KR20140008077A - Coil separator of transformer - Google Patents

Abstract

The present invention comprises a main frame which includes a worktable; a support frame which is installed on the worktable of the main frame; a fixing unit which is installed on the worktable to fix a transformer core; a core cutting unit which is installed in the support frame to move up and down and to cut the transformer core fixed by the fixing unit; and a hydraulic tongs unit which removes coils left in the core cut by the core cutting unit. According to the present invention, the coils stuck into the core are easily removed as the coils are easily taken out from the core by the hydraulic tongs unit after the core is cut by the core cutting unit. The invention is capable of reducing costs as the process of separating the core from the transformer is not necessary and the coils in the transformer are easily removed by the coil cutting unit.

Description

Coil Separator for Transformer {COIL SEPARATOR OF TRANSFORMER}

The present invention relates to a coil separating device of a transformer, and more particularly, since the core is cut by the core cutting unit and the coil is separated from the iron core by the hydraulic tong unit, the coil embedded in the iron core can be easily removed. The present invention relates to a coil separation device of a transformer capable of directly removing a coil of a transformer by a coil cutting unit, thereby eliminating the need to separate a transformer and an iron core core, thereby reducing costs.

In general, a transformer is used to convert the voltage or current value of an alternating current using an electromagnetic induction phenomenon so that the user can use the voltage of each state according to need.

The transformer is formed by cutting a metal sheet material whose material is a silicon steel sheet as a standard and then breaking it to form an iron core. The coil is wound around the iron core to form a core, which is housed in a tank, filled with oil, Used after being sealed.

This transformer is installed in various factories and telephone poles, and outputs the transformed voltage. When the service life of the transformer is terminated due to a lengthened period of use or overloading of the transformer, etc., the transformer is used as industrial waste, Core and the like are separated for each material and recycled as a clean process or a resource material.

An iron core made of a silicon steel plate and an iron core core in which many coils are wound on an iron core are processed by separating a coil from an iron core by cutting the coil from the iron core.

The reason for this is that iron cores are made of silicon steel and coils are made of copper so that they need to be recycled separately and that if they do not damage the iron core made of silicon steel, It is because it does not damage the iron core and it increases the added value.

Conventionally, in the conventional iron core, the coil is cut and separated from the iron core by manual operation. In this case, there are many disadvantages such as a large number of safety accidents and a low processing efficiency due to a low processing efficiency.

Korean Patent No. 1124877 has proposed a coil cutting separator for an iron core for a transformer in order to solve the drawbacks due to manual operation.

In the above-described conventional coil cutting separator, since the two cutting blades on both sides of the iron core cut and remove the coils, the coils embedded in the iron cores have to be removed by a separate device or by hand.

Further, the conventional coil cutting separator does not directly separate the coils from the transformer, but rather separates the transformer and the iron core by a separate device or a manual operation, and then separates the coils from the separated core. And thus the operation cost is increased.

The present invention is to solve the above problems, an object of the present invention is to easily remove the coil embedded in the iron core because the core is separated from the iron core by the hydraulic tong unit after cutting the core core by the core cutting unit It is possible to directly remove the coil of the transformer by the coil cutting unit to eliminate the need to separate the transformer and the core core to provide a coil separating device of the transformer that can reduce the cost accordingly.

According to another aspect of the present invention, there is provided a power supply apparatus for a transformer, comprising: a main frame on which a work table is formed; a support frame mounted on a work table of the main frame; And a hydraulic clamping unit for removing the coils remaining in the core cut by the core cutting unit. The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description when read in connection with the accompanying drawings.

The fixing unit includes a pair of rotary members rotatably mounted on the work table, a support member fixed in the horizontal direction on the side of the rotary members, A fixing member that is slidably mounted, and an elastic member that is installed in each of the supporting members and pushes the fixing member to the outside of the supporting member.

The core cutting unit may include an elevating member provided on the support frame and a core cutting member provided on a lower end of the elevating member and moved up and down according to the elevation of the elevating member.

