KR20150058737A - Apparatus for spot welding hot stamping member for improving of strenth - Google Patents

Abstract

Disclosed is a device for spot welding a hot-stamping part to improve strength. According to an embodiment of the present invention, the device for spot welding hot-stamping part to improve strength comprises: a spot welding unit having an electrode for spot welding a hot-stamping part and a coolant spraying unit to spray a coolant to rapidly cool a heat affected part of the hot-stamping part during spot welding. The present invention minimizes stress concentration by improving the hardness of the heat affected part to the same level as a nugget part and a base material after spot welding the hot-stamping part without an additional process such as reheating, cooling, and others.

Description

TECHNICAL FIELD [0001] The present invention relates to a hot stamping part spot welding device for improving strength,

The present invention relates to a hot stamping part point welding apparatus for improving strength, and more particularly, to a hot stamping part point welding apparatus for strengthening stress concentration by adjusting the hardness of a heat affected zone to the level equivalent to a nugget portion or a base material while excluding an additional process such as reheating, And more particularly to a hot stamping part point welding apparatus for improving the strength that can be minimized.

Hot stamping technology is done at high temperatures, as opposed to conventional press forming in the cold state.

In particular, since the elongation rate of the material significantly increases at a high temperature, there is an advantage that the extreme strength can be attained by the heat treatment effect without being particularly restricted by the formability.

For this reason, in recent years, the hot stamping process has been widely used to form ultra high strength parts.

However, in the hot stamping part, the strength of the welded part is higher than that of the base metal during spot welding, so that the welded part is more likely to be broken than the base metal at the time of impact.

1 is a graph and a photograph showing the hardness value of each hot stamping part after spot welding.

1, the hardness values of the nugget portion (N) and the base material (S) are large in the case of hot stamping parts after spot welding, whereas in the heat affected part (HAZ) It can be confirmed that it has a very small value. Because of this, stress concentration occurs in the heat affected zone (HAZ).

As a conventional method for solving such a problem, a method of locally heat-treating a weld portion after spot welding of a hot stamping component has been introduced.

Fig. 2 is a conceptual view showing a process of locally heat-treating a welded portion after spot welding of a hot stamping part.

As shown in FIG. 2, by further performing a heat treatment for re-heating and cooling only the welded portion W after spot welding of the hot stamping component S, the hardness of the heat affected portion is changed to the level equivalent to the nugget portion or the base material, "He said. Reference numeral 10 denotes an induction heating coil as an example of a heat treatment apparatus.

However, such a conventional method requires an additional process such as reheating and cooling after hot-stamping of the hot stamped part, and thus there has been a problem of an increase in the process time and an increase in cost, and furthermore, The difficulties followed.

Therefore, there is a need to develop a technique for minimizing the stress concentration by increasing the hardness of the heat affected portion to the same level as that of the nugget portion or the base material after spot welding of the hot stamping component without additional processes such as reheating and cooling.

A related prior art is Korean Patent No. 10-1325871 (published October 30, 2013), which discloses a technique for improving the weldability of hot stamping parts.

The present invention relates to a hot stamping part point welding device for enhancing the strength to minimize the stress concentration by improving the hardness of the heat affected part to the same level as the nugget part or the base material after spot welding of the hot stamping parts without additional processes such as reheating and cooling to provide.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems not mentioned here can be understood by those skilled in the art from the following description.

According to an embodiment of the present invention, there is provided a spot welding apparatus comprising: a spot welding unit having electrodes to perform spot welding of a hot stamping component; And a coolant spray unit for spraying coolant to rapidly cool the heat affected part of the hot stamping part during the spot welding.

According to an embodiment of the present invention, there is further provided a spot welding unit comprising an electrode for performing spot welding of a hot stamping part; A coolant injection unit that injects coolant to rapidly cool the heat affected part of the hot stamping part during the spot welding; A temperature detection unit that detects the temperature of the heat affected zone rapidly cooled by the coolant injection unit; And a coolant injection control module that determines the degree of cooling of the heat affected portion based on the detection information of the temperature detection unit and controls the flow rate and injection intensity of the coolant to be injected toward the heat affected portion through the coolant injection unit The present invention provides a hot stamping part spot welding device for improving the strength of a hot stamping part.

