RESISTANCE WELDING SYSTEM FOR NUT CONTROL

Abstract

The present invention relates to a resistance welding system for nut control; the resistance welding system uses a resistance welding method in the process of welding nuts to metal sheets; detects the situations of the parameters are in or out of tolerance values that the parameter can be nut lengths, nut inner diameter differences and acceptability of welding seam riser heights, by makes control them at the welding process and gives warning according to situation; enables automatic control to different types of nuts on a component in processes where multiple nuts are welded onto one component by maintaining a recipeable and sequential welding process via calling registered welding properties for the corresponding nut; it also relates to a resistance welding nut control system that prevents the operator from taking the wrong nut and loading it into the machine.

Claims

1. The present invention relates to a resistance welding system for nut control that the resistance welding system uses a resistance welding method in the process of welding nuts to metal sheets, that detects the situations of the parameters are in or out of tolerance values that the parameter can be nut lengths, nut inner diameter differences and acceptability of welding seam riser heights, by makes control them at the welding process and gives warning according to situation, that enables automatic control to different types of nuts on a component in processes where multiple nuts are welded onto one component by maintaining a recipeable and sequential welding process via calling registered welding properties for the corresponding nut, that it also relates to a resistance welding nut control system that prevents the operator from taking the wrong nut and loading it into the machine characterized in that; it contains, at least one electrode body (1) for supporting the cooling elements and supporting the cooling channels, at least one ceramic pin (8) for centering by bringing the pieces to be welded to the same axis, at least one piston rod (2) to convert the pneumatic movement within the electrode body (1) to mechanical movement and to move the ceramic pin (8), at least one pin holder (7) to provide up and down movements of the ceramic pin (8) without gap, at least one magnetic band (11) to indicate positions that enable to understand the movement of the mechanism digitally, at least one sensor (16) that allow to understanding the data from the magnetic band (11) as the analog position value, at least one piston rod head (9) to connecting the sealing elements with the magnetic band (11) and also to move the ceramic pin (8) in both directions up and down, at least one electrode (15) to making welding process, least one at least one electrode assembly (30, 40) which has at least one sleeve (18) to ensure air and water connections, at least one programmable logical controller (PLC) which ensure that all welding and control operations are carried out automatically periodical and statistical data is obtained and, when welding multiple nuts on one piece, it is possible to call the registered welding process properties for the next nut and to check the nuts according to the registered measured values, as well as to evaluate the data from the sensor (16), optical and/or linear scale system, at least one optical and/or linear scale system that controls all measurements simultaneously with in the process, that measuring the upper electrode position linearly and the height of the ceramic pin (8), pneumatic valve with cylinder groups (62) to allow opening and closing of these nut boxes (61) according to the commands given by PLC.

2. An electrode assembly (30, 40) in resistance welding system according to claim 1, characterized in that; it contains at least one felt (3) to provide resistance to heat and dust for electrode assembly (30, 40) and consequently allow the system to operate for a long time, at least one felt washer (4) to secure the felt (3), at least one first sealing member (5) and at least one second sealing member (6) for sealing, at least one sensor cover (17) to protect the sensor (16) from external effects, at least one piston seal (10) for efficient operation by preventing air leaks, at least one connecting element (12) for connecting the sealing elements with the magnetic band (11), at least one bottom cover (13) to prevent air leakage and dust ingress, at least one sensor cover bolt (22) for connection to sensor cover (17).

3. A resistance welding system according to claim 1, characterized in that; the covers of the nut boxes (61) are transparent and this way can be seen how much nut remains in the closed position of nut boxes (61).

4. A resistance welding system according to claim 1, characterized in that; the covers of the nut boxes (61) do not continue to close in the event of an obstacle, thereby this is eliminating that pinch the operator's hand.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0015] Embodiments of the present invention briefly summarized above and discussed in more detail below can be understood by reference to the exemplary embodiments described in the accompanying drawings. It should be noted, however, that the accompanying drawings only illustrate the typical embodiments of the present invention and therefore, they will are not intended to limit the scope of the invention, since it may allow other equally effective embodiments.

[0016] FIG. 1: A representative perspective view of the system according to the invention

[0017] FIG. 2: A representative perspective view of the nut supply unit included in the system according to the invention

[0018] FIG. 3: A representative perspective view of a resistance welding machine comprising the electrode assembly associated with the projection table according to the system of the present invention.

[0019] FIG. 4: A representative perspective view of a resistance welding machine comprising the rutile type electrode assembly according to system of the present invention.

[0020] FIG. 5: A representative disassembled view of the electrode assembly connected to the projection table in the system according to the invention.

[0021] FIG. 6: A representative frontal view of the electrode assembly connected to the projection table in the system according to the invention.

[0022] FIG. 7: A representative disassembled view of the rutile type electrode assembly according to the present invention.