The hydraulic grip unit may include a first hydraulic cylinder installed in the support frame, a second hydraulic cylinder installed at an end of the driving shaft of the first hydraulic cylinder, and a second hydraulic cylinder installed to be rotatable on both sides of the lower end of the second hydraulic cylinder And a pair of grippers which are rotatably mounted on the end portions of the drive shaft of the second hydraulic cylinder and one region of which is pivotally coupled to the respective link links.

In addition, the hydraulic tongs unit is installed in parallel on the support frame and a pair of fourth hydraulic cylinder which is operated in the horizontal direction, and installed in each of the fourth hydraulic cylinder is horizontally moved in accordance with the operation of the fourth hydraulic cylinder A pair of fifth hydraulic cylinders installed at an upper side of the table and the fourth hydraulic cylinders, the upper end of the fourth hydraulic cylinders being rotatable to the support frame, and connected to the drive shaft ends of the fifth hydraulic cylinders in a link form, According to the operation of the fifth hydraulic cylinder may be lifted to include a tongs for removing the transformer coil.

In addition, the support frame may further include a coil cutting unit for cutting the coil of the transformer placed on the worktable to be lifted, and the separation prevention unit is installed on the worktable to prevent the separation of the transformer.

The coil cutting unit includes a third hydraulic cylinder mounted on the support frame, a coil cutting member provided on an end of the drive shaft of the third hydraulic cylinder, and a coil cutting member provided on a drive shaft end of the third hydraulic cylinder, And a gap adjusting member for adjusting a gap between the coil cutting member and the coil drawing member.

In addition, the departure prevention unit may include a holding rod that is fixed vertically on the work table, and is installed in the horizontal direction on the side of the holding rod, the separation preventing rod is installed so as to be located on the top of the transformer.

In this way, since the core is cut by the core cutting unit and the coil is separated from the core by the hydraulic tong unit, the coil embedded in the core can be easily removed, and the coil of the transformer can be directly removed by the coil cutting unit. This eliminates the need to separate transformer and core cores, thereby reducing costs.

1 is a perspective view of a coil separating apparatus of a transformer according to a first embodiment of the present invention.
2 is a front view of the coil separating apparatus of the transformer according to the first embodiment of the present invention.
3 is a side view of the coil separating apparatus of the transformer according to the first embodiment of the present invention.
4 to 7 is an operation of the coil separating apparatus of the transformer according to the present invention in the first embodiment.
8 is a front view of the coil separating apparatus of the transformer according to the second embodiment of the present invention.
9 is a rear view of the coil separating apparatus of the transformer according to the second embodiment of the present invention.
10 is a side view of the coil separating apparatus of the transformer according to the second embodiment of the present invention.
11 and 12 are operation diagrams of the coil separating apparatus of the transformer according to the second embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

≪ Embodiment 1 >

1 to 3, the apparatus for separating coils of a transformer according to the first embodiment of the present invention includes a main frame 100 on which a work table 110 is formed, A fixing unit 200 installed on the work table 110 to fix the transformer core and a fixed unit 200 mounted on the support frame 120 so as to be able to move up and down, A core cutting unit 300 for cutting the transformer core fixed by the core cutting unit 300 and a hydraulic clamp unit 400 for removing the coils remaining on the core cut by the core cutting unit 300.

First, the main frame 100 is a desk-shaped member, and a flat work table 110 is provided on the top. The support plate 120 is a member on which various components of the present invention are installed, and is installed on the upper portion of the work table 100, but its shape is not particularly limited.

The fixed unit 200 includes a pair of rotary members 210 rotatably mounted on the work table 110 and a support member 220 fixedly installed in the horizontal direction on the sides of the rotary members 210, A fixing member 230 installed to be slidable in the horizontal direction on the end of each supporting member 220 and a fixing member 230 installed inside each supporting member 220 to fix the fixing member 230 to the supporting member 220 And includes an elastic member for pushing it outward.

