KR20110093230A - Screw conveyer having separate screw wing for screw decanter centrifuges - Google Patents

Abstract

PURPOSE: A screw conveyor having separate screw wing for screw decanter centrifuges is provided to the assembly and repair facilitate. In order to constitute with a plurality of separate screw wing and it puts together in the screw herb to non-welding it constitutes. CONSTITUTION: A screw conveyor having separate screw wing for screw decanter centrifuges comprises a screw herb(1), a separation type screw wing(2), a bearing cap(3), and a front cap(4). The screw conveyor for the screw decanter type centrifuge having the separate screw wing. The screw herb is formed a screw groove. The screw wing is inserted in the screw groove. The screw wing holder clinching the screw wing is formed in the one-side end. It is installed in the backend of the screw herb and it shaves the decoupling-type screw flight and the bearing cap fixes and supports. It is installed in the shear of the screw herb and it shaves the decoupling-type screw flight and the front cap fixes and supports.

Description

Screw conveyer having separate screw wing for screw decanter centrifuges}

The present invention relates to a screw conveyor for a screw decanter type centrifuge having a detachable screw wing, and more particularly, to reduce wear caused on the surface of a blade when a sludge with strong friction is removed from a screw gun bearing used in a centrifugal dehydrator or a thickener. The present invention relates to a screw conveyor for a screw decanter type centrifuge having a structure that can be separated and configured to be worn as a separate type so as to be able to wear-resistant coating on the wing surface, and can be easily separated and replaced only when worn.

In general, a centrifugal dehydrator or thickener (hereinafter referred to as centrifugal dehydrator or thickener) is used to separate sludge supplied into water and solids through a sludge inlet pipe that supplies sludge from treatment processes such as sewage, manure, industrial wastewater, and livestock wastewater. The sludge supplied in the "centrifuge" is subjected to mechanical centrifugal force, and the sludge concentration of the solids is concentrated or dewatered at a predetermined ratio by the centrifugal force, and the sludge is concentrated or dewatered, and the concentrated and dewatered centrifuge is performed. Solid concentration and dehydration control of sludge discharged from the separator is achieved by changing the dam or skimmer in the rotational difference per minute between the screw conveyor and the external fluid corresponding to the sludge discharge rate or the depth of liquid inside the rotor.

According to the accompanying drawings, a conventional centrifuge structure will be described below.

Figure 6 is a block diagram showing a cross section of a conventional screw decanter centrifuge for dewatering and concentrating conventional sludge, Figure 7 is a perspective view of a conventional screw conveyor.

As shown in the figure, the sludge supplied through the sludge inlet tube 501 located on the right side has a discharge port 516 formed in the screw hub 509, which is a rotation shaft (shaft) of the inner movable screw conveyor 500. After being discharged through), it can be seen that it is configured to classify into supernatant (detachment or separation liquid), dehydrated cake and concentrate by centrifugal force.

The desorption liquid or separation liquid flows out by the desorption liquid or the separation liquid discharge port 511 by the rotation of the outer copper bowl 506 and the outer taper bowl 507, and is discharged by the desorption liquid or the separation liquid discharge port 502 through one casing. do.

In addition, the dewatering cake and the concentrate is dewatered or concentrated by the inner bowl 506 and the outer taper bowl 507 and the inner screw conveyor (500) rotates at a slow rotational speed with a rotary difference, the dewatered cake and the concentrate outlet 508 To the side. Then, the dewatered and concentrated sludge at the required water content and concentration is discharged by the discharge port 503 from the cake and the concentrated liquid discharged from the discharge port 508.

Rotational force of the outer bowl 506 and the outer taper bowl 507 is a rotation shaft and one side of the outer taper bowl 507 rotated by the drive pulley through the drive motor 513 and the drive pulley 510 installed on the right side The other end of the outer bowl 506 coupled with the outer tapered bowl 507 is rotated in conjunction with the bearing block (519, 520) is assembled to the large diameter shaft 515 and installed on the frame 505 and rotated Done. As a result, the introduced sludge is centrifuged to separate the desorption solution or the separation liquid, the dehydrated cake and the concentrate.

