KR20170110749A - Coupling Spot Welding device with Protection System for Overheat and Over or Low pressure to Cooling water and Electrode assembly - Google Patents

Abstract

A spot welding apparatus for spot welding a nut (2) or a bolt (3) to a base material (1), the spot welding apparatus comprising an upper electrode assembly (10) and a lower electrode assembly 20; Fig. A cooling water supply unit 200 for supplying cooling water to the upper and lower electrode assemblies 10 and 20 of the spot welded part 100; A temperature detector 300 for detecting the temperature of the cooling water recovered through the upper and lower electrode assemblies 10 and 20; A pressing unit 400 for pressing the base material 1 by the upper electrode assembly 10 while moving the upper electrode assembly 10 up and down; A compressed air supply part 500 for supplying a compressed air of a predetermined pressure to the pressing part 400; And a control unit 600 for controlling the overheating of the cooling water and the excessive (low) pressure of the compressed air according to the temperature detected by the temperature detecting unit 300 and the pressure of the compressed air detected by the compressed air supplying unit 500 With this configuration, overheating of the electrode assembly of the spot welding apparatus and overheating of the cooling water are prevented.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spot welding apparatus for attaching a fastening member having an over / under pressure and a cooling water overheating prevention device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spot welding apparatus for attaching a fastening member having an over / under pressure and a cooling water overheating prevention device of an electrode assembly, and more particularly to a spot welding apparatus for spot welding a nut or bolt to a base material, The present invention relates to a spot welding apparatus for attaching a fastening member to an electrode assembly, which can pressurize a base material to a predetermined pressure while preventing overheating of cooling water supplied to cool welding heat with an assembly.

Generally, in order to join a metal and a metal, welding is used to remove an obstacle present in a joining portion of two or more base metals. When welding is used in many cases, arc welding, gas welding, Electron beam welding, laser beam welding, and electric resistance welding. In particular, in order to join a plurality of steel plates such as automobile bodies, welding is performed using spot welding as the electric resistance welding method to efficiently weld a plurality of steel plates So that they are firmly bonded.

The spot welding is used for various metals such as low carbon steel, high carbon steel, low alloy steel, aluminum and aluminum alloy, stainless steel, tinned gold plate and the like. There is no need to drill a rivet hole, and the work is simple, and the head portion of the rivet does not appear on the surface. Thus, it is widely used in cabinets, boxes, office products or automobile body joining.

In order to widely use the spot welding in automobile bonding as described above, the thickness of the metal plate for automobile body is relatively small to form a screw relatively. Therefore, instead of forming a nut or bolt, a nut or bolt is welded .

When a nut or bolt is welded to a base material using a spot welding apparatus as described above, it is necessary to perform work under a certain pressure and temperature condition. If the temperature of the spot welding apparatus excessively increases, When the voltage is applied, the effective resistance between the electrode and the base material increases compared to the case where the effective resistance is normal, and the heat of heat to be used for forming the nugget is temporarily consumed between the electrode and the nut or between the electrode and the base material, The nugget is not formed sufficiently between the base metal and the nut, and a defective product is produced.

In addition, if the pressure to press the base material is lower than the reference pressure, the weld can not be precisely formed because the nuts or bolts are not tightly adhered to the base material. On the contrary, if the pressurizing pressure is higher than the reference pressure, .

Therefore, it is required to develop a device capable of preventing the pressurizing pressure of the spot welding device and the overheating of the cooling water.

(Patent Document 1) KR10-2003-0090610 A

(Patent Document 2) KR10-0846823 B1

(Patent Document 3) KR10-0902767 B1

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a spot welding apparatus for spot welding a nut or a bolt to a base material, which can pressurize and weld a base material at a constant pressure, And an object of the present invention is to provide a spot welding apparatus for attaching a fastening member having an over-heating low-pressure and cooling water overheating prevention device of an electrode assembly which can prevent the defective product from being detected by detecting overheating of the cooling water.