According to an embodiment of the present invention, there is further provided a spot welding unit comprising an electrode for performing spot welding of a hot stamping part; Wherein the nugget portion is rapidly cooled from the austenite phase transformation point to the martensite phase transformation point when the weld portion of the hot stamping component is rapidly heated to the liquid phase state by the spot welding to form a nugget portion, A cooling unit for flowing the cooling water; And a coolant spraying unit for spraying a coolant to the heat affected part of the hot stamping part during the spot welding to form a martensite structure in the heat affected part. have.

According to an embodiment of the present invention, there is further provided a spot welding unit comprising an electrode for performing spot welding of a hot stamping part; Wherein the nugget portion is rapidly cooled from the austenite phase transformation point to the martensite phase transformation point when the weld portion of the hot stamping component is rapidly heated to the liquid phase state by the spot welding to form a nugget portion, A cooling unit for flowing the cooling water; A coolant spraying unit for spraying a coolant to the heat affected part of the hot stamping part during the spot welding to form a martensite structure in the heat affected part; A temperature detection unit that detects the temperature of the heat affected zone rapidly cooled by the coolant injection unit; And a coolant injection control module that determines the degree of cooling of the heat affected portion based on the detection information of the temperature detection unit and controls the flow rate and injection intensity of the coolant to be injected toward the heat affected portion through the coolant injection unit A hot stamping part spot welding device for improving the strength of the hot stamping part can be provided.

According to one embodiment of the present invention, the hardness of the heat affected portion after spot welding of the hot stamping component can be improved to the level equivalent to the nugget portion or the base metal.

Particularly, it is possible to improve the hardness of the heat affected zone to the level equivalent to that of the nugget or the base material without additional steps such as reheating and cooling of the welded portion after spot welding of hot stamping parts, thereby shortening the process time and reducing the cost.

Accordingly, it is possible to minimize the occurrence of stress concentration at the heat affected portion of the hot stamping component after spot welding.

FIG. 1 is a graph (a) and a photograph (b) showing the hardness values per spot welded portion of a general hot stamping part.
Fig. 2 is a working conceptual view showing a method of locally heat-treating a welded portion (i.e., a heat affected portion) after spot welding of a hot stamping part.
3 is a conceptual view showing a hot stamping part spot welding apparatus for improving the strength according to the first embodiment of the present invention.
4 is a conceptual view showing a hot stamping part point welding apparatus for strength improvement according to a second embodiment of the present invention.
5 is a graph and a photograph showing a temperature distribution of a welded portion used in a hot stamping part point welding apparatus for improving the strength according to the embodiment of the present invention.
6 is a graph and a photograph showing a hardness distribution of a welded portion using a hot stamping part point welding apparatus for strength improvement according to an embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or preliminary meaning and the inventor shall appropriately define the concept of the term in order to best explain its invention It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention. It should be noted that the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention, It should be understood that various equivalents and modifications are possible.

Hot stamping technology is done at high temperatures, as opposed to conventional press forming in the cold state. Since the elongation of the material greatly increases at a high temperature, there is an advantage that it is not particularly restricted by the moldability and the ultra high strength can be attained by the heat treatment effect.

Hot stamping parts after spot welding have a disadvantage in that the hardness value of the nugget part and the base material is large while the hardness of the heat affected zone (HAZ) is relatively small, unlike other super high tensile steel. For this reason, stress concentration occurred in the heat affected zone. To improve this, a method of additionally performing a heat treatment for re-heating and cooling only the welded portion after spot welding has been introduced, but this has resulted in problems such as an increase in process time and an increase in cost.

The hot stamping part point welding apparatus for improving the strength according to the embodiments of the present invention corresponds to the invented method for solving the above problems.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a hot stamping part spot welding apparatus for strength improvement according to embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a conceptual view showing a hot stamping part spot welding apparatus for improving the strength according to the first embodiment of the present invention.

Referring to FIG. 3, a hot stamping part spot welding apparatus 100 (hereinafter referred to as a 'hot stamping part spot welding apparatus') for improving the strength includes a spot welding unit 110, a coolant spray unit 120 .

The spot welding unit 110 has electrodes 111 (111a and 111b) on the upper and lower sides thereof, and refers to a device for spot welding hot stamping parts (S).

Hot stamping parts S are provided between the electrodes 111 (111a, 111b) of the spot welding unit 110 and spot welding may be performed according to the set drive program. And reference numeral N designates a nugget portion.

The spot welding unit 110 is heated by the spot welding so that the welded portion of the hot stamping member is rapidly heated to the liquid state to form the nugget unit N. The temperature of the nugget unit N And a cooling unit 113 for rapidly cooling the phase transition point to a martensite phase transformation point.