In addition, the rotational force of the screw conveyor 500 is transmitted through the differential motor 514 and the differential pulley through the screw hub 509 which is a shaft rotating by the differential pulley. The screw hub 509 is configured to rotate through the large diameter shaft 515 installed in the bearing block 519 to rotate inside the outer bowl 506 and the outer taper bowl 507. Accordingly, when the screw hub 509 rotates, the screw blades 512 formed around the dehydration cake and the concentrate are transferred in one direction.

In the figure, reference numeral 504 is a basic frame installed on the ground to support the load of the entire centrifuge to dehydrate, concentrate.

However, the conventional centrifugal separator has no problem in concentration or dehydration in the case of sludge of sewage, manure, industrial wastewater, or livestock wastewater, which are not grainy and hard, but have fine grains and high hardness. In the case of a solid of the sand type, there is a problem that the continuous operation of the centrifugal separator is difficult when the screw conveyor 500 is not easily changed due to the deterioration or dehydration efficiency of the screw conveyor 500.

That is, the screw conveyor 500 is composed of a screw blade 512 welded to the circumferential surface of the screw hub 509, the state of the screw blade 512 is important, if the screw blade is worn and damaged, there is a problem in the feed force Concentration or dehydration is reduced.

However, the conventional screw conveyor 500 has a structural problem that the repair is not easy even if wear occurs.

The reason is that the screw blade 512 is integrally welded around the screw hub 509, so that when the screw blade 512 is worn in a specific position, repair or replacement is required. This is because repair of conventional screw vanes 512 is structurally impossible.

In addition, the conventional screw conveyor may be different from the feed force in the intended design by changing the shape of the screw blade is processed to have a certain shape due to the welding heat generated during welding by welding the screw blade to the screw hub. There is a problem that the concentration or dehydration efficiency may drop.

For the above problems, the screw blades 512 may be coated to have abrasion resistance. The conventional screw conveyor 500 may not be structurally coated in which the screw blades 512 are integrally welded around the screw hub 509. Because.

That is, wear-resistant coatings are generally divided into wet and dry coatings. Dry coatings are generally applied to the surface of a cutting tool. Dry coating is usually classified as PVD hard coating method, which is limited in size because the work is done in the furnace under PVD (Physical Vapor Deposition) vacuum. Therefore, the whole screw can not be coated, only partially coated. However, the conventional screw conveyor 500 is because the screw blade 512 is integrally welded around the screw hub 509 can not be a structural coating.

In addition, since the surface layer of the coating surface is a few um or less, there is a problem that welding after coating is impossible. The reason is that the coating cannot be achieved because the coating melts during welding.

An object of the present invention for solving the above problems is to assemble the screw blade of the screw gun bayer used in the screw decanter centrifuge consisting of a plurality of separate screw blades to be assembled to the screw hub without welding And to provide a screw gun bearing easy to repair.

Another object of the present invention is to configure the screw blades of the screw gun conveyor used in the screw decanter centrifuge consisting of a plurality of separate screw wings coated with abrasion-resistant coating to be assembled to the screw hub without welding to increase the wear resistance Is to provide Gun Bay.

In the screw conveyor of the screw decanter centrifuge, the present invention, which achieves the object as described above and removes the drawbacks of the prior art, comprises: a screw hub having a screw groove; A plurality of separate screw blades fitted in the screw grooves and having a screw wing holder formed at one end thereof to fix the adjacent separate screw blades; A bearing cap installed at a rear end of the screw hub to support and support a removable screw blade; It is achieved by providing a screw conveyor for a screw decanter type centrifuge having a detachable screw wing, characterized in that it comprises a; front cap is installed in front of the screw hub to push and support the detachable screw blade.