According to an aspect of the present invention, there is provided a spot welding apparatus including: an upper electrode assembly and a spot welding unit including a lower electrode assembly; A cooling water supply unit for supplying cooling water to the upper and lower electrode assemblies of the spot welding unit, respectively; A temperature detector for detecting the temperature of the cooling water recovered through the upper and lower electrode assemblies; A pressing portion for pressing the base material by the upper electrode assembly while moving the upper electrode assembly up and down; A compressed air supply unit for supplying compressed air of a predetermined pressure to the pressing unit; When the temperature detected by the temperature detecting unit is equal to or higher than the set temperature, the cold water is drained and then the raw water is replenished. When the pressure of the compressed air detected by the compressed air supply unit is lower than the set pressure range, And a control unit for controlling the air to be discharged to the outside when the pressure of the air is higher than the set pressure range, thereby preventing overheating of the cooling water and over / under pressure of the compressed air.

In the case where the temperature of the cooling water detected by the temperature detecting unit is higher than the set temperature or the pressure of the compressed air detected by the compressed air supply unit is out of the range of the set pressure, the control unit stops the operation of the spot welding unit And generate an alarm at the same time.

Further, the present invention may further include a display unit for outputting the temperature of the cooling water and the compressed air pressure detected by the temperature detector and the compressed air supply unit, respectively.

In addition, the present invention is characterized in that the cooling water supply unit is connected to the raw water pipe and the cooling water is stored therein; A cooling water channel in which a channel is connected so as to circulate through the cooling water reservoir and the upper and lower electrode assemblies; And a drain water flow path for discharging the cooling water, wherein the raw water supply valve is provided in the raw water pipe and is selectively opened under the control of the control unit to supply the raw water to the cooling water storage tank, The detecting unit may be provided on the downstream side of the cooling water flow path.

The present invention also provides a compressed air supply system comprising: a compressor for generating compressed air at a high pressure; A compressed air reservoir for storing compressed air supplied from a compressor; An air inlet / outlet flow path for selectively supplying compressed air stored in the compressed air storage tank to the pressurizing portion to perform an elevating operation; A discharge valve for discharging the compressed air stored in the compressed air reservoir to the outside; And a pressure sensor for detecting the internal pressure of the compressed air storage tank and transmitting the detected information to the control unit. A control valve is provided on each of the flow path connecting the compressor and the compressed air storage tank and the air inlet / And may be configured to be opened and closed by control of the respective control units.

According to another aspect of the present invention, there is provided an upper electrode assembly comprising: an upper shank having an upper electrode assembly formed in a cylindrical shape and having upper and lower through holes; An upper assembly assembled to cover an open upper surface of the upper shank and extending into the interior of the upper shank to provide a cooling water pipe; And a lower electrode assembled to cover the open bottom of the upper shank and having an electrode piece on the lower surface thereof, the lower electrode assembly having a lower shank formed in a cylindrical shape and passing through the upper and lower shanks; A lower assembly that is assembled to cover an open bottom of the lower shank and extends into the interior of the lower shank to provide a cooling water pipe; A lower electrode assembled to cover an open upper surface of the lower shank and fixing the nut or bolt; The upper and lower assemblies are each provided with a cooling water discharge pipe through which cooling water supplied to the upper and lower shanks is recovered through a cooling water pipe.

Further, the present invention further includes a mounting protrusion provided on the lower electrode so as to be elastically protruded to the upper portion of the electrode tip by a spring while fixing the nut through the upper electrode assembly, and the upper electrode assembly has an insertion groove for receiving the upper portion of the mounting protrusion .

The lower electrode may be formed with a mounting hole into which a bolt is inserted.

In the present invention, when the temperature of the cooling water supplied to the spot welding portion is detected in real time and the temperature of the cooling water rises above the set temperature, the spot welding device is stopped and then guided to an operator through an alarm. At the same time, After the superheated cooling water is discharged, the cooling water is replenished through the raw water pipe so that the spot welding device can be quickly restarted. After confirming the operator, the spot welding device is operated again, The welding defect of the product which occurs due to the increase of the temperature is prevented.

Further, the present invention controls the compressed air stored in the compressed air reservoir to be a constant pressure when the upper electrode assembly is lifted and lowered by the pressurizing unit, so that the upper electrode assembly descends at a predetermined pressure to press the nut or bolt Thereby preventing a problem that welding failure occurs due to insufficient pressing force of the pressing portion or that the pressing force is excessively excessive and the threads of the nut and bolt are deformed and the relative parts are not assembled.

