JP2536022B2 - Flash welding equipment - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an improvement of a flash welding device, particularly a flash welding device for applying oil to a welded portion.

[Conventional technology]

FIG. 3 is a schematic diagram showing a conventional flash welding apparatus disclosed in, for example, Japanese Utility Model Laid-Open No. 60-115679.

In this figure, (1) and (2) are the materials to be welded which are supported in a state of facing each other, and (3) and (4) are the first upper dies for clamping the above-mentioned materials to be welded (1) from above and below, respectively. Lower dies, (5) and (6) are second upper and lower dies that similarly clamp the welded material (2) from above and below, and (7) is the opposite of both welded materials (1) and (2). A rotary shear for cutting each part, which has a frame (7a) of the main body and a round blade (7b) rotatably mounted on the frame (7a). (8) is a tank that stores oil or grease, and (9) is a pump that sucks oil or grease from the tank through the pipe (10) and discharges it to the cutting portion through the discharge pipe (11). is there.

The frame (7a) of the rotary shear is constructed so that it can move on a rail (not shown) installed to extend in the plate width direction of the materials (1) and (2) to be welded. is there.

Next, the operation will be described. As a preparatory step for welding, first, the front ends of the materials to be welded (1) and (2) are cut and removed. Therefore, the materials to be welded (1) and (2) are clamped by the upper die (3), the lower die (4), the upper die (5) and the lower die (6), respectively. next,
Attach the rotary shear frame (7a) to the welded material (1) (2)
The circular blade (7b) is rotated while moving in the plate width direction, and the front end portions of the materials (1) and (2) to be welded are cut. (1 in the figure
a) and (1b) are the scrapes that occur at this time. On the other hand, a driving force is applied from the rotary shaft of the round blade (7b) to drive the pump (9), oil or grease contained in the tank (8) is sucked out through the pipe (10), and The material to be welded (1) through the discharge pipe (11)
And (2) is discharged and applied near the cut portion.
Since the pump (9) is driven by the rotary shaft of the round blade (7b), the pump (9) is not driven when the rotary shear (7) does not perform the cutting operation, and the oil is not applied. Not done.

[Problems to be Solved by the Invention]

Although the conventional flash welding device is configured as described above, since the tank (8) has a finite volume, the rotary shear (7) is stopped even when the tank (8) is empty even during cutting work. , It was necessary to manually replenish the tank (8) with oil or grease. Therefore, if the tank (8) becomes empty when the material to be welded is moving like in a general steel process line, the worker must approach the inside of the flash welding device for the replenishment work, Not only was it inefficient, it was extremely dangerous.

In addition, it was difficult for the worker to properly recognize the refueling time.

The present invention has been made to solve the above problems, and an object thereof is to obtain a flash welding apparatus capable of automatically replenishing a tank with oil, grease, or the like in a required amount. .

[Means for solving the problem]

The flash welding device according to the present invention is a device for detecting the amount of oil or grease in the tank, and based on the detection result, when the amount of the oil, grease or the like falls below a predetermined amount, the tank And a control device for stopping the operation of the replenishing device when the amount of oil, grease, etc. in the tank reaches another predetermined amount. It is designed to be automatically replenished.

[Work]

In the present invention, when the oil or grease in the tank decreases to a predetermined amount or less, the replenishing device operates according to the signal from the detection device to replenish the tank with the oil or grease. When the oil or grease in the tank is replenished in a predetermined amount or more, the replenishing device is stopped by a signal from the detecting device. Hereinafter, in order to repeat this operation, the tank is automatically replenished, and a predetermined amount of oil or grease is always secured in the tank.

Example of Invention

An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing the overall configuration of the apparatus, and FIG. 2 is a control system diagram.

First, the state I shown by the two-dot chain line in FIG. 1 is the normal position where the rotary shear frame (7a) carries out the cutting work, and the state II shown by the solid line shows that the rotary shear frame (7a) has the tilting shaft (14). Shows the standby position that has fallen by 90 degrees around The automatic replenishment operation according to the present invention is in the standby position II.
To do. Also, (15) is a rotary shear saddle,
The structure of the flash welding device is such that it can move on a rail (16) installed in the plate width direction of the material to be welded.
(17) is a piston mounted in the tank (8), which is constantly pressed downward in the figure by a spring (17a),
It moves in the vertical direction in the figure according to the amount of oil or the like in the storage chamber (8a) such as grease. (18) is a one-way supply port attached to the tank (8), and has a ball valve (18a) and a spring (18b) for pressing the ball valve (18a).
(19) is a dog attached to the rod outer end of the piston (17), and (20) and (21) are limit switches, respectively, which are adapted to operate when engaged with the dog (19). (22) is a cylinder (23) driven by air, for example
The one-way supply port (1
It is to be press-bonded to 8). A rubber hose (24) is connected to a supply source of oil or grease (not shown) and supplies the oil or grease to the tank (8) through the supply port (22).