The rotary member 210 is a hollow cylindrical member and is fitted to a pair of fixing shafts 250 vertically installed on the upper portion of the work table 110, respectively. At this time, the inner hollow of the rotating member 210 is formed to be longer than the diameter of the fixed shaft 250 by a predetermined length, so that the rotating member 210 is rotatable.

The supporting member 220 is also a hollow cylindrical member and is formed so as to extend in the horizontal direction on the side surface of the rotary member 210.

The fixing member 230 is a rod having a diameter corresponding to the inner hollow of the supporting member 220, and is installed to be inserted into the hollow of the supporting member 220 and is slid in the horizontal direction. At this time, an elastic member 240 is installed inside the support member 220 to push the fixing member 230 in the outer direction of the support member 220.

Although the rotary member 210, the support member 220, and the fixing member 230 are formed in the shape of a cylinder in this embodiment, the shape of the rotary member 210 is not particularly limited as long as the function of each component can be exhibited properly.

The core cutting unit 300 includes an elevating member 310 installed on the support frame 120 and a core cutting member 300 installed on the lower end of the elevating member 310 and moving up and down along with the elevation of the elevating member 310. [ (320).

The elevating member 310 is a generally used hydraulic cylinder, and the cylinder body is fixed to the support frame 120. At this time, the drive shaft of the hydraulic cylinder is installed so as to face downward.

The core cutting member 320 is a general cutting cutter, and is installed so that the cutting edge is directed downward at the end portion of the drive shaft of the lifting member 310. At this time, the core cutting member 320 is fixed to a mounting table fixed to an end portion of the driving shaft of the elevating member 310. The mounting base 330 is a rectangular plate and is installed on both sides of the fixing shaft 250. The mounting base 330 is guided and raised by the fixing shaft 250 when the elevating member 310 is lifted or lowered.

On the other hand, the hydraulic grip unit 400 includes a first hydraulic cylinder 410, a second hydraulic cylinder 420, a connecting link 430 and a clamp 440.

The first hydraulic cylinder 410 is installed such that the cylinder body is fixed to the support frame 120 and the drive shaft of the hydraulic cylinder faces downward.

The cylinder body of the second hydraulic cylinder 420 is installed at the end of the drive shaft of the first hydraulic cylinder 410.

The connection link 430 is rotatably installed on both sides of the cylinder body end of the second hydraulic cylinder 420 and the clamp 440 is rotatably installed on both sides of the drive shaft end of the second hydraulic cylinder 420, And is rotatably coupled to each connecting link 430. [

The vertical position of the clamp 440 is determined according to the driving of the first hydraulic cylinder 410 and the clamp 440 is opened or closed according to the driving of the second hydraulic cylinder 420 .

The coil separator of the transformer according to the present invention includes a coil cutting unit 500 installed on the support frame 120 to cut the coil of the transformer placed on the work table 110, And a deviation preventing unit 600 installed on the transformer to prevent the transformer from coming off.

The coil cutting unit 500 includes a third hydraulic cylinder 510 installed in the support frame 120, a coil cutting member 520 installed at the end of the drive shaft of the third hydraulic cylinder 510, a third hydraulic cylinder A coil withdrawing member 530 disposed at an end of the driving shaft of the coil cutting member 520 and spaced apart from the coil cutting member 520 by a predetermined distance, Member 540.

The third hydraulic cylinder 510 is installed such that the cylinder body is fixed to the support frame 120 and the drive shaft of the hydraulic cylinder faces downward.

The gap adjusting member 540 is provided on the end of the driving shaft of the third hydraulic cylinder 510 as a bi-directional screw rod 542 installed horizontally, And a coil drawing member 530 are respectively installed. That is, when the handle 541 of the gap adjusting member 540 is rotated, the coil cutting member 520 and the coil drawing member 530 are moved away from each other or close to each other.

