KR20150053464A - Wire molding apparatus for filter net - Google Patents

Abstract

The present invention relates to a wire molding apparatus for a filter net to mold the wire of a filter net tightly wound on an outer circumference of the filter element of an oil filter, comprising: a frame (10) wherein an intermediate table (11) and a lower table (12) are installed at a distance; a spool mount (20) having a spool shaft (22) installed in a support (21) installed in the lower table (12) to be rotated; a driving device (30), wherein first and second driven rotators (35, 38) are separately installed in the lower table (12); a molding device part (40) wherein a first rotation shaft (47) receives power from the first driven rotator (35), or a driving motor (31) and a second rotary shaft (48) receives power from the second driven rotator (38) to be rotated; a wire guide device part (50) wherein an upper guide (52) to guide an inflow of a steel wire (9) into a space between first and second molding rollers (43, 44), and a lower guide (55) to guide a discharge of a filter net wire (5) installed in a vertical direction; and a steel wire guide roller (70) to guide the inflow of the steel wire (9) into a steel wire insertion part (53).

Description

[0001] The present invention relates to a wire netting apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter net wire forming apparatus for forming a filter net wire wound tightly around the outer periphery of a filter element of an oil filter and more particularly to a filter net wire forming apparatus for forming a filter net wire forming apparatus, The first and second forming rollers for forming a pair of first and second rotors at right angles to form a steel wire having a circular cross section into a flat band shape are disposed in a conical shape A plurality of forming grooves are formed at a predetermined angle on the conical surface of the one shaping roller and the conical surfaces of the first and second shaping rollers are rotated in a corresponding state so that a cross section passing between the first and second shaping rollers As the circular steel wire is flattened into a band shape, protruding walls are formed on one side surface of the band portion so as to be formed at regular intervals. Depending on the position through which the steel wire passes, When the rolled out into a coil spring shape, it is to be increased or decreased so that the diameter of the coil.

The conventional notch wire forming machine for oil filter is patented and registered in the Korean Patent No. 10-581723.

In the case of the above-described conventional invention, there is a common point that the filter net wire (conventionally referred to as a notch wire) which is tightly wound around the outer periphery of the filter element of the oil filter as in the present invention has a common point. The configuration is completely different.

That is, a pair of forming rollers to be the main part of the conventional invention is formed in a flat cylindrical shape, a notch groove is formed in the circumferential direction on the outer peripheral surface of the one forming roller, a notch groove formed in the circumferential direction on the other forming roller, And a plurality of notch grooves intersecting in a direction perpendicular to the notch grooves are formed.

Therefore, the notch wire formed by the conventional invention comes out while being dried in the form of a coil spring, but the diameter of the coil part formed in a coil spring shape is uniformly formed.

When the diameter of the coil part formed while the notch wire is dried in the form of a coil spring is uniformly formed, the radius of curvature of the part where the notch wire is rounded (arc) and the radius of curvature of the notch wire When the outer diameter of the element is significantly different, when the notch wire of 0.1 to 0.3 mm is tightly wound around the outer periphery of the filter element, there is a problem that the strength of the notch wire is weakened.

11 shows an oil filter 1 in which a notch wire (referred to as a filter net wire 5 in the present invention) is wound around the filter element 2. This oil filter 1 has a plurality of discharge The upper and lower covers 3 and 4 that are coupled to the upper and lower portions of the filter element 2 and the filter elements 2 and 3 between the upper and lower covers 3 and 4, And a filter net wire 5 wound tightly around the outer periphery.

A support groove 3a is formed at the center of the upper portion of the upper cover 3 to support the center of the filter element 2 to be rotated when the filter wire 5 is wound around the outer periphery of the filter element 2 And the lower cover 4 is provided with an inflow hole 4a through which the fluid is introduced into the filter element 2.

The filter net wire 5 has a protruding wall 7 protruding from one side of a band portion 6 which is flatly formed in a band shape and protruding at regular intervals and the filter net wire 5 is connected to the filter element 2 The filtered liquid 8 is formed between the upper and lower band portions 6 and the adjacent protruding wall 7, as shown in FIG.

