JP2012255181A - Vibration device and method for operating vibration device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vibration device capable of obtaining stable vibration even when wire coils to be suspended have weights or the like different with each other.SOLUTION: The vibration device includes: right and left receiving bases 7a, 7b supported by air springs 4, 4, respectively; a hook 9 for suspending a wire coil 10, mounted astride the right and left receiving bases 7a, 7b; and a vibrating body 16a applying vibration to the hook 9. In the vibration device, a sensor for detecting each height of the right and left receiving bases 7a, 7b is provided at each of the right and left receiving bases, and an air pressure control means 17 is provided, the control means controlling a height of bulge due to air injection in each of the right and left air springs 4, 4 via the sensor to adjust a wire coil receiving surface 9d of the hook 9 to be horizontal.

Description

  The present invention relates to a vibration device that gives vibration to a wire coil when the wire coil is pickled, and a method for operating the vibration device.

  Conventionally, there is an apparatus of this type as disclosed in Patent Document 1. In this apparatus, a wire coil is suspended and conveyed on a C hook, immersed in a pickling tank, and suspended on a C hook. Thus, vibration is applied by the vibrating body, and the wire coil is subjected to vibration pickling.

JP-A-6-212465

  However, depending on the type of wire coil, the center of gravity changes when it is suspended on the C hook due to the weight of the wire coil or the unbalanced load, the wire coil moves on the C hook in the front-rear direction, etc., and the vibration is unstable. Thus, there is a problem that the entire apparatus is vibrated, and it is necessary to suspend the wire coil on the C hook while carefully considering the weight balance, and the workability is poor.

An object of the present invention is to provide a vibration device capable of stably giving vibration to a hook in which a wire coil is suspended, and a method for operating the vibration device. In order to achieve at least a part of this object, the following means are provided. I took it.
The vibration device according to the present invention includes a left and right cradle supported by air springs, a wire coil hanging hook placed on the left and right cradles, and a vibration through the cradle. In the vibration device configured to be provided with a vibrating body, the left and right cradles are each provided with a sensor for detecting the height of the cradle, and the left and right air springs are inflated by injecting air through the sensor. The gist of the invention is that it includes pneumatic control means for controlling the height so that the wire coil receiving surface of the hook is horizontal.

  In the vibration device of the present invention, when the air coil is inflated by injecting air into the left and right air springs in a state where the hooks with the wire coils suspended are placed on the left and right cradles, the wire coil coil receiving surface of the hook is horizontal. Since the bulge height of the left and right air springs can be controlled so that the receiving surface of the hook wire coil is horizontal, vibration can be applied, and the wire coil moves on the hook by vibration. The hook can be stably vibrated without being inclined, and can be stably vibrated even when the wire coils having different weights are suspended.

  The operating method of the vibration device according to the present invention includes a left and right cradle supported by air springs, a wire coil hanging hook placed on the left and right cradle and a hook on the hook. In the vibration device configured to include a vibrating body that applies vibration via a base, the hooks are placed on the left and right cradles in a state in which the air of the left and right air springs is removed, and in that state, When the right and left cradles are raised by injecting air in separate circuits, the vibration body is operated after controlling the air pressure of the left and right air springs so that the wire coil receiving surface of the hook is horizontal. Is the gist.

  In this way, with the air of the left and right air springs removed, the hooks with the wire coils suspended are placed on the left and right cradles, and in that state, air is injected into the left and right air springs in separate circuits, Adjust the bulge height of the air spring, level the left and right cradle level, and adjust the hook so that the wire coil receiving surface of the hook is horizontal. Since the bulge height of the left and right air springs is adjusted each time before operating the vibrating body, even when a wire coil with a different weight is suspended, it can give a stable vibration to the hook It becomes.

It is a front lineblock diagram of a vibration device. It is a right view of a vibration apparatus. It is a principal part enlarged view of the air spring and sensor part in FIG.

Next, the form for implementing this invention is demonstrated using an Example.
1 is a front view of the vibration device, FIG. 2 is a right side view of the vibration device, and FIG. 3 is an enlarged configuration diagram of a main part.

In the figure, the vibration device 1 is provided with a lower fixing plate 3 at each upper end of four support columns 2, 2, 2, 2 erected in the front-rear direction and the left-right direction. Air springs 4, 4, 4, and 4 are arranged, respectively.
The vibration frames 5a and 5b are disposed on the pair of left and right air springs 4 and 4, respectively, and the left vibration frame 5a is disposed on the left and right pair of air springs 4 and 4 in a spanning manner. 5b is arranged in a spanning manner on the pair of right and left air springs 4 and 4 in the front-rear direction.