In addition, the screw groove is characterized in that the continuous spiral groove processing at a pitch of a predetermined interval on the peripheral surface of the body of the screw hub.

In addition, the detachable screw blade is characterized in that each formed by a pitch of the screw groove.

In addition, the screw wing holder is characterized in that formed on the screw hub side.

In addition, the detachable screw blade is characterized in that the hard alloy coating.

In addition, the detachable screw blade is characterized in that the hard alloy coating at least at the end of the screw blade in a cemented carbide tip or thermal spray (溶 射, thermal spraying) state.

In addition, the bearing cap is fixed to the rear end of the screw hub and the bearing cap body has an outer diameter screw thread formed in the rear end; And a tightening nut having a locking jaw formed to push the detachable screw blade when the screw thread is formed and the inner screw thread portion coupled to the outer screw thread portion is cut in contact with the detachable screw blade.

As described above, the present invention has the advantage that the assembly of the screw gun of the screw gun to be used in the centrifuge is composed of a plurality of separate screw blades to be assembled to the screw hub by welding to facilitate assembly and repair,

Anti-wear coating of individual screw blades makes the screw blades wear less frequently when concentrated or dewatered by using sludge of coarse and hard particles of sewage, manure, industrial wastewater or livestock waste, especially alcoholic liquor or sand type sludge. It is possible to continuously operate the centrifuge by maintaining the concentration or dehydration efficiency continuously without changing the wings.

In addition, the screw conveyor is assembled to the screw hub with no welding, and the bearing cap and the front cap are pressed to withstand the feed torque applied to the screw, thus providing the desired feed force without deformation by welding.

In addition, by separately coating the screw blades of the screw conveyor separately, it is a useful invention having the advantage of being able to coat the titanium coating thickness of the screw blades with a desired thickness.

1 is a perspective view of a screw conveyor according to the present invention,
Figure 2 is a perspective view from the other side of the screw conveyor according to the present invention,
3 is an exploded perspective view of a screw conveyor according to the present invention,
Figure 4 is an exploded perspective view in the other direction of the screw conveyor according to the present invention,
5 is a cross-sectional view of the coupling of the screw conveyor according to the present invention,
Figure 6 is a block diagram showing a cross section of a conventional screw decanter centrifuge for dewatering and concentrating conventional sludge,
7 is a perspective view of a conventional general screw conveyor.

Hereinafter, the configuration and the operation of the embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view of a screw conveyor according to the invention, Figure 2 is a perspective view from the other side of the screw conveyor according to the invention, Figure 3 is an exploded perspective view of a screw conveyor according to the invention, Figure 4 is a present invention Figure 5 is an exploded perspective view of the screw conveyor in the other direction, Figure 5 is a cross-sectional view of the coupling of the screw conveyor according to the present invention.

As shown, the configuration of the present invention comprises a screw hub (1) formed with a screw groove (11); A plurality of separate screw blades (2) inserted into the screw grooves and formed with a screw wing holder (21) for fixing a neighboring separate screw blade (2) at one end thereof; A bearing cap (3) installed at the rear end of the screw hub (1) for pushing and supporting the detachable screw blade (2); It is installed at the front end of the screw hub (1) front cap (4) for pushing and supporting the removable screw blade (2); consists of.

The screw groove 11 formed in the screw hub 1 was continuously spiral grooved at a constant pitch on the circumferential surface of the screw hub body in order to secure the fitting position of the detachable screw blade 2. Therefore, the width of the screw groove may be formed such that the width of the lower portion of the screw blade fitted thereto is at least such that the width of the screw groove is inserted or rotated. However, if the width of the screw groove 11 is too large than the lower width of the screw blade, the play is large so that the play is difficult to assemble, or the mechanical performance and durability is deteriorated.