[0023] The equivalents of the reference numbers shown in the figures are provided below. [0024] 1. Electrode body [0025] 2. Piston rod [0026] 3. felt [0027] 4. felt washer [0028] 5. First sealing member [0029] 6. Second sealing member [0030] 7. Pin holder [0031] 8. Ceramic pin [0032] 9. Piston rod head [0033] 10. Piston seal [0034] 11. Magnetic band [0035] 12. Connecting element [0036] 13. Bottom cover [0037] 14. Adapter [0038] 15. Electrode [0039] 16. Sensor [0040] 17. Sensor cover [0041] 18. Sleeve [0042] 19. T connector [0043] 20. Fixing bolt [0044] 21. Felt/seal ring bolt [0045] 22. Sensor cover bolt [0046] 23. Extension member [0047] 24. Cooling block [0048] 30. Electrode assembly with projection table connection [0049] 40. rutile type electrode assembly [0050] 50. Resistance welding machine [0051] 60. Nut supply unit [0052] 61. Nut Box [0053] 62. Pneumatic valve with cylinder group

DETAILED DESCRIPTION OF THE INVENTION

[0054] The preferred alternatives of the resistance welding system for nut control in the following detailed description are provided to ensure a better understanding and shall not create any restrictive effect.

[0055] The present invention relates to a resistance welding system for nut control; the resistance welding system uses a resistance welding method in the process of welding nuts to metal sheets; detects the situations of the parameters are in or out of tolerance values that the parameter can be nut lengths, nut inner diameter differences and acceptability of welding seam riser heights, by makes control them at the welding process and gives warning according to situation; enables automatic control to different types of nuts on a component in processes where multiple nuts are welded onto one component by maintaining a recipeable and sequential welding process via calling registered welding properties for the corresponding nut; it also relates to a resistance welding nut control system that prevents the operator from taking the wrong nut and loading it into the machine.

[0056] The system according to the invention has: at least one electrode body (1) for supporting the cooling elements and supporting the cooling channels; at least one ceramic pin (8) for centering by bringing the pieces to be welded to the same axis; at least one piston rod (2) to convert the pneumatic movement within the electrode body (1) to mechanical movement and to move the ceramic pin (8); at least one felt (3) to provide resistance to heat and dust and consequently allow the system to operate for a long time; at least one felt washer (4) to secure the felt (3); at least one first sealing member (5) and at least one second sealing member (6) for sealing; at least one pin holder (7) to provide up and down movements of the ceramic pin (8) without gap; at least one magnetic band (11) to indicate positions that enable to understand the movement of the mechanism digitally; at least one sensor (16) that allow to understanding the data from the magnetic band (11) as the analog position value; at least one sensor cover (17) to protect the sensor (16) from external effects; at least one piston rod head (9) to connecting the sealing elements with the magnetic band (11) and also to move the ceramic pin (8) in both directions up and down; at least one piston seal (10) for efficient operation by preventing air leaks; at least one connecting element (12) for connecting the sealing elements with the magnetic band (11); at least one bottom cover (13) to prevent air leakage and dust ingress; at least one adapter (14), at least one T connector (19) and least one fixing bolt (20) for connecting the electrode assembly with projection table connection (30) to any machine; at least one electrode (15) to making welding process; at least one sleeve (18) to ensure air and water connections; at least one resistance welding machine (50) which has at least one electrode assembly with projection table connection (30) with sensor cover bolt (22) for connection to sensor cover (17) or, optionally has at least one rutile type electrode assembly (40); at least one nut supply unit comprises that the nut boxes (61) holding the nuts to be welded and closing/opening according to the commands from the programmable logical controller (PLC) and pneumatic valve with cylinder groups (62) to allow opening and closing of these nut boxes (61) according to the commands given by PLC. Rutile type electrode assembly (40) comprises at least one additional extension member (23) and at least one cooling block (24) relative to electrode assembly with projection table connection (30).

[0057] With the commands given by PLC according to the sequence and program in the welding process, the nut box (61) of the nut type to be welded is opened and the other nut boxes (61) are kept in the closed position. Thus, this process prevents the operator from getting and loading the wrong nut. The covers of the nut boxes (61) are transparent and this way can be seen how much nut remains in the closed position of nut boxes (61). As a safety precaution, the covers of the nut boxes (61) do not continue to close in the event of an obstacle, thereby this is eliminating that pinch the operator's hand. Programmable logic controller (PLC) is used to ensure that all welding and nut control operations are evaluated and performed automatically.

[0058] According to the invention; the system has receiptable, sortable automatic welding feature, it is provided by PLC to call the registered welding properties for the next nut and to check the nuts according to the registered measured values in the operations where more than one nut is welded on a single piece. Thus, the automatic control of the numerous and different types of nuts on the piece is ensured and, the situation of missing nut or welding extra nut is prevented.

[0059] In the system subject to the invention: with measuring downward movement of the nut placed on the ceramic pin (8) to be welded to the metal piece via movement of the upper electrode, the magnetic band (11) on the piston rod (2) which moves downwards with the ceramic pin (8) is detected by the sensor (16) and, the position of the magnetic band (11) is sent analogously from the sensor (16) to the PLC. During the selection of “correct nut and the correct welding process” the height of the ceramic pin (8) before and after welding is registered by the PLC in the learning cycle and the measurements obtained in subsequent welding operations are compared with these registered values. The distance information that measuring the upper electrode position read from the optical and/or linear scale systems are controlled simultaneously with this process. Thus, controls are performed by way of both monitoring ceramic pin (8) movement and upper electrode movements.