KR101528327B1 - Vibrator - Google Patents

Abstract

The present invention relates to a vibrator. The vibrator comprises: an E-core which has an E-shape with the quality of a steel plate material, and has multiple stacked layers; an I-core which is spaced from the E-core with the quality of a steel plate material, has multiple stacked layers, and has an I-shape; a winding part which is wound on a portion protruding horizontally from the center of the E-core, and receives alternating current applied thereto; a housing storing the E-core, the I-core, and the winding part, which are embedded therein; a wing plate which is protruding from a side wall of the housing, and has the wing through-holes passing through the wing plate; a bottom plate member which is spaced from the housing and has a receiving groove to receive the I-core; bolts which passes through the wing through-holes to be coupled to the bottom plate member; and Urethane springs which are made of a urethane material and are coupled to the housing to control impact and buffer. A particulate material, which is delivered inside a chute, a hopper, or a pipe delivery facility, is ground and dispersed, so it is prevented that a discharging opening, which is slanted, becomes narrower or is blocked because the particulate material is absorbed or agglomerated inside the discharging opening. Also, the mobility of a production facility is improved and maintained, thereby smoothly delivering and supplying the particulate material from the facility to a delivery line. Furthermore, the present invention may be easily applied to an existing facility.

Description

Vibration generator {Vibrator}

More particularly, the present invention relates to a vibration generator, and more particularly, to a vibration generator which is made by crushing and dispersing a powder to be transferred into a chute, a hopper, or a transfer piping facility, thereby narrowing or clogging the inclined discharge port due to adsorption or aggregation of powder inside the discharge port It is possible to smoothly transfer and supply the powder from the facility to the conveyance line by improving and maintaining the fluidity of the production facility, and the inclined outlet is formed at the inside of the inclined outlet of the facility by adsorption or aggregation of the powder The present invention relates to a vibration generator capable of preventing a phenomenon of narrowing or clogging of a compressor,

Generally, when constructing various kinds of suits, hoppers, and transfer piping facilities for storing and supplying powders or powdery materials used in transportation systems of petrochemical plants, it is necessary to transfer the powder and other materials while discharging the transfer facilities and transfer piping As shown in FIG.

However, in the case of conventional facilities in which various substances in the form of powder are continuously supplied and stored in large quantities and supplied through a transfer facility, the powders put into the facility are aggregated with each other due to their own properties such as moisture or static electricity, The fluidity is lowered and powder that is agglomerated in the form of agglomerates is entrained around the lower inclined outlet of the equipment to cause a tapered outlet to be narrowed or in the worst case to clog the lower narrow portion of the inclined outlet, It was not smooth and there was a problem of giving a trouble to the supply.

In addition, when the powder is put into the equipment for long time and stored and used, the powder located at the bottom outlet side receives a considerable pressure, and the discharge velocity of the central part and the side part of the powder discharge occurs, Shear pressure is applied to the powder, and the powder receives pressure to the discharge port side, so that the powder is stuck and attached.

In addition, as the phenomenon continues for a long time, the thickness of the adsorbent layer of the powder gradually increases and the passage of the outlet is narrowed. If this phenomenon continues, the discharge port becomes clogged, The phenomenon is also seen as a factor that causes enormous obstacles and damages to the operation of the plant. Therefore, it is necessary to remove the adsorbed layer of the powder by crushing the powder of the discharge outlet There is a problem in that it is accompanied by an economic burden of periodically performing internal maintenance and cleaning work of the equipment.

In order to prevent this, various vibration generators have been proposed. However, the vibration generators have a structure that can not be used for a long time.

Registration Utility Model No. 20-0403543 (Dec. 9, 2005) Japanese Patent Application Laid-Open No. 08-019243 (1996.01.19.)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to disintegrate powder dispersed in a chute, a hopper, It is possible to prevent the phenomenon that the outlet is narrowed or clogged, and the fluidity of the production facility can be improved and maintained, so that the powder can be smoothly transferred from the facility to the conveyance line, and the powder can be adsorbed or aggregated And it is an object of the present invention to provide a vibration generator capable of preventing the phenomenon that the inclined outlet is narrowed or clogged by the conventional apparatus and can be installed and used relatively easily in existing facilities.

According to an aspect of the present invention, there is provided a vibration generator including: a core having an alphabet letter shape and having a steel plate material and having a plurality of layers stacked thereon; A winding part having a steel sheet material, a plurality of laminated layers, an I-core having an alphabetical letter I, a winding part wound around the center of the core and projecting an AC current, A housing having a core, an eye core, and a winding portion; a blade plate projecting from a side wall of the housing, the blade plate including a through-hole, the housing having a receiving groove, A bolt penetrating through the vane through hole and coupled with the bottom plate member; and a bolt coupled with the housing to adjust shock and buffer, Eojineun characterized in that it comprises a urethane spring.

Further, in the vibration generator according to the present invention, the urethane spring includes an upper spring positioned between the head portion of the bolt and the upper surface of the blade, and a lower spring positioned between the lower surface of the blade and the lower plate member .

Further, in the vibration generator according to the present invention, the core is characterized by being made of a silicon steel sheet material so as to generate a strong electromagnetic force.