The coil cutting member 520 is a cutter having a sharpened lower portion, and a cutting edge is formed at the lower end. The coil withdrawing member 530 is formed to be symmetrical with the coil cutting member 520, and no cutting edge is formed at the lower end.

The coil cutting member 500 is lifted and lowered by the operation of the third hydraulic cylinder 510 and the coil cutting member 520 and the coil drawing member 530 are moved up and down according to the gap adjusting member 540, And the coil draw-out member 530 are adjusted.

The detachment prevention unit 600 includes a fixing table 610 vertically fixed on the work table 110 and a separation preventing bar 620 horizontally installed on the side of the fixing table 610.

The fixing stand 610 is formed higher than the height of the transformer, and the escape prevention pedestal 620 is installed to be positioned on the top of the transformer to prevent the transformer from rising to the top.

Hereinafter, the operation of the coil separator of the transformer according to the first embodiment of the present invention will be described in detail with reference to FIGS.

First, referring to Figs. 4 to 6, the operation of separating the coils from the core 10 will be described first.

The rotating member 210 of the fixed unit 200 is rotated in the direction of arrow A in Fig. 4 and then rotated back to the current position of Fig. 4 when the core 10 is positioned as shown in Fig. At this time, the fixing member 230 enters the inside of the supporting member 220, and the core 10 is positioned between the fixing members 230. When the operator does not apply the force to the fixing member 230, the elastic member 240 moves the fixing member 230 in the direction of arrow B in FIG. 4 by the elastic member 240, Since it always pushes to the outside of the body 220. The core 10 is firmly fixed to the fixing member 230 by the elastic force of the elastic member 240.

5, when the core 10 is fixed by the fixing unit 200 as described above, the elevating member 310 of the core cutting unit 300 is operated and is raised and lowered in the direction of arrow C in FIG. 5 . The core cutting member 320 provided at the end portion of the driving shaft is lowered by the operation of the lifting member 310 and the core 10 fixed by the fixing unit 200 is cut by the core cutting member 320 do.

The core 10 thus cut is fixed to the vise 140 provided at the lower portion of the hydraulic clamp unit 400 by the operator.

Thereafter, when the first hydraulic cylinder 410 of the hydraulic clamp unit 400 is operated, the second hydraulic cylinder 420 is raised and lowered in the direction of arrow D in Fig. The second hydraulic cylinder 420 is operated when the tongue 440 is positioned near the core 10 fixed to the vise 140 according to the operation of the first hydraulic cylinder 410. [ As the second hydraulic cylinder 420 is lifted in the direction of arrow E in Fig. 6, the tongue 440 is moved in the direction of arrow F in Fig. In other words. When the drive shaft of the second hydraulic cylinder 420 descends downward, the tongue 440 is opened, and when the drive shaft is moved upward, the tongs 440 are tightened.

Since the hydraulic clamp unit 400 operated as described above removes the coil embedded in the cut core by the hydraulic grip rather than the attraction force, it is possible to remove the coil embedded in the core more easily and safely.

Meanwhile, an operation of separating the coil 210 from the transformer 20 will be described with reference to FIG. 7.

First, the transformer 20 is seated on the jig 150, but is seated so as to be positioned below the departure stop 620 of the departure prevention unit 600.

Thereafter, the handle 541 of the gap adjusting member 540 of the coil cutting unit 500 is rotated, so that the gap between the coil cutting member 520 and the coil drawing member 530 becomes the coil 21 of the transformer 20. The coil cutting member 520 and the coil extracting member 530 are moved in the direction of arrow I of FIG. 7.

When the distance between the coil cutting member 520 and the coil drawing member 530 is adjusted as described above, in accordance with the operation of the third hydraulic cylinder 510, the coil cutting member 520 and the coil- (530).

That is, the driving shaft is lowered according to the operation of the third hydraulic cylinder 510, and accordingly the coil cutting member 520 is lowered to cut the coil 21 of the transformer 20.