In the present invention, since the temperature of the real-time cooling water and the pressure of the compressed air detected by the temperature detector and the pressure sensor are guided to the operator through the display unit, the operator can easily check whether the cooling water and the compressed air are overheated or under- .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a spot welding apparatus for attaching a fastening member provided with an over-heating and overheat prevention device of an electrode assembly of the present invention. FIG.
2 is a sectional view showing an example of a spot welding portion for attaching a nut according to the present invention,
3 is a cross-sectional view showing an example of a spot welded portion for attaching a bolt of the present invention,
4 is a perspective view showing an example of the upper electrode assembly of the present invention,
Fig. 5 is an exploded perspective view of Fig. 4,
6 is a perspective view showing an example of a lower electrode assembly of the present invention,
FIG. 7 is an exploded perspective view of FIG. 6,
8 is a flowchart showing an example in which the controller of the present invention performs an operation of preventing overheating of cooling water,
9 is a flowchart showing an example in which an over-low-pressure preventing operation is performed by the control unit of the present invention,
10 and 11 are photographs showing an example of spot welding by a spot welding apparatus for attaching a fastening member provided with an overheating prevention device for overheating and cooling of an electrode assembly of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a spot welding apparatus for spot welding a nut or a bolt to a base material, which can pressurize and weld the base material at a constant pressure and detect overheating of the supplied cooling water, The present invention relates to a spot welding apparatus for attaching a fastening member having an over-low-pressure and a coolant overheating prevention device. The upper electrode assembly 10 and the lower electrode assembly 20 A cooling water supply unit 200 for supplying cooling water to the inside of the upper and lower electrode assemblies 10 and 20 of the spot welded part 100 and a cooling water supply unit 200 for supplying cooling water to the upper and lower electrode assemblies 10 and 20 A temperature detecting unit 300 for detecting the temperature of the cooling water recovered by passing through the upper electrode assembly 10 and a pressing unit for pressing the base material 1 by the upper electrode assembly 10 while moving the upper electrode assembly 10 up and down 400, a compressed air supply unit 500 for supplying compressed air of a predetermined pressure to the pressurizing unit 400, and a control unit 600. Hereinafter, these configurations will be described in detail.

2 and 3, the spot welding part 100 is formed by spot welding the nut 2 or the bolt 3 using the upper and lower electrode assemblies 10 and 20 provided with the base material 1 interposed therebetween The upper electrode assembly 10 of the spot welded part 100 of the present invention includes an upper shank 11 formed in a cylindrical shape as shown in FIGS. 4 and 5 and having upper and lower through holes, Assembled so as to cover the open top surface and extending to the inside of the upper shank 11 to cover the open bottom surface of the upper assembly 12 and the upper shank 11 where the cooling water pipe 12A is installed, And an upper electrode 13 provided with a lower electrode 13A.

5 and 6, the lower electrode assembly 20 includes a lower shank 21 penetrating the upper and lower shanks and a lower shank 21 assembled to cover the opened lower surface of the lower shank 21, And a lower electrode 22 for fixing the nut 2 or the bolt 3 while being assembled so as to cover the opened upper surface of the lower shank 21 23 and an electrode tip 24 screwed on the upper surface of the lower electrode 23.

The upper and lower assemblies 12 and 22 are provided with cooling water discharge pipes 12B and 22B through which the cooling water supplied to the upper and lower shanks 11 and 21 is recovered through the cooling water pipes 12A and 22A.

A cylinder rod of a pressing part 300 to be described later is connected to the upper part of the upper assembly 10. The cylinder rod is moved up and down by a compressed air of a predetermined pressure provided by the compressed air supplying part 500, And the nuts 2 or the bolts 3 interposed between the upper and lower assemblies 10 and 20 are attached by spot welding. At this time, 2 and the bolts 3 and the supply and discharge of the base material 1 are performed manually by the operator.