In this situation, for example, the notch wire formed by the conventional invention has a diameter d of 30 mm, in which the notch wire is wound in the form of a coil spring, and the diameter of the filter element 2 When the outer diameter of the coil is 80 mm, when the notch wire having a small diameter of 30 mm and a small curvature is tightly wound around the filter element 2 having an outer diameter of 80 mm and a large curvature, It becomes a bent shape, so that the bent part becomes weak.

When the fluid is injected into the oil filter manufactured in such a state at high pressure and the process of catching the foreign matter is repeated for a long period of time, the fragile portion is damaged due to winding to a large diameter portion.

No. 10-581723 (entitled "Notch Wire Forming Machine for Oil Filters")

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a pair of first and second rotators formed in a tailstock shape installed on a lathe, The first and second shaping rollers are formed in a conical shape like a tailstock center provided at the tip end portion of the manifold, and a plurality of shaping grooves are formed at a predetermined angle on the conical surface of one shaping roller, The steel wire having a circular cross section passing between the first and second shaping rollers is flattened in a band shape so that protruding walls are formed at regular intervals on one side surface of the band portion, The wire is formed and the diameter of the coil can be made larger or smaller when the filter wire is rolled in the form of a coil spring depending on the position through which the steel wire passes It is a technical task.

According to an aspect of the present invention, there is provided an image forming apparatus including: a frame having an intermediate table and a lower table spaced apart from each other;

A spool mounting base on which a spool shaft on which a spool on which a steel wire is wound is removably installed, is rotatably installed on a support table provided on a lower table;

A first type bogie assembly in which a sprocket and a bevel gear are respectively installed to rotate by receiving the power of a driving motor installed on a lower table and a bevel gear which is engaged with a bevel gear of the first bogie assembly and a sprocket A drive device in which the whole two-way assembly is installed on a lower table;

A pair of shaft housings are disposed on the intermediate table such that the shaft housings are arranged in a 90 degree direction, and both shaft housings are rotatably installed with first and second conical first and second conical rollers at the front end and sprockets respectively installed at the rear end, , The first and second shaping rollers are provided so that the inclined surfaces of the first and second shaping rollers face each other with the steel wire therebetween, and a plurality of molding grooves are formed at a predetermined angle around the inclined surface of the second shaping roller, A molding device unit that receives power from the driving motor and receives the power from the second rotating shaft and rotates the second rotating shaft;

An upper guide guiding the inflow of the steel wire between the first and second forming rollers is provided on the upper and lower portions of the guide mounting base, And a lower guide for guiding the discharge of the filter net wire formed by the filter guide wire is vertically installed;

And a steel wire guiding roller provided at a predetermined position of the frame and guiding the inflow of a steel wire introduced into the steel wire insertion portion of the upper guide from the spool.

The first and second shaping rollers for shaping the filter mesh wire are formed in a conical shape so that the filter net wire formed by passing through between the first and second shaping rollers, The diameter of the nose portion that comes out while being dried in the form of a coil spring can be adjusted to be large or small.

When the diameter of the coil part is adjusted as described above, the diameter of the coil part is formed to a size corresponding to the diameter of the filter element, and then the filter wire having such a curvature is closely wound around the filter element. The strength of the filter net wire is not lowered.

1 is a front view showing the present invention.
2 is a sectional view taken along the line AA in Fig.
3 is a sectional view taken along line BB of Fig.
Fig. 4 is a front view showing a wire forming apparatus, which is a main part of the present invention; Fig.
Fig. 5 is a view showing a wire-forming apparatus part which is a main part of the present invention, viewed from the "C"direction;
6 is an enlarged side view of a portion "D" in Figs. 1 and 2. Fig.
7 is an enlarged plan view of the portion "D" in Figs. 1 and 2. Fig.
8 is a perspective view showing an upper guide installed in the present invention;
9 is an enlarged plan view of the first and second forming rollers installed in the present invention.
10 is a sectional view taken along the line EE of Fig.
11 is a view showing an oil filter manufactured using a filter net wire formed by the present invention.

Hereinafter, a filter wire forming apparatus according to the present invention will be described with reference to FIGS. 1 to 11. FIG.