At the same time, the coil lead-out member 530 is also lowered so that the cut coil 21 is drawn out of the transformer 20.

Thereafter, when the driving shaft of the third hydraulic cylinder 510 is raised, the coil 21 is fitted into the coil cutting member 520 and the coil drawing member 530, and the transformer 20 is raised accordingly. Blocked by the departure stop 620 of 600, the transformer 20 is seated on the top of the jig 150 in the coil 21 is drawn out.

Second Embodiment

Hereinafter, a coil separator of a transformer according to a second embodiment of the present invention will be described in detail with reference to FIGS.

Before describing the present embodiment, the same components as those of the first embodiment are denoted by the same reference numerals, and a description thereof will be omitted.

Since the fixed unit 200, the core cutting unit 300, the coil cutting unit 500, and the departure prevention unit 600 according to the second embodiment of the present invention have the same configurations as those of the first embodiment, description thereof is omitted in this embodiment And only the hydraulic grip unit 700, which is a main feature of the present embodiment, will be described in detail.

Here, the main frame 100 and the support frame 120 are changed in shape from the first embodiment, which includes a fixed unit 200, a core cutting unit 300, a coil cutting unit 500, ) Is changed only when the installation position of the device is changed.

The hydraulic grip unit 700 of the second embodiment of the present invention includes a pair of fourth hydraulic cylinders 710 installed in parallel on the support frame 120 and operated in the horizontal direction, And a table that is installed on the upper side of the fourth hydraulic cylinder 710 and has an upper end rotatably mounted on the support frame 120, 5 hydraulic cylinder 720 and a clamp 730 connected in link form to the drive shaft end of each fifth hydraulic cylinder 720 and lifted and lowered according to the operation of the fifth hydraulic cylinder 720 to remove the transformer coil 720 .

In the fourth hydraulic cylinder 710, the end of the drive shaft is rotatably mounted to the support frame 120. The fourth hydraulic cylinders 710 are spaced apart from each other by a predetermined distance in the horizontal direction, and are moved away from or closer to each other according to the operation of the fourth hydraulic cylinders 710.

The table is a plate installed on the upper side of each fourth hydraulic cylinder 710 and is moved in the horizontal direction according to the operation of the fourth hydraulic cylinder 710. [

The fifth hydraulic cylinder 720 is installed on the upper side of each fourth hydraulic cylinder 710. At this time, the upper end of the fifth hydraulic cylinder 720 is rotatably installed on the support frame 120, and the clamp 730 is linked to the lower end of the drive shaft.

Guide plates 740 having guide grooves 741 are formed on both sides of the clamp 730 and protrusions protruding from both sides of the clamp 730 are inserted into the guide grooves 741. The guide plate 740 guides the movement path of the clamp 730 and the guide groove 741 is formed in the same shape as the movement path of the clamp 730.

Hereinafter, the operation of the coil separator of the transformer according to the second embodiment of the present invention will be described in detail with reference to FIGS.

Since the fixed unit 200, the core cutting unit 300, the coil cutting unit 500, and the departure prevention unit 600 of this embodiment are identical to those of the first embodiment, their description will be omitted.

11 is a view showing that the fourth hydraulic cylinder 710 is operated so that the width between the tables is narrower than the width of the transformer core 10, and then the transformer core 10 is seated on the top of the table.

When the transformer core 10 is mounted on the table as described above, the fifth hydraulic cylinder 720 is operated to move the clamp 730 downward, as shown in FIG.

In this process, the clamp 730 is caught by the coil of the transformer core 10, and the clamp 730 is moved down while holding the coil to separate the transformer core 10 and the coil.

The coil separating apparatus of the transformer according to the first and second embodiments of the present invention configured and operated as described above may cut the iron core core by the core cutting unit 300 and then coil the coil from the iron core by the hydraulic tong unit 400. Since it is possible to easily remove the coil embedded in the iron core, the coil of the transformer can be removed directly by the coil cutting unit 500 to eliminate the need to separate the transformer and the core core core costs There is a saving effect.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It will be understood that various changes and modifications may be made without departing from the scope of the present invention.

