.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in this application. Does not.

First, referring to FIG. 1, the cast product 5 manufactured by the casting machine is transported to a heat treatment apparatus and undergoes a heat treatment process. At this time, the present invention increases energy efficiency by collecting high-temperature waste heat generated during manufacture of the cast product 5 in the casting machine 10 and recycling it as a heat source for heating the heating tunnel 110 of the heat treatment apparatus 100.

Referring to Figure 1, as a first means for collecting waste heat, air cooling heat and noise of the casting machine 10, the bottom plate 20 on which the lower mold 1 of the mold is mounted and the upper mold 3 of the mold are raised and lowered. The elevating plate 40 of the frame is provided with a cover plate 50 that wraps around and holds the heat radiated from the upper mold 3 and the lower mold 1 so as not to escape, and as a second means, the lower mold 1 ) And the bottom plate 20 that receives high-temperature heat from the melting furnace 60, a circulation path 51 is formed in which cooling air circulates inside to cool the bottom plate 20 and absorb heat at the same time. The driving unit 70 in which a hydraulic cylinder for driving the casting machine 10 is installed is wrapped with a sealing plate 80 as three means to collect heat generated when driving from the driving unit 70, and the first to third means Waste heat of the casting machine 10 collected through is supplied to the heat treatment apparatus 100 through a waste heat collection pipe 90 and a blower fan.

An input unit (not shown) for inserting the cast product 5 is disposed at the inlet of the heat treatment apparatus 100, and a discharge unit (not shown) for discharging the cast product 5 after heat treatment is provided at the outlet.

Referring to FIG. 2, the heat treatment apparatus 100 includes a heating tunnel 110, a rotating rail bar 130, a transfer unit 140, a support unit 150, a lubricant supply unit 160, and the like.

The heating tunnel 110 has a long passage 111 through which the casting 5 passes. It is preferable that the inner wall 112 of the heating tunnel 110 is heat-treated in order to withstand high temperatures and reduce heat transferred to the outside.

A heater (not shown) for heating the passage 111 is mounted inside the heating tunnel 110, and energy can be saved by receiving waste heat from the casting machine 10 as described above.

The rotating rail rod 130 is elongated along the direction of the inner passage 111 of the heating tunnel 110. The rotating rail rod 130 is composed of a pair spaced apart at a predetermined interval, so that a cast product 5 (ie, an aluminum wheel) is mounted thereon, and the cast product 5 is the rotating rail by the transfer unit 140 It moves along the rod 130.

The rotating rail rod 130, through which the cast 5 continues to pass, gradually wears out due to friction. Each of the pair of rotating rail rods 130 is provided with a rotating gear 131 that is meshed and coupled to each other so that this wear is uniformly conducted throughout the rotating rail rod 130, and any one rotating gear 131 is a motor It is engaged with the drive gear 133 connected to 134. So, the pair of rotating rail rods 130 rotates inward or outward to transport the cast 5, and accordingly, the rotating rail rod 130 is uniformly worn and prevents deformation due to heat. .

The support unit 150 supports the rotation rail bar 130 in various places so that the rotation rail bar 130 is not bent downward by a load.

The support unit 150 includes a support block 151, a carbon pad 153, and a positive pressure spring 155.

The support block 151 is coupled to pass through the inner wall 112 of the heating tunnel 110 and is disposed under the rotating rail rod 130.

The carbon pad 153 is provided on the upper surface of the support block 151 to support the lower side of the rotation rail bar 130 in contact with each other. The carbon pad 153 has a low frictional force based on carbon crystals, thereby minimizing the rotational interference of the rotating rail rod 130, and having high durability so that wear due to contact with the rotating rail rod 130 is small.

The positive pressure spring 155 is disposed between the inner wall 112 of the heating tunnel 110 and the stepped portion of the outer surface of the support block 151 to elastically support the support block 151. As the static pressure spring 155 is elastically supported, the rotating rail rod 130 transports the cast 5 while rotating in a state in which shaking or vibration is minimized.

The lubricating oil supply unit 160 supplies lubricating oil to the surface of the rotating rail rod 130 to reduce contact friction between the rotating rail rod 130 and the cast product 5.

The lubricant supply unit 160 includes a supply passage 161 passing through the support block and the carbon pad 153, and a storage coupled to the lower portion of the support block 151 and connected to the supply passage 161 therein. A lubricating oil tank 163 having a space 164, a piston 165 moving forward and backward in the storage space 164 of the lubricating oil pipe 163 to push and discharge the lubricating oil stored in the storage space 164, and the piston ( It includes a forward spring 167 that elastically supports the 165 so that the piston 165 continuously pushes the lubricant by receiving a force that advances at a constant pressure.