The cooling water supplied through the cooling water supply unit 200 to be described later is supplied to the inside of the upper and lower shanks 11 and 21 through the cooling water pipes 12A and 22A of the upper and lower assemblies 10 and 20, The upper and lower electrodes 13 and 23 are cooled to cool the upper and lower electrodes 13 and 23 and the heated cooling water is supplied to the cooling water channel 220 of the cooling water supply unit 200 through the cooling water discharge pipes 12B and 22B And then stored in the coolant storage tank 210. [

2, when the fastening member to be attached to the base material 1 by spot welding is a nut 2, the upper part of the electrode tip 24 is fixed to the lower electrode 23 by the spring S, And the upper electrode assembly 10 is formed with an insertion groove 13B in which the upper end of the mounting projection 23A is received, The upper electrode assembly 10 is lowered and brought into close contact with the mounting protrusion 23A with the nut 2 inserted into the mounting protrusion 23A so that the position of the nut 2 is not released during the welding process.

When the fastening member is a bolt 3 rather than a nut 2, a mounting hole H into which the bolt 3 is inserted is formed in the lower electrode 23 as shown in FIG. 3, The welding is progressed while the threaded portion of the bolt 3 is inserted into the mounting hole H and fixed.

The cooling water supply unit 200 for supplying the cooling water to the inside of the upper and lower electrode assemblies 10 and 20 so as not to overheat the electrodes of the spot welding unit 100 is connected to the raw water pipe 201, A cooling water flow path 220 and a cooling water storage tank 210 in which a flow path is connected so that the flow path is circulated to pass through the cooling water storage tank 210 and the upper and lower electrode assemblies 10 and 20, And a drainage flow path 230 provided on the downstream side of the flow path 220 for discharging the cooling water.

A raw water supply valve 202 is provided in the raw water pipe 201 and is selectively opened under the control of the control unit 600 to supply raw water to the cooling water storage tank 210.

 The cooling water is installed on the downstream side of the cooling water flow path 220, that is, the cooling water is passed through the upper and lower electrode assemblies 10 and 20 to be recovered to the cooling water storage tank 210 and the temperature of the cooling water circulated through the cooling water flow path 220 And provides the detected temperature to the controller 600. The temperature detector 300 generally includes a temperature sensor widely used for detecting the temperature.

That is, the temperature detector 300 detects the temperature of the recovered cooling water supplied to the upper and lower electrode assemblies 10 and 20, and provides the detected temperature value to the controller 600, When the temperature of the cooling water is higher than the reference temperature, the cooling water is controlled so as to be supplied with the cooling water to ensure the cooling performance.

1, the pressurizing unit 400, which is positioned above the upper electrode assembly 10 of the spot welded part 100 and moves up and down the upper electrode assembly 10, includes a pneumatic cylinder as shown in FIG. 1, 10 and compressed air is supplied from a compressed air supply unit 500, which will be described later, so that the lifting operation is controlled.

In this case, in the present invention, the hydraulic cylinder may be changed as necessary. In this case, the compressed air supply unit 500, which will be described later, is modified to supply a certain pressure instead of the compressed air.

The compressed air supply unit 500 for supplying compressed air to the pressurizing unit 400 includes a compressor 510 for generating high-pressure compressed air as shown in FIG. 1, a compressed air supply unit 500 for supplying compressed air supplied from the compressor 510 An air inlet and outlet passage 530 for selectively supplying the compressed air stored in the compressed air reservoir 520 to the pressurization unit 400 and moving the compressed air stored in the compressed air reservoir 520 to the outside And a pressure sensor 550 for detecting the internal pressure of the compressed air storage tank 520 and transmitting the detected information to the controller 600. [

Control valves 511, 531 and 532 are respectively provided on the flow path connecting the compressor 510 and the compressed air reservoir 520 and on the air inlet and outlet flow path 530. These control valves 511, The valve 540 is opened and closed under the control of the controller 600, and the pressure of the compressed air stored in the compressed air reservoir 520 is maintained at a constant pressure.

The cooling water supply unit 200, the compressor 510, and the plurality of compressors (not shown) are controlled according to the real time temperature of the cooling water detected by the temperature detector 300 and the pressure of the compressed air storage tank 520 detected by the pressure sensor 550 of the compressed air supply unit 500 The control unit 600 controls the opening and closing operation of the valve of the control unit 600. When the temperature T _R detected by the temperature detector 300 is equal to or higher than the set temperature T _SET (T _R? T _SET ) The temperature of the cooling water is prevented from rising to the set temperature T _SET or more so that the overheat of the upper and lower electrodes 13 and 23 of the spot welded part 100 is prevented .