Receiving bases 6a and 6b are respectively provided at the front and rear central portions of the left and right vibrating frames 5a and 5b. Receiving bases 7a and 7b are provided on the receiving bases 6a and 6b, respectively. The C hook 9 can be placed on the pedestals 7a and 7b arranged.
Note that the left and right vibrating frames 5a and 5b are connected by a connecting bar 8 provided at the center in the front-rear direction.

The C hook 9 includes an elevating frame portion 9a and a horizontal portion 9c extending horizontally at the lower end of a hanging portion 9b depending from the elevating frame portion 9a. The upper surface side of the horizontal portion 9c is a receiving surface 9d.
The wire coil 10 is suspended from the horizontal portion 9c of the C hook 9 by bringing the inner peripheral surface of the wire coil 10 into contact with the receiving surface 9d.
The left and right ends of the elevating frame portion 9a of the C hook are placed on the cradle 7a, 7b, and the C hook 9 is placed on the left and right cradle 7a, 7b.

  In addition, suspending tools 9e and 9e are provided on the upper surface of the elevating frame portion 9a of the C hook 9, and the C hook 9 is suspended and conveyed from the previous process via the suspending tools 9e and 9e, not shown. While the wire coil 10 is suspended through the lifting device, the C hook 9 is lowered and placed on the cradle 7a, 7b.

  If a pickling tank containing, for example, pickling solution is provided between the left and right support columns 2 and 2 of the vibration device 1, the wire coil 10 can be pickled by placing the C hook 9 on the receiving bases 7a and 7b. It can be immersed in the pickling solution of the tank.

Furthermore, the detailed part of the vibration apparatus 1 is demonstrated.
FIG. 2 shows a state in which the air springs 4, 4, 4 and 4 have been evacuated, and in the enlarged view of FIG. 3, air is injected into the air springs 4, 4, 4 and 4 and expands to an intermediate position. It shows the state.
Upper fixing plates 11, 11 are provided on the bottom surfaces of the left and right vibrating frames 5 a, 5 b, and an air spring 4 is disposed between the upper fixing plate 11 and the lower fixing plate 3 at the upper end of the support column 2. The plate 3 is provided with lower stoppers 3a and 3a protruding upward, and the upper fixing plate 11 is provided with upper stoppers 11a and 11a protruding downwards at corresponding front and rear positions. Further, a substantially L-shaped lifting prevention stopper 12 is provided so as to hang from the outer end of the upper fixing plate 11.

  As shown in FIG. 2, when the air spring 4 is removed and the air spring 4 is in the lowered position, the upper stopper 11 a is in contact with the lower stopper 3 a, and air is injected into the air spring 4 gradually. When the swells, the upper stopper 11a gradually rises with respect to the lower stopper 3a as shown in FIG. Further, when the air spring 4 swells to the uppermost end, the lower end of the lifting prevention stopper 12 comes into contact with the lower fixing plate 3 so that the height of the air spring 4 does not increase any more.

A rod 13 is provided in a hanging manner from the lower end side of the lifting prevention stopper 12, and a striker 13 a, which is a hardware that blocks the sensor, is provided at the lower end of the rod 13.
Further, a sensor mounting plate 14 is provided so as to protrude outward from the support column 2. On the sensor mounting plate 14, the descending end sensor 15a, the intermediate position sensor 15b, and the rising end sensor 15c are respectively located at different heights. It is attached.
The sensors 15a, 15b, and 15c are provided on the left and right columns 2, 2, respectively.
Each sensor 15a, 15b, 15c is comprised, for example with an optical fiber, and can detect the height of the air spring 4 when light is interrupted | blocked by the said striker 13a. By detecting the height of the air spring 4, the heights of the cradles 7a and 7b are detected.

As shown in FIGS. 1 and 2, a pair of vibration motors 16a and 16b is attached to the center of the vibration frame 5b on the right side of the drawing in the front-rear direction. The vibration motors 16a and 16b can generate vibrations with a weight by changing the motor rotation to vertical movement.
The vibration motors 16a and 16b can vibrate the vibration frame 5b, the cradle base 6b, and the cradle 7b, and the vibration of the right vibration frame 5b is transmitted to the left vibration frame 5a via the connecting bar 8. As a result, the left cradle base 6a and cradle 7a are also vibrated.

In addition, a pneumatic control box 17 is provided on the right column 2, and a pneumatic device and a control device for controlling the pneumatic pressure injected into the air spring 4 are housed in the pneumatic control box 17.
The pneumatic equipment in the pneumatic control box 17 is connected to each air spring 4 by an air hose (not shown).