The present invention is a filter net wire forming apparatus 100 for forming a filter net wire 5 wound around a filter element 2 to constitute an oil filter 1 as shown in Fig. The filter net wire 5 formed by the filter net 100 has a protruding wall 7 protruding at a predetermined interval on one side of a band portion 6 which is flatly formed into a band- The filter holes 8 are formed between the upper and lower band portions 6 and the adjacent projecting walls 7 so as to allow the filtered liquid to flow out when the filter element 2 is tightly wound around the outer peripheral surface of the filter element 2.

1, the filter net wire forming apparatus 100 according to the present invention includes an intermediate table 11 and a lower table 12 at the middle and lower portions of a frame 10 formed in a frame shape, And are installed at intervals.

A spool mounting table 20 in which a spool 23 wound with a steel wire 9 as a material to be molded of the filter net wire 5 is detachably installed is provided in the lower table 12 of the frame 10, The spool mounting base 20 includes a spool shaft 22 on which a spool 23 is detachably fitted to a pair of supports 21 provided on the bottom of the lower table 12, Are installed in the horizontal direction.

The drive unit 30 is provided with a drive motor 31 on the lower table 12 and a pair of first and second workpieces 35 on the bottom of the lower table 12 on one side of the drive motor 31 , 38 are installed.

At this time, sprockets 33 and 36 are provided on the rear side of the first and second sorting assemblies 35 and 38, bevel gears 34 and 37 are provided on the front side, To the sprocket 33 of the first-order bobbin assembly 35 and the power of the first bobbin assembly 35 is transmitted to the second bobbin assembly 38 by the bevel gears 34, 37 engaged with each other Respectively.

A molding apparatus for molding a steel wire 9 that is released from the spool 23 by the power wire from the lower drive unit 30 and is rotated by the filter net wire 5 is provided in the intermediate table 11 of the frame 10, (40) is provided.

As shown in FIGS. 1 and 2 and FIGS. 4 and 9, the molding apparatus unit 40 is provided with a pair of shaft housings 41 and 42 arranged in the direction of 90 degrees on the intermediate table 11, First and second rotary shafts 47 and 48 provided with first and second conical first and second forming rollers 43 and 44 at the tip end and sprockets 45 and 46 respectively at the rear end are rotatably mounted on the first and second rotary shafts 41 and 42.

At this time, the inclined surfaces of the first and second forming rollers 43 and 44 are provided to face each other with the steel wire 9 interposed therebetween. A plurality of molding grooves 49 are formed in the front surface of the inclined surface of the second forming roller 44 And is formed at a constant angle.

The first rotary shaft 47 is installed to receive power from the first driven rotor 35 or the drive motor 31 through the drive chain 66 and the second rotary shaft 48 is connected to the second rotary shaft 48, And is installed to rotate by receiving the power from the entire circuit assembly 38 through another chain 66a.

The shaft housings 41 and 42 have elongated holes 41b and 42b formed in the flange portions 41a and 42b provided on the bottom surface of the intermediate table 11 and the fixing bolts 41c and 42c, Fixing bolts 41c and 42c are fastened to the first and second shaft housings 41 and 42 and the shaft housings 41 and 42 are individually pushed to the intermediate table 11 on one side of the shaft housings 41 and 42, And a regulator 64 for fine adjustment of the interval between the two forming rollers 43 and 44 are provided.

The adjustment bolt 65 penetrates through the adjuster 64 and the tip of the through bolt 65 is connected to one side of the shaft housings 41 and 42 so that the shaft housings 41 and 42, Respectively. The combined body of the portion on which the first rotating shaft 47 is provided is called the first rotating body 47a and the combined body of the portion where the second rotating shaft 48 is provided is called the second rotating body 48a.

1 and 4, the first and second forming rollers 43 and 44 included in the molding apparatus unit 40 are provided with upper and lower guides 52 and 55, A teeth portion 50 is provided.

This wire guide device portion 50 has a guide mounting base (not shown) on the rear intermediate table 11 where the first shaping roller 43 and the second shaping roller 44 meet as shown in Figs. 1, 2 and 4-8 An upper guide 52 for guiding the inflow of the steel wire 9 into between the first and second forming rollers 43 and 44 is provided on the upper and lower portions of the guide mounting base 51, And a lower guide 55 for guiding the discharge of the filter net wire 5 that is formed by passing through the gap between the filter net wires 43 and 44 is vertically installed.