10: core 20: transformer
21: coil 100: main frame
110: work table 120: support frame
130: jig 140: vise
150: jig 200: fixed unit
210: rotating member 220: supporting member
230: fixing member 240: elastic member
250: fixed shaft 300: core cutting unit
310: lifting member 320: core cutting member
330: Cradle 400: Hydraulic clamping unit
410: first hydraulic cylinder 420: second hydraulic cylinder
430: connection link 440: tongs
500: coil cutting unit 510: third hydraulic cylinder
520: coil cutting member 530: coil drawing member
540: Spacing member 541: Handle
542: bi-directional screw rod 600: separation prevention unit
610: fixed base 620:
700: hydraulic clamp unit 710: fourth hydraulic cylinder
720: fifth hydraulic cylinder 730: tongs
740: guide plate 741: guide groove

Claims (8)

A main frame in which a work table is formed;
A support frame installed above the work table of the main frame;
A fixing unit installed on the work table and fixing the transformer core;
A core cutting unit installed on the support frame so as to be movable up and down to cut the transformer core fixed by the fixed unit;
And a hydraulic tong unit for removing the coil remaining in the core cut by the core cutting unit. The method of claim 1,
The fixed unit includes:
A pair of rotary members rotatably mounted on the work table;
A support member fixed in a horizontal direction on a side surface of each of the rotary members;
A fixing member slidably mounted on an end of each of the support members in a horizontal direction;
The coil separating device of the transformer comprising an elastic member installed inside each of the supporting members to push the fixing member to the outside of the supporting member. The method of claim 1,
The core cutting unit includes:
An elevating member provided on the support frame;
The coil separating device of the transformer including a core cutting member which is installed in the lower end of the elevating member and moved up and down in accordance with the elevating of the elevating member. The method of claim 1,
The hydraulic power unit includes:
A first hydraulic cylinder installed in the support frame;
A second hydraulic cylinder installed at an end of the driving shaft of the first hydraulic cylinder;
A connecting link rotatably installed on both sides of the lower end of the second hydraulic cylinder;
The coil separating apparatus of the transformer is provided to be rotatable at the end of the drive shaft of the second hydraulic cylinder, a pair of tongs are coupled to each of the connection linkage so as to rotate. The method of claim 1,
The hydraulic power unit includes:
A pair of fourth hydraulic cylinders installed parallel to the support frame and operated in the horizontal direction;
A table installed on each of the fourth hydraulic cylinders and horizontally moved according to the operation of the fourth hydraulic cylinder;
A pair of fifth hydraulic cylinders installed on the upper side of the fourth hydraulic cylinder and having an upper end rotatably mounted on the support frame;
Is connected to the drive shaft end of each of the fifth hydraulic cylinder in the form of a link, the coil separating apparatus of the transformer comprising a tong is lifted according to the operation of the fifth hydraulic cylinder to remove the transformer coil. The method of claim 1,
A coil cutting unit installed on the support frame to be liftable to cut a coil of a transformer placed on a worktable;
And a separation preventing unit installed on the work table to prevent the separation of the transformer. The method according to claim 6,
The coil cutting unit,
A third hydraulic cylinder installed on the support frame;
A coil cutting member installed at an end of a drive shaft of the third hydraulic cylinder;
A coil drawing member installed at an end portion of the driving shaft of the third hydraulic cylinder, the coil drawing member being spaced apart from the coil cutting member by a predetermined interval;
The coil separating device of the transformer comprising a gap adjusting member for adjusting the gap between the coil cutting member and the coil extraction member. The method according to claim 6,
The departure prevention unit,
A fixing table vertically fixed on the work table;
Is installed in the horizontal direction on the side of the stator, the coil separating apparatus of the transformer comprising a departure preventing unit is installed to be located on the top of the transformer.

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