In this example, the left and right pair of front and rear air springs 4 and 4 and the right and left pair of front and rear air springs 4 and 4 are respectively supplied with air in separate circuits, and the air pressure is controlled separately on the left and right. Yes.
The control device in the pneumatic control box 17 inputs the bulge height of the air spring 4 from the sensors 15a, 15b, 15c as a signal, and adjusts the bulge height of the left and right air springs 4, 4 to be constant. The air pressure injected into the air springs 4 and 4 is controlled separately on the left and right. That is, by making the bulge heights of the left and right air springs 4 and 4 constant, the heights of the left and right cradles 7a and 7b can be aligned horizontally.

In the vibration device 1 of this example, the bulge height of the left and right air springs 4 and 4 is controlled to be constant each time the C hook 9 is placed on the left and right cradles 7a and 7b.
That is, when the left and right ends of the elevating frame portion 9a of the C hook 9 conveyed by hanging the wire coil 10 are placed on the left and right receiving bases 7a and 7b in a bridging manner, the air of all the air springs 4 and 4 Is removed, and air springs 4, 4, 4 and 4 are arranged in the lowered position as shown in FIG. 2. When the C hook 9 is placed on the cradles 7a and 7b, the left and right air springs 4 and 4 are paired. Air is injected in the left and right separate circuits, and the left and right air springs 4 and 4 gradually expand upward. At this time, the air pressure is controlled separately on the left and right sides so that the left and right air springs 4 and 4 have a constant height by signals from the sensors 15b and 15c. That is, the height of the left and right cradles 7a and 7b is controlled to be horizontal.

  Since the receiving surface 9d of the C hook 9 is designed to be in a horizontal state when the heights of the left and right receiving bases 7a and 7b are the same, the receiving surface 9d of the C hook 9 is horizontal, In this state, the vibration motors 16a and 16b are operated, and the vibration is transmitted to the left and right vibration frames 5a and 5b. The C hook 9 is vibrated by the vibrations of the left and right receiving bases 7a and 7b, and is suspended from the C hook. The wire coil 10 is vibrated, so that the contact surface 9d of the C hook 9 and the inner peripheral surface of the wire coil 10 are displaced, and the pickling solution acts uniformly on the entire surface of the wire coil 10, Further, since the pickling solution is also moved by vibration, the pickling process can be performed quickly by vibration. That is, by applying vibration, the contact surface of the wire coil with respect to the receiving surface 9d of the C hook 9 can be shifted, and the pickling solution can be moved by vibration to enhance the cleaning effect.

  In this example, even when a wire coil 10 of a different product number with a different weight is suspended, the receiving surface 9d of the C hook 9 is controlled and adjusted every time before the wire coil 10 is vibrated. For this reason, the center of gravity of the wire coil 10 is not changed during the vibration, so that it does not tilt as in the conventional case, and the occurrence of abnormal vibration as in the conventional case is suppressed, and the C hook 9 vibrates in a stable state. As a result, rattling or the like on the column 2 side does not occur. Therefore, a quiet and stable vibration can be obtained during vibration.

DESCRIPTION OF SYMBOLS 1 Vibration apparatus 2 Support | pillar 3 Lower fixing plate 3a Lower stopper 4 Air spring 5a, 5b Vibration frame 6a, 6b Receiving base 7a, 7b Receiving base 8 Connection bar 9 C hook 9a Elevating frame 9c Horizontal portion 9d Receiving surface 10 Wire material coil 11 Upper fixing plate 11a Upper stopper 12 Lifting prevention stopper 13 Rod 13a Striker 15a Lowering end sensor 15b Intermediate position sensor 15c Upward end sensor 16a, 16b Vibration motor (vibrating body)
17 Pneumatic control box

Claims (2)

Left and right cradle supported by air springs,
Hooks for hanging wire coils that are placed on the left and right cradles in a spanning manner;
In the vibration device configured to include a vibrating body that applies vibration to the hook via the cradle,
The left and right cradles are each provided with a sensor for detecting the height of the cradle,
An oscillating device comprising air pressure control means for controlling the bulge height of each of the left and right air springs through air injection to adjust the hook so that the wire coil receiving surface of the hook is horizontal. Left and right cradle supported by air springs,
Hooks for hanging wire coils that are placed on the left and right cradles in a spanning manner;
In the vibration device configured to include a vibrating body that applies vibration to the hook via the cradle,
With the air of the left and right air springs removed, place the hook on the left and right cradle,
After controlling the air pressure of the left and right air springs so that the wire coil receiving surface of the hook is horizontal when injecting air into the left and right air springs in separate circuits and raising the left and right cradle in that state ,
A method for operating a vibration device, wherein the vibration body is operated.

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