The upper guide 52 is guided by the elongated hole 57 of the upper guide mounting hole 56 vertically installed on the guide mounting base 51. The upper guide 52 has a lower end sharpened, A taper hole 53a and a steel wire guide hole 54 are connected from the steel wire inserting portion 53 to the pointed lower end and the upper guide 52 is formed on one side of the upper guide inserting hole 56, And an upper guide moving means for moving the upper guide 52 forward and backward is provided at the distal end portion of the upper guide mounting opening 56. [

The upper guide moving means is provided with a bracket 60 at the tip end of the upper guide mounting hole 56. The bracket 60 is provided with a handle 58 on the adjustment bolt 59 provided at the upper guide 52, And a fixing bolt 57a is fastened to the rear of the upper guide 52 through a slot 57 formed in the upper guide mounting hole 56 to unfasten the fixing bolt 57a, The upper guide 52 can be moved in the direction in which the handle 58 is rotated as shown by the arrows shown in Fig.

The lower guide 55 is vertically sharp and has an elongated hole 63 in a vertical direction at its lower portion. The lower guide 55 is vertically installed at a lower portion of the guide mounting base 51, The lower guide 55 is installed at a position where the elongated hole 63 of the lower guide 55 meets the elongated hole 61 of the lower guide mounting hole 62 and the bolt is inserted through the bolt. So that it is possible to adjust the position in the vertical direction and the back and forth direction.

A steel wire guiding roller 70 for guiding a steel wire 9 released from the spool 23 is provided at a predetermined position of the frame 10 as shown in Figs. 1 and 6 and 7, And a control box 69 for supplying lubricating oil between the first and second forming rollers 43 and 44 is provided on the other side of the frame 10 to guide the inflow of the oil into the steel wire inserting portion 53 of the frame 10, And a cylinder 68 is installed.

The first and second forming rollers 43 and 44 for blowing air between the first and second forming rollers 43 and 44 to form the steel wire 9 are formed on the opposite side of the oil hose 67, And an air hose is provided to prevent foreign matter from flowing through the filter wire net forming apparatus 100. In the molding apparatus unit 40 in which the first and second forming rollers 43 and 44 are provided in front of the filter net wire forming apparatus 100, (Not shown) for receiving a filter net wire 5 which is wound in the form of a filter net wire is further provided and used.

The operational relationship of the present invention constructed as described above will be described with reference to FIGS. 1 to 11. FIG.

First, as shown in FIGS. 10 and 11, the filter net wire 5 to be formed in the filter net wire forming apparatus 100 of the present invention is made of fine stainless steel wire (the applicant of the present invention has a diameter of 0.3 to 1.0 mm The diameter of the band-shaped portion 6 is larger than that of the band-shaped band-shaped band-shaped band-shaped portion 6, while the band-shaped band-shaped band-shaped portion 6 is protruded at regular intervals .

In order to form the filter net wire 5 with the steel wire 9 as the thin stainless steel wire as described above, the spool 23 wound with the steel wire 9 is inserted into the lower table 7 of the frame 10, The guide portion 20 is installed on the spool shaft 22 of the spool mounting portion 20 provided on the spool 23 so that the end of the steel wire 9 is released from the spool 23, 70a to be guided to the steel wire guide roller 70. [

As shown in Figs. 1, 8 and 9, 10, the leading end of the steel wire 9 guided in this way is inserted into the steel wire insertion portion 53, the taper hole 53a, and the steel wire guide hole 54 of the upper guide 52 And the end of the steel wire 9 passed downward between the first and second forming rollers 43 and 44 is inserted into the space between the first and second forming rollers 43 and 44, Move to the left or right.

The filter net wire 5 formed between the first and second shaping rollers 43 and 44 is wound in a leftward helical shape when the distal end of the steel wire 9 is lowered to the left side of the lower guide 55 And the distal ends of the steel wires 9 come down to the right of the lower guide 55. The filter net wires 5 formed between the first and second forming rollers 43 and 44 are moved in the rightward direction It is wound down in a spiral.

As described above, the filter net wire 5, which is formed between the first and second forming rollers 43 and 44, is rolled down in a spiral shape in the leftward or rightward direction because the sharp point on the upper side is shaped like an arc, When the filter net wire 5 descends in the left direction and comes into contact with the arc inclined portion on the left side, the filter net wire 5 is wound in a leftward helical shape. When the filter net wire 5 descends in the right direction, It will come out in a spiral shape in the right direction while hitting the part.