Next, the operation of the embodiment will be described with reference to the control system diagram of FIG.

When the amount of oil or grease in the tank (8) becomes less than a predetermined amount, the piston (17) moves downward in FIG.
In order to move to the right in the figure, the dog (19) actuates the limit switch (20) and the rotary shear frame (7
The non-contact signal transmitter (36a) installed in a) is operated. As a result, a signal is emitted from the non-contact signal transmitter (36a), this signal is transmitted to the non-contact signal transmitter (36b) installed outside the rotary shear frame (7a), and further the oil supply control device (28). Be transmitted to. Refueling controller (28)
Is controlled by the pressure reducing valve (31) from the compressed air supply source (30) by energizing the solenoid (29S1) of the solenoid valve (29) and switching the valve from (29a) to (29b). Compressed air goes through the pipe (23b) and the room (23a) in the cylinder (23)
The joint port (22) is joined to the one-way supply port (18) to drive the piston (23d) to the left in the figure. The pressure gauge (32) indicates the completion of the joining in the chamber (23
It is detected by the pressure rise of a), and a signal to that effect is given to the refueling control device (28). As a result, the refueling controller (28) energizes the solenoid (25S) of the shutoff valve (25),
The valve is switched from (25a) to (25b) to open and the pump (26) is rotated to add oil or grease from another tank (27) through the joint port (22) and the one-way supply port (18) to the tank ( It is supplied to the accommodation chamber (8a) of 8). As the oil or grease is filled, the piston (17) moves to the left in FIG. 2, and the dog (19) actuates the limit switch (21) when filling a predetermined amount. This signal is transmitted by the non-contact signal transmitter (37) installed on the rotary shear frame (7a).
Operate a). As a result, the non-contact signal transmitter (37a)
From the rotary shear frame (7a) is transmitted to the non-contact signal transmitter (37b), which is further transmitted to the oil supply control device (28). As a result, the refueling controller (28) detects the completion of filling the tank (8) and operates the solenoid (25S) of the shutoff valve (25) to switch the valve from (25b) to (25a). Shuts off the shutoff valve (25) and simultaneously stops the pump (26) and energizes the solenoid (29S2) of the solenoid valve (29) to switch the valve from (29b) to (29a). ) Is supplied to the chamber (23e) of the cylinder (23) through the pipe (23c), the piston (23d) can be moved to the right in the figure, and the joint port (22) can be moved to the one-way supply port (18). ) To leave.

During the period from the start of refueling to the completion of refueling, a signal is given from the refueling control device (28) to the flash welding device integrated control device (35) to keep the rotary frame (7a) inoperative. After that, when the amount of oil, grease or the like in the tank (8) is reduced to a predetermined amount or less, the above replenishing operation is repeated.

Although air is used as a drive source for the cylinder (23) in the above embodiment, a fluid such as hydraulic oil may be used. Further, although the pressure gauge (32) is used for detecting the completion of the joining of the joining port (22), an appropriate limit switch may be installed in the piston rod of the cylinder (23).

〔The invention's effect〕

As described above, according to the present invention, since it is possible to automatically replenish the tank with oil or grease, not only can the required amount of oil be supplied in a timely manner, but the safety of the operator can be ensured.

[Brief description of drawings]

FIG. 1 is an overall configuration diagram showing a flash welding apparatus according to an embodiment of the present invention, and FIG. 2 is a control system diagram of the above embodiment,
FIG. 3 is a schematic view showing a conventional flash welding device. In the figure, (8) is a tank, (18) is a one-way supply port,
(22) is a joint, (23) is a cylinder, (25) is a shutoff valve, (29) is a solenoid valve, (26) is a pump, (27)
Is another tank, (28) is a refueling control device, (20) (21) is a limit switch, (36a), (36b), (37a), (37b)
Is a non-contact signal transmitter. In the drawings, the same reference numerals indicate the same or corresponding parts.

Claims (1)

(57) [Claims] Claim: What is claimed is: 1. In an object in which the end faces of the materials to be welded are cut while supplying oil or grease, respectively, and then each end face is flash-welded. Based on the detection device that detects the amount and the result of this detection, when the amount of oil or grease, etc. falls below a predetermined amount, the device for supplying oil, grease, etc. is operated to replenish the tank. In addition to the above, when the amount of the oil or grease in the tank reaches another predetermined amount, it is equipped with a control device that stops the operation of the replenishing device, and automatically replenishes the tank with the oil or grease. Flash welding equipment characterized in that