The transfer unit 140 pushes the cast product 5 on the rotation rail bar 130 so that the cast product 5 is transferred along the rotation rail bar 130.

The transfer unit 140 includes a rail member 141, a transfer bar 143, a push bar 145, and a push spring 147.

The rail member 141 is disposed between and below the pair of rotating rail rods 130.

The transfer rod 143 is coupled to be movable along the rail member 141.

The push rod 145 is coupled to an upper portion of the transfer rod 143 to contact and push the cast product 5 placed on the rotating rail rod 130.

The push rod 145 is rotatably coupled from the upper portion of the transport rod 143 in a transport direction. In addition, the push spring 147 is interposed between the push rod 145 and the transport rod 143 to elastically support the push rod 145 in the transport direction so that the push rod 145 inclines in the transport direction.

When a foreign material is buried on the rotation rail bar 130, the front end of the cast product 5 transferred along the rotation rail bar 130 is caught by the foreign material and interferes with the transfer.

When the cast product 5 is caught by a foreign substance and is obstructed in transport, the cast product 5 stops at that position, but the transfer rod 143 continues to transfer. At this time, the push rod 145 provided on the upper part of the transport rod 143 continues to be transported forward, but the upper end inclined in the transport direction is pushed upward because the upper end is blocked by the contacted casting product 5 and cannot move. Will be built. The push rod 145 slightly lifts the cast product 5 in contact with the upper end of the push rod 145, whereby the cast product 5 is released from the jamming of foreign substances on the surface of the rotating rail rod 130, and the rotating rail rod 130 Will be transported along.

The push rod 145 supports the inner surface of the cast product 5 so that the push rod 145 on which the top is erected can lift the cast product 5, and the cast product 5 slides on the upper end of the push rod 145 The wedge portion 146 is formed so that it can be lifted without.

The continuous heat treatment system according to the present invention configured as described above can save a pleasant manufacturing site by reducing the land area for installation, and reduce the land cost and thus reduce the construction investment cost.

In the above description of the present invention, a low-energy continuous heat treatment system of a rotary rail method of an aluminum wheel cast product having a specific shape and structure has been described with reference to the accompanying drawings, but the present invention can be variously modified and changed by those skilled in the art. These modifications and changes should be construed as belonging to the scope of the present invention.

1: lower type 3: upper type
5: cast product 10: casting machine
20: bottom plate 50: cover plate
60: melting furnace 70: drive unit
80: sealing plate 90: waste heat collection pipe
100: heat treatment device 110: heating tunnel
130: rotating rail bar 140: transfer unit
141: rail member 143: transfer rod
145: push rod 146: wedge
147: push spring 150: support unit
151: support block 153: carbon pad
155: static pressure spring 160: lubricant supply unit
161: supply oil passage 163: lubricant oil passage
165: piston 167: forward spring

Claims (4)

Heating tunnel;
A pair of rotating rail rods arranged in the inner passage direction of the heating tunnel to guide the transfer of the cast product;
In the rotary rail type low-energy continuous heat treatment system of the aluminum wheel cast product comprising; a transport unit installed in the inner passage of the heating tunnel and pushing the cast product to be transported along the rotary rail rod,

The transfer unit
A transfer rod disposed between the pair of rotating rail rods and transferred;
A push rod rotatably provided in the transport direction on the upper portion of the transport rod and pushed in contact with the cast product;
A low-energy continuous heat treatment system of a rotary rail method of an aluminum wheel casting, characterized in that it comprises a push spring elastically supporting the push rod so that it is inclined in a transport direction. Heating tunnel;
A pair of rotating rail rods arranged in the inner passage direction of the heating tunnel to guide the transfer of the cast product;
In the rotary rail type low-energy continuous heat treatment system of the aluminum wheel cast product comprising; a transport unit installed in the inner passage of the heating tunnel and pushing the cast product to be transported along the rotary rail rod,

Each of the pair of rotating rail rods is provided with rotating gears meshed and coupled to each other so that the pair of rotating rail rods rotates,
The rotating rail rod is supported by support units in various places,
The support unit includes a lubricant supply unit for supplying lubricant to the surface of the rotary rail rod. The method of claim 2,
The support unit
A support block disposed under the rotating rail bar,
A carbon pad provided on the upper surface of the support block to support the rotating rail rod in contact,
A low-energy continuous heat treatment system of a rotary rail method of an aluminum wheel casting, characterized in that it comprises a static pressure spring elastically supporting the support block. delete

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