The steel wire 9 released from the spool 23 passes through the space between the first and second forming rollers 43 and 44 and passes through the steel wire 9 so as to descend to the left or right side of the lower guide 55, The control of the control box 69 provided on the upper side of the frame 10 is operated to set the speed and the air injection quantity of the drive motor 31 and then drive the drive motor 31 .

When the driving motor 31 is driven as described above, the driving force of the driving motor 31 is transmitted from the sprocket 32 provided on the driving motor 31 to the first driven machine body 35 The first bead gear 35 is rotated and the leading bevel gear 34 of the first bead bellow gear 35 is connected to the sprocket 33 of the second bead gear 34, The second sorting rotor 38 rotates in the direction opposite to the first sorting rotor 35 because the bevel gear 37 of the first sorting rotor 38 is engaged.

In this state, the two-end sprocket 32 provided on the drive motor 31 and the first rotating body (not shown) provided on the intermediate table 11 in the state in which the first- 47a and the drive chain 66 are connected to each other and the sprocket 36 of the second type rotor assembly 38 and the sprocket 45 of the second rotor 48a of the upper side are connected to another chain And the first and second rotating shafts 47 and 48 installed on the first and second rotating bodies 47a and 48a are rotated in opposite directions to each other.

As the first and second rotary shafts 47 and 48 rotate in opposite directions as described above, the first and second shaping rollers 43 and 44 provided at the front ends of the first and second rotary shafts 47 and 48 9 and 10, the first and second forming rollers 43 and 44 are inserted between the first and second forming rollers 43 and 44 while the steel wire 9 is inserted therebetween, The first and second forming rollers 43 and 44 rotate in opposite directions to each other because they are in tight contact with the steel wire 9.

In the process of pushing the steel wire 9 to the lower side between the first and second forming rollers 43 and 44, the steel wire 9 whose section is circular is flattened by a gap of the first and second forming rollers 43 and 44 The protrusion wall 7 is formed on one side of the band portion 6 corresponding to the molding groove 49 by the molding groove 49 formed in the second shaping roller 44 at the same time, The filter net wire 5 is molded and protruded in such a shape that the protruding wall 7 is formed on one side of the flat band portion 6 with an interval.

As described above, the filter net wire 5 formed in this way has a sharp top portion, a sharp portion of the filter net wire 5 coming into contact with a portion where the inclined portion is formed in an arcuate shape, As the filter net wire 5 is dried continuously, the filter net wire 5 is dried in a spiral manner and the filter net wire 5 is dried as a coil spring as the spiral is continuous.

1, lubricating oil is supplied from the oil hose 67 to the portion to be molded as shown in FIG. 1, so that a smooth operation is performed. On the other hand, the steel wire 9 9 is blown so as to prevent foreign matter from flowing into the molded part, the molding surface of the filter net wire 5 can be formed satisfactorily.

According to the present invention, the clearance between the first and second forming rollers 43 and 44 can be adjusted according to the thickness of the steel wire 9. As shown in FIGS. 1 and 2, the shaft housing 41 The adjusting bolts 65 provided on the adjuster 64 are turned after the fixing bolts 41c and 42c fastened to the flange portions 41a and 42a of the adjusting bolts 41 and 42 are loosened, The position of the shaft housings 41 and 42 is shifted and the adjustment bolts 65 are moved in and out to adjust the clearances of the first and second forming rollers 43 and 44 provided at the tip ends of the shaft housings 41 and 42 .

In addition, in the present invention, the coil part diameter d of the filter net wire 5, which is spirally dried through the first and second shaping rollers 43 and 44, As shown in FIGS. 6 and 7, when the fixing bolt 57a, which restrains the upper guide 52, is pulled out, the upper guide mounting hole 56 can be adjusted to the diameter of the filter element 2, The upper guide 52 moves back and forth as indicated by an arrow in the direction in which the handle 58 is rotated.