The cooling unit 113 provides a cooling function in such a manner that predetermined cooling water W flows along the internal flow paths of the upper and lower electrodes 111a and 111b.

According to the embodiments of the present invention, the nugget portion N of the hot stamping component during spot welding by the cooling unit 113 is rapidly cooled to form a martensite-only structure, And the heat affected portion that can not be quickly cooled by the coolant injection unit 120 is configured. As a result, the martensitic structure can also be formed by the coolant injection unit 120.

The coolant injection unit 120 can inject coolant to rapidly cool the heat affected portion of the hot stamping component S during spot welding by the spot weld unit 111. [

The coolant injection unit 120 may include an injection nozzle 121a and the coolant storage unit 123. [

The injection nozzle 121a is configured to spray the coolant C toward the heat affected portion where spot welding is performed.

The injection nozzle 121a according to the first embodiment of the present invention may be provided in such a manner that the outlet is inclined to one side of the electrode 111 (in particular, 111a) so as to be directed toward the heat affected portion where the spot welding is performed . In addition, the injection nozzle 121a may be provided in an inclined angle, that is, a tilt angle, which is adjustable according to the setting of the user.

The coolant storage part 123 may be connected to the injection nozzle 121a through a pipe 129 and may be configured to store a coolant C to be supplied to the injection nozzle.

Here, as the coolant (C), liquid helium, liquid nitrogen, or gaseous helium gas and nitrogen gas may be used, and further mixed with compressed air may be used.

According to an embodiment in which the compressed air is mixed with the compressed air, a compressed air storage unit 125 may be further provided between the injection nozzle 121a and the coolant storage unit 123.

The compressed air storage part 125 may be connected to the injection nozzle 121a and the coolant storage part 123 through a pipe 129. [

The compressed air storage unit 125 may separately supply compressed air only through the injection nozzle 121a to the coolant. Alternatively, the compressed air may be supplied to the coolant injected through the injection nozzle 121a. The amount of mixing can be made as much as possible.

This coolant supply can be adjusted according to the opening and closing operations of the valve V provided on the piping between the injection nozzle, the coolant storage unit, and the compressed air storage unit.

The valve V need not be limited to being utilized in the illustrated arrangement and position, but may be disposed on other numbers or positions.

Further, the valve (V) may be a solenoid valve that receives an electrical signal transmitted according to a user's command and controls opening and closing of the flow of the coolant flowing in the pipe. Here, the command of the user may be provided in accordance with the coolant injection control unit 130 or another manual operation switch to be described later.

According to the first embodiment of the present invention, the temperature detection unit 130 and the coolant injection control module 140 may be further provided.

The temperature detection unit 130 is responsible for detecting the temperature of the heat affected zone which is rapidly cooled by the coolant injection unit.

The coolant injection control module 140 determines the degree of cooling of the heat affected zone based on the detection information of the temperature detection unit 130. And to control the flow rate and the injection intensity of the coolant (C) to be injected through the coolant injection unit (120) toward the heat affected portion.

4 is a conceptual view showing a hot stamping part point welding apparatus for strength improvement according to a second embodiment of the present invention.

Referring to FIG. 4, a hot stamping part spot welding apparatus 100 according to a second embodiment of the present invention is shown, which is substantially the same as the first embodiment described above with reference to FIG. 3, Since the structure and arrangement position of the injection nozzle are different, the advantages will be emphasized.

The injection nozzle 121b according to the second embodiment of the present invention is different from the injection nozzle 121a of the first embodiment in that the injection nozzle 121b has the electrodes 111a and 111b And has a hollow pipe-shaped body for wrapping.

The injection nozzle 121b is arranged to surround the electrode 111, that is, the upper electrode 111a and the lower electrode 111b, and injects the coolant C through the inner hollow to the outlet. The injected coolant can rapidly cool the hot affected part of the hot stamping part during spot welding.

FIG. 5 is a graph and a photograph showing a temperature distribution of a welded portion used in a hot stamping part point welding apparatus for improving strength according to an embodiment of the present invention. FIG. 6 is a cross- And a graph showing the hardness distribution of the welded portion using the apparatus.

Referring to the graph of FIG. 5 and the photograph of FIG. 5, in the conventional case, the temperature of the hot affected part (HAZ) of the hot stamping part is much higher than the nugget part N and the base material as indicated by a solid line on the graph.