According to the vibration generator of the present invention, by crushing and dispersing the powder conveyed in the chute or the hopper or the conveying piping, it is possible to prevent the phenomenon that the inclined outlet is narrowed or clogged due to the adsorption or aggregation of the powder inside the outlet And it is possible to smoothly transfer and supply the powder from the facility to the conveyance line by improving and maintaining the fluidity of the production facility, and the inclined outlet is narrowed or clogged due to the adsorption or aggregation of the powder inside the inclined outlet of the facility It is possible to prevent the phenomenon from occurring, and it is also possible to apply the present invention to a conventional facility relatively easily.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an internal configuration of a vibration generator according to an embodiment of the present invention; FIG.
Fig. 2 is an exploded perspective view of the vibration generator shown in Fig.
Fig. 3 is a front view of the vibration generator shown in Fig. 1

Hereinafter, a vibration generator according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 illustrate a vibration generator according to an embodiment of the present invention. FIG. 1 is a view showing the internal structure of a vibration generator according to an embodiment of the present invention. Fig. 3 is a front view of the vibration generator shown in Fig. 1, and Fig.

As shown in the figure, the vibration generator 100 according to the embodiment of the present invention includes the core 10, the eye core 20, the winding portion 30, the housing 40, A base plate 50, a base plate member 60, a bolt 70, and a urethane spring 80.

The core 10 has an (E) alphabetic character, has a steel sheet material, and has a plurality of layers stacked.

The eye core 20 is spaced apart from the core, has a steel sheet material, has a plurality of layers stacked, and has an I-shaped letter.

The winding portion 30 is wound around a portion projecting horizontally in the center of the core, and an alternating current is applied.

The housing 40 houses the core, the eye core, and the winding portion.

The wing plate (50) includes a wing through hole (52) projecting from the side wall of the housing (40) and being a through hole.

3, the bottom plate 60 is spaced apart from the housing 40 and has a receiving groove 62 to accommodate the eye core 20. As shown in FIG.

The bolt 70 penetrates the wing through hole 52 and is coupled to the bottom plate member 60.

The urethane spring 80 is coupled with the housing 40 to adjust shock and buffer, and is made of a urethane material.

In this embodiment, the urethane spring 80 is composed of an upper spring 82 and a lower spring 84.

The upper spring 82 is positioned between the head of the bolt 70 and the upper surface of the blade 50.

The lower spring 84 is positioned between the lower surface of the vane plate 50 and the lower plate member 60.

On the other hand, in the present embodiment, the core 10 is preferably made of a silicon steel sheet material in order to generate a strong electromagnetic force.

The vibration generator 100 according to the embodiment of the present invention having the above configuration is used as follows.

An alternating current is applied to the winding section (30).

Then, a magnetic flux is generated by the Fleming's right-hand thumb rule, and this magnetic flux circulates between the core 10 and the eye core 20. [

When the application direction of the current is alternated in order to prevent the magnetic saturation phenomenon, the direction of rotation of the magnetic flux becomes the same as the direction of current application, and the core 10 and the eye core 20 alternate with each other in attracting force .

Since the alternating suction force is interlocked with the urethane spring 80 having the elastic modulus, the vibration is generated according to the alternation of the suction force.

That is, due to the alternating suction force (pulling force), the housing 40 is repeatedly moved closer to and away from the lower plate member 60. As a result,

Such vibration is amplified or relaxed by the upper spring 82 and the lower spring 84 to generate a constant vibration.

On the other hand, in the present embodiment, since the core 10 has a silicon steel plate material, a strong electromagnetic force is generated due to the characteristics of the material.

When such a strong electromagnetic force is generated, electromagnetic induction phenomenon (eddy current phenomenon) may occur. To prevent this, an iso-core 20 having an alphabet I (I) shape is used.

10. This Core 20. I Core
30. Winding section 40. Housing
50. Wing plate 60. Base plate member
70. Bolt 80. Urethane spring
82. Upper spring 84. Lower spring

Claims (3)

The core (10) has an alphabetical character (E) shape, has a steel sheet material, and has multiple layers stacked;
An eye core 20 having a plurality of layers stacked on the core 10 and spaced apart from the core 10 and having an alphabet letter I;
A winding part 30 wound around a center of the core 10 projecting horizontally and to which an alternating current is applied;
A housing 40 housing the core 10, the eye core 20, and the winding unit 30;
A blade plate (50) projecting from a side wall of the housing (40) and including a blade through hole (52) which is a through hole;
A base plate member 60 spaced apart from the housing 40 and having a receiving groove 62 to receive the eye core 20;
A bolt 70 penetrating the wing through hole 52 and engaged with the bottom plate member 60;
And a urethane spring (80) made of a urethane material, which is combined with the housing (40) to adjust shock and buffer,
The urethane spring (80)
An upper spring 82 positioned between the head of the bolt 70 and the upper surface of the blade 50,
And a lower spring (84) positioned between the lower surface of the blade (50) and the lower plate member (60).
delete The method according to claim 1,
The core (10)
Characterized in that the vibration generator is made of a silicon steel plate material for generating electromagnetic force.

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