The upper guide 52 can be moved in accordance with the diameter d of the coil part to be formed by displaying the width of the upper guide 52 moving on the scale display part 58a, The fixing bolt 57a is tightened to complete the adjustment operation of the upper guide 52. [

When the upper guide 52 is moved to the desired position, the steel wire 9 is discharged through the steel wire guide hole 54 formed at the center of the upper guide 52 as shown in FIGS. 6, 8 and 9 The diameter of the first and second forming rollers 43 and 44 formed in a conical shape on the position line where the steel wire 9 is inserted is increased or decreased according to the position where the upper guide 52 is moved.

Therefore, when the forming operation is performed on the steel wire 9 in a state where the position of the steel wire 9 is located at a position where the diameters of the first forming roller 43 and the second forming roller 44 are large, A spiral shape is formed with a diameter corresponding to the diameter of the roller 43 and the second shaping roller 44.

1: Oil filter 2: Filter element 3: Upper cover
4: lower cover 5: filter net wire 6: band portion
7: protruding wall 8: filter ball 9: steel wire
10: Frame 11: Intermediate table 12: Lower table
20: spool mounting stand 21: support stand 22: spool shaft
23: spool 30: drive device 31: drive motor
32, 33, 36, 45, 46: sprocket 34: bevel gear
35: 1st Class Entire Entity 37: Bevel Gear 38: 2nd Entity Entity Entire Entity
40: molding apparatus section 41, 42: shaft housing 43: first forming roller
44: second forming roller 47: first rotating shaft 48: second rotating shaft
49: forming groove 50: wire guide element part 51: guide mounting part
52: upper guide 53: steel wire insertion portion 54: steel wire guide hole
55: lower guide 56: upper guide installation 57, 61, 63:
58: handle 59,65: adjusting bolt 60: bracket
62: lower guide mounting hole 64: regulator 66: drive chain
67: Oil hose 68: Oil trough 69: Control box
70: Steel wire guide roller 100: Filter wire wire forming device
d: Partial diameter of the nose

Claims (3)

A frame having an intermediate table and a lower table spaced therebetween;
A spool mounting base on which a spool shaft on which a spool on which a steel wire is wound is removably installed, is rotatably installed on a support table provided on a lower table;
A first type bogie assembly in which a sprocket and a bevel gear are respectively installed to rotate by receiving the power of a driving motor installed on a lower table and a bevel gear which is engaged with a bevel gear of the first bogie assembly and a sprocket A drive device in which the whole two-way assembly is installed on a lower table;
A pair of shaft housings are disposed on the intermediate table such that the shaft housings are arranged in a 90 degree direction, and both shaft housings are rotatably installed with first and second conical first and second conical rollers at the front end and sprockets respectively installed at the rear end, , The first and second shaping rollers are provided so that the inclined surfaces of the first and second shaping rollers face each other with the steel wire therebetween, and a plurality of molding grooves are formed at a predetermined angle around the inclined surface of the second shaping roller, A molding device unit that receives power from the driving motor and receives the power from the second rotating shaft and rotates the second rotating shaft;
An upper guide guiding the inflow of the steel wire between the first and second forming rollers is provided on the upper and lower portions of the guide mounting base, And a lower guide for guiding the discharge of the filter net wire formed by the filter guide wire is vertically installed;
And a steel wire guiding roller provided at a predetermined position of the frame for guiding the inflow of a steel wire introduced into the steel wire insertion portion of the upper guide from the spool. [2] The apparatus of claim 1, wherein the upper guide is formed to be guided in a slot of an upper guide mounting hole vertically installed on a guide mounting base, and has a lower end pointed and connected to a steel wire insertion hole and a steel wire guide hole And,
The upper guide is provided at one side thereof with a graduation indicating portion for indicating the movement position of the upper guide. A bracket is provided at the distal end of the upper guide mounting means. The handle is fastened to the adjusting bolt, Installed,
Wherein the lower guide includes a configuration in which the upper portion is sharp and the position adjustable in a slot of a lower guide mounting hole vertically installed in a lower portion of the guide mounting base. The motorcycle according to claim 1 or 2, wherein the shaft housing has a long hole formed in the flange portion, a fastening bolt fastened through the long hole,
Wherein the intermediate table is provided with a regulator fastened through the adjustment bolt so that the tip of the adjustment bolt pushes the shaft housing respectively to finely adjust the shaft housing.

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