In contrast, according to the present embodiments, as shown by the dotted line, it can be confirmed that the temperature of the heat affected zone (HAZ) is rapidly cooled to the level equivalent to the nugget portion N or the base material S.

6, the hardness of the heat affected zone (HAZ) is much lower than that of the nugget part and the base material, as indicated by a solid line on the graph.

On the other hand, according to the present embodiment, as shown by the dotted line, the hardness of the heat affected zone (HAZ) can be confirmed to be improved to the level equivalent to the nugget part and the base material.

As described above, according to the embodiment of the present invention, the hardness of the heat affected zone after spot welding of the hot stamping part can be improved to the level equivalent to the nugget part or the base material.

Particularly, it is possible to improve the hardness of the heat affected zone to the level equivalent to that of the nugget or the base material without additional processes such as reheating and cooling of the welded portion after the spot welding of the hot stamping component, thereby reducing the processing time and cost.

Accordingly, it is possible to minimize the occurrence of stress concentration at the heat affected portion of the hot stamping component after spot welding.

As described above, the spot welding apparatus of the hot stamping part for improving the strength according to the preferred embodiment of the present invention has been described.

It is to be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and the scope of the present invention will be indicated by the appended claims rather than by the foregoing detailed description. It is intended that all changes and modifications that come within the meaning and range of equivalency of the claims, as well as any equivalents thereof, be within the scope of the present invention.

HAZ: Heat affected zone
N: Nugget section
S: Hot stamping part (or base metal)
V: Valve
100: Hot stamping parts spot welding device
110: Spot welding unit
111 (111a, 111b): electrode
113: Cooling unit
120: coolant injection unit
121 (121a, 121b): injection nozzle
123: coolant storage part
125: Compressed air storage unit
129: Piping
130: Temperature detection unit
140: coolant injection control module

Claims (24)