9, when the pressure P _R of the compressed air detected by the compressed air supply unit 500 is lower than the set pressure P _{L_SET} to P _{H_SET} (P _R <P _{L_SET} ), the compressed air is compressed when filling the air, and the set pressure (P _{L _SET} ~ P _{H _SET)} is higher than the range (P _R> P _{H _SET),} the compressed air stored in the compressed air storage tank (520) by controlling such that the compressed air is discharged to the outside The pressurizing unit 400 presses the upper electrode assembly 10 downward at a constant pressure while the pressure is maintained within the set pressure range P _{L_SET} to P _{H_SET} .

Meanwhile, when the temperature of the cooling water detected by the temperature detecting unit 300 is higher than the set temperature or the pressure of the compressed air detected by the compressed air supplying unit 500 is out of the set pressure range, The present invention is characterized in that any one of the temperature of the cooling water or the compressed air pressure is set to the set temperature T _SET and the set pressure P _{L_SET} to P _{H_SET} ), the operation of the spot welded part 100 is stopped and the product can be always welded under the same conditions.

Further, the present invention may further include a display unit 700 so that the operator can easily confirm the temperature of the cooling water and the pressure of the compressed air detected by the temperature detecting unit 300 and the compressed air supplying unit 500, respectively, There is no need to work while confirming the temperature of the cooling water and the pressure of the compressed air, and the defective product can be greatly reduced.

Although the worker has manually positioned the base material 1, the nut 2 and the bolts 3 between the upper and lower electrode assemblies 10 and 20 in the above description, 2 and the bolt 3, and the automatic feeder can be easily selected from among commonly known automatic feeders which are widely used.

As described above, according to the present invention, the control of the control unit prevents the cooling water supplied to the spot welded portion from being overheated, and at the same time, the pressure of the compressed air supplied to the pressing portion can be constantly supplied. It is possible to weld the nut or the bolt accurately, and as a result, the defective product is significantly reduced.

1: Base material 2: Nut
2: bolt 10: upper electrode assembly
11: upper shank 12: upper assembly
12A: Cooling water pipe 12B: Cooling water discharge pipe
13: upper electrode 13A: electrode piece
20: lower electrode assembly 21: lower shank
22: lower assembly 22A: cooling water tube
22B: Cooling water discharge pipe 23: Lower electrode
23A: mounting projection 24: electrode tip
100: spot welding part 200: cooling water supply part
201: raw water pipe 202: raw water supply valve
210: cooling water storage tank 220: cooling water flow path
230: drainage channel 300: temperature detector
400: pressurizing part 500: compressed air supply part
510: compressor 511: control valve
520: compressed air storage tank 530: air inlet /
531, 532: Control valve 540: Discharge valve
550: pressure sensor 600:
700: Display part H: Mounting hole

Claims (8)

A spot welding apparatus for spot welding a nut (2) or a bolt (3) to a base material (1)
The spot welding apparatus includes a spot welding part 100 including an upper electrode assembly 10 and a lower electrode assembly 20 spaced apart from each other at a predetermined interval;
A cooling water supply unit 200 for supplying cooling water to the upper and lower electrode assemblies 10 and 20 of the spot welded part 100;
A temperature detector 300 for detecting the temperature of the cooling water recovered through the upper and lower electrode assemblies 10 and 20;
A pressing unit 400 for pressing the base material 1 by the upper electrode assembly 10 while moving the upper electrode assembly 10 up and down;
A compressed air supply part 500 for supplying a compressed air of a predetermined pressure to the pressing part 400;
When the temperature T _R of the cooling water detected by the temperature detector 300 is higher than the preset temperature T _SET , the operation of the spot welder 100 is stopped and an alarm is generated.
If the pressure of the compressed air that is detected by the compressed air supply unit (500) (P _R) is set lower than the range of the pressure _{(P L_SET ~ P H_SET) (} P R <P L_SET) has and filled with compressed air from the compressor, set pressure if (P _{L _SET} ~ P _{H _SET)} is higher than the range (P _R> P _{H _SET)} is the (low) of the overheating and the compressed air of the cooling water is controlled so that the compressed air is discharged to the outside control unit for preventing the pressure (600 The spot welding apparatus according to any one of claims 1 to 5, further comprising:
The method according to claim 1,
The control unit (600)
When the temperature T _R of the cooling water detected by the temperature detector 300 is equal to or higher than the set temperature T _SET (T _{R ≥} T _SET ), the cold water is drained, then the raw water is replenished,
Wherein when the pressure of the compressed air detected by the compressed air supply unit (500) is out of the set pressure range, the operation of the spot welded part (100) is stopped and an alarm is generated. And a cooling water overheating prevention device.
The method according to claim 1,
And a display unit (700) for outputting the temperature of the cooling water and the pressure of compressed air detected by the temperature detector (300) and the compressed air supply unit (500), respectively. And a welding device for welding the fastening member.
The method according to claim 1 or 2,
The cooling water supply part (200)
A cooling water storage tank 210 connected to the raw water pipe 201 to store cooling water therein;
A cooling water channel 220 through which a channel is connected to circulate through the cooling water reservoir 210 and the upper and lower electrode assemblies 10 and 20;
And a drain passage (230) provided on the downstream side of the cooling water storage tank (210) or the cooling water passage (220) and discharging cooling water,
A raw water supply valve 202 is installed in the raw water pipe 201 and is selectively opened under the control of the control unit 600 to be controlled to supply raw water to the cooling water storage tank 210,
Wherein the temperature detector (300) is installed on the downstream side of the cooling water flow path (220).
The method of claim 2,
The compressed air supply part (500)
A compressor 510 for generating high-pressure compressed air;
A compressed air reservoir (520) for storing compressed air supplied from the compressor (510);
An air inlet / outlet passage 530 for selectively supplying the compressed air stored in the compressed air storage tank 520 to the pressure unit 400 to perform an elevating operation;
A discharge valve 540 for discharging the compressed air stored in the compressed air storage tank 520 to the outside;
And a pressure sensor (550) for detecting the internal pressure of the compressed air storage tank (520) and transmitting the information detected by the controller (600)
Control valves 511, 531 and 532 are respectively provided on the flow path connecting the compressor 510 and the compressed air storage tank 520 and on the air inlet and outlet flow path 530. The control valves 511, Wherein the discharge valve (540) is opened and closed under the control of the controller (600), respectively.
The method according to claim 1,
The upper electrode assembly (10) includes: an upper shank (11) formed in a cylindrical shape and having upper and lower through holes; An upper assembly (12) assembled to cover an open upper surface of the upper shank (11) and extending to the inside of the upper shank (11) and provided with a cooling water pipe (12A); And an upper electrode (13) assembled to cover the open bottom surface of the upper shank (11) and provided with an electrode piece (13A) on the bottom surface,
The lower electrode assembly 20 includes a lower shank 21 formed in a cylindrical shape and vertically penetrating therethrough; A lower assembly 22 which is assembled to cover the open bottom surface of the lower shank 21 and extends to the inside of the lower shank 21 to which a cooling water pipe 22A is installed; A lower electrode 23 for fixing the nut 2 or the bolt 3 while being assembled to cover the opened upper surface of the lower shank 21; And an electrode tip (24) screwed on the upper surface of the lower electrode (23)
The upper and lower assemblies 12 and 22 are respectively provided with cooling water discharge pipes 12B and 22B through which the cooling water supplied to the upper and lower shanks 11 and 21 is recovered through the cooling water pipes 12A and 22A Wherein the electrode assembly has an over-low-voltage and a cooling-water overheating prevention device.
The method of claim 6,
The lower electrode 23 is further provided with a mounting protrusion 23A which is installed to be elastically protruded to the upper portion of the electrode tip 24 by a spring S while fixing the nut 2 therethrough,
The upper electrode assembly (10) is formed with an insertion groove (13B) in which an upper end portion of the mounting projection (23A) is received. The electrode assembly has a spot weld for attaching a fastening member Device.
The method of claim 6,
And a mounting hole (H) for inserting the bolt (3) is formed on the lower electrode (23).

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