A spot welding unit having electrodes for performing spot welding of hot stamping parts; And
And a coolant spray unit for spraying a coolant to rapidly cool the heat affected part of the hot stamping part during the spot welding.
The method according to claim 1,
The coolant spray unit comprising: a spray nozzle configured to spray a coolant to the heat affected part where spot welding is performed; And
And a coolant storage part connected to the injection nozzle through a pipe and storing a coolant to be supplied to the injection nozzle.
3. The method of claim 2,
Wherein the injection nozzle is disposed at an angle to one side of the electrode so that the outlet faces the heat affected part where the spot welding is performed, and the inclination angle of the injection nozzle is set to a hot stamping part point Welding apparatus.
3. The method of claim 2,
Wherein the injection nozzle is provided in a hollow pipe shape surrounding the electrode,
And an outlet is disposed so as to face the heat affected portion where the spot welding is performed.
3. The method of claim 2,
And a valve connected to the injection nozzle and the coolant storage unit through a pipe to control opening and closing of the coolant flow,
Wherein the valve is a solenoid valve for controlling the flow of the coolant flowing in the pipe by receiving an electric signal transmitted according to a user's command and for controlling the strength of the hot stamping part.
3. The method of claim 2,
Further comprising a compressed air storage part connected to the injection nozzle and the coolant storage part through a pipe and storing the compressed air to be separately supplied to the injection nozzle or mixed with the coolant supplied to the injection nozzle, Hot stamping parts spot welding equipment.
A spot welding unit having electrodes for performing spot welding of hot stamping parts;
A coolant injection unit that injects coolant to rapidly cool the heat affected part of the hot stamping part during the spot welding;
A temperature detection unit that detects the temperature of the heat affected zone rapidly cooled by the coolant injection unit; And
And a coolant injection control module for determining the cooling degree of the heat affected portion based on the detection information of the temperature detection unit and controlling the flow rate and the injection intensity of the coolant to be injected toward the heat affected portion through the coolant injection unit Hot stamping parts spot welding device for strength improvement.
8. The method of claim 7,
The coolant spray unit comprising: a spray nozzle configured to spray a coolant to the heat affected part where spot welding is performed; And
And a coolant storage part connected to the injection nozzle through a pipe and storing a coolant to be supplied to the injection nozzle.
9. The method of claim 8,
Wherein the injection nozzle is disposed at an angle to one side of the electrode so that the outlet faces the heat affected part where the spot welding is performed, and the inclination angle of the injection nozzle is set to a hot stamping part point Welding apparatus.
9. The method of claim 8,
Wherein the injection nozzle is provided in a hollow pipe shape surrounding the electrode,
And an outlet is disposed so as to face the heat affected portion where the spot welding is performed.
9. The method of claim 8,
And a valve connected to the injection nozzle and the coolant storage unit through a pipe to control opening and closing of the coolant flow,
Wherein the valve is a solenoid valve for controlling the flow of the coolant flowing in the pipe by receiving an electric signal transmitted according to a user's command and for controlling the strength of the hot stamping part.
9. The method of claim 8,
Further comprising a compressed air storage part connected to the injection nozzle and the coolant storage part through a pipe and storing the compressed air to be separately supplied to the injection nozzle or mixed with the coolant supplied to the injection nozzle, Hot stamping parts spot welding equipment.
A spot welding unit having electrodes for performing spot welding of hot stamping parts;
Wherein the nugget portion is rapidly cooled from the austenite phase transformation point to the martensite phase transformation point when the weld portion of the hot stamping component is rapidly heated to the liquid phase state by the spot welding to form a nugget portion, A cooling unit for flowing the cooling water; And
And a coolant spray unit for spraying a coolant to a heat affected part of the hot stamping part during the spot welding to form a martensite structure in the heat affected part.
14. The method of claim 13,
The coolant spray unit comprising: a spray nozzle configured to spray a coolant to the heat affected part where spot welding is performed; And
And a coolant storage part connected to the injection nozzle through a pipe and storing a coolant to be supplied to the injection nozzle.
15. The method of claim 14,
Wherein the injection nozzle is disposed at an angle to one side of the electrode so that the outlet faces the heat affected part where the spot welding is performed, and the inclination angle of the injection nozzle is set to a hot stamping part point Welding apparatus.
15. The method of claim 14,
Wherein the injection nozzle is provided in a hollow pipe shape surrounding the electrode,
And an outlet is disposed so as to face the heat affected portion where the spot welding is performed.
15. The method of claim 14,
And a valve connected to the injection nozzle and the coolant storage unit through a pipe to control opening and closing of the coolant flow,
Wherein the valve is a solenoid valve for controlling the flow of the coolant flowing in the pipe by receiving an electric signal transmitted according to a user's command and for controlling the strength of the hot stamping part.
15. The method of claim 14,
Further comprising a compressed air storage part connected to the injection nozzle and the coolant storage part through a pipe and storing the compressed air to be separately supplied to the injection nozzle or mixed with the coolant supplied to the injection nozzle, Hot stamping parts spot welding equipment.
A spot welding unit having electrodes for performing spot welding of hot stamping parts;
Wherein the nugget portion is rapidly cooled from the austenite phase transformation point to the martensite phase transformation point when the weld portion of the hot stamping component is rapidly heated to the liquid phase state by the spot welding to form a nugget portion, A cooling unit for flowing the cooling water;
A coolant spraying unit for spraying a coolant to the heat affected part of the hot stamping part during the spot welding to form a martensite structure in the heat affected part;
A temperature detection unit that detects the temperature of the heat affected zone rapidly cooled by the coolant injection unit; And
And a coolant injection control module for determining the cooling degree of the heat affected portion based on the detection information of the temperature detection unit and controlling the flow rate and the injection intensity of the coolant to be injected toward the heat affected portion through the coolant injection unit Hot stamping parts spot welding device for strength improvement.
20. The method of claim 19,
The coolant spray unit comprising: a spray nozzle configured to spray a coolant to the heat affected part where spot welding is performed; And
And a coolant storage part connected to the injection nozzle through a pipe and storing a coolant to be supplied to the injection nozzle.
21. The method of claim 20,
Wherein the injection nozzle is disposed at an angle to one side of the electrode so that the outlet faces the heat affected part where the spot welding is performed, and the inclination angle of the injection nozzle is set to a hot stamping part point Welding apparatus.
21. The method of claim 20,
Wherein the injection nozzle is provided in a hollow pipe shape surrounding the electrode,
And an outlet is disposed so as to face the heat affected portion where the spot welding is performed.
21. The method of claim 20,
And a valve connected to the injection nozzle and the coolant storage unit through a pipe to control opening and closing of the coolant flow,
Wherein the valve is a solenoid valve for controlling the flow of the coolant flowing in the pipe by receiving an electric signal transmitted according to a user's command and for controlling the strength of the hot stamping part.
21. The method of claim 20,
Further comprising a compressed air storage part connected to the injection nozzle and the coolant storage part through a pipe and storing the compressed air to be separately supplied to the injection nozzle or mixed with the coolant supplied to the injection nozzle, Hot stamping parts spot welding equipment.

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