  The detachable screw blades 2 are separated by a pitch amount so that they can be fitted at any screw hub 1 position, and the neighboring detachable screw blades 2 are pushed by each other. Here, the individual shape of the separate screw blades 2 by one pitch amount is a screw shape rotated by one pitch amount corresponding to the helix of the screw groove 11 formed in the screw hub 1, as shown in one side. It can be seen that the end and the other end form a circle. That is, the separate screw blade 2 of such a shape is inserted into and fixed to the neighboring screw wing holder 21 when it is pushed into the screw groove 11 of the screw hub separately and then rotated to closely contact the neighboring screw wings. Will be.

In addition, the final pushing amount is tightened the screw of the bearing cap (3) coupled to the rear end of the screw hub (1), the other side of the blade wing holder 21 of the detachable screw wing (2) adjacent to the detachable screw wing (2) ) To be fixed. That is, by rotating and tightening the bearing cap 3 installed at the rear end of the screw hub 1, the detachable screw blades 2 rotate toward the front cap, and are further fixed by the front cap fixedly installed at the front end of the screw hub 1. If it is impossible to rotate abnormally tightly fixed to the screw blade holder 21 is fixed. At this time, the screw wing holder 21 may be processed into various shapes, but preferably, the screw wing holder 21 formed on both sides of the screw wing 2 so as to be clamped and fixed to both sides of the neighboring screw wing 2. It is sufficient if it is configured in the form of compression.

In addition, the detachable screw blade 2 uses a hard alloy coating (titanium coating, etc.) at least at the end (outward direction) of the screw blade. If the coating consists of a detachable screw blade (2) in this way it is possible to coat according to the limit on the service life to withstand wear by site. In addition, since the coating price varies greatly depending on the size and weight, the partial separation is a great advantage because of the low coating and repair costs.

In addition, the detachable screw blade (2) is a hard alloy coating (titanium coating, etc.) at least at the tip (outer direction) of the blade wing in a cemented carbide tip or thermal spraying state.

That is, the cemented carbide tip is attached to the screw blade and then coated. It is more desirable to have a cemented carbide tip on the screw vanes because the cemented carbide tip is attached to and coated on the screw vanes. The shape of the cemented carbide tip can be seen by looking at the front of FIG. The shape of the cemented carbide tip or the installation itself is a technique selectively used in this field. An important point in the present invention is to provide a screw blade coated with the cemented carbide tip after the coating again.

In addition, the installation position of the screw wing holder 21 welded to one end of the detachable screw wing (2) is preferably formed to a relatively small screw hub toward the screw hub so that it does not collide with the settled solids so as not to affect the transport. . By forming in this way, the wear of the screw blade holder 21 to a conveying material is also small.

The bearing cap (3) is inserted into the rear end of the screw hub (1) is fixed to the bearing cap body 31 having an outer diameter screw thread portion 311 formed in the rear end; The inner diameter screw thread part 321 which is combined with the outer diameter screw thread part 311 is formed, and a part of the contact with the detachable screw blade 2 is cut so that the locking jaw part 322 formed to push the detachable screw blade 2 when the screw is rotated. It consists of a tightening nut 32 having a). In this configuration, when the tightening nut 32 is rotated in the forward direction, the detachable screw blade 2 enters the bearing cap body 31 and the engaged screw blade 2 is screwed into the screw groove 11 of the screw hub 1. When rotating along the), successive neighboring detachable screw blades (2) are rotated toward the front cap (4), the screw is no longer rotated by the front cap fixed to the front end of the screw hub (1) It is strongly adhered to the wing holder 21 and is fixed.

The front cap 4 is inserted into and fixed to the front end of the screw hub 1 to prevent the detachment of the detachable screw wing 2 toward the front, so that the detachable screw blades 2 are blocked by the front cap 4 and the screw wing holder ( 21) is tightly fixed and fixed.

The bearing caps 3 and the front caps 4 are not shown in detail, but are fixed by bolting at one or more points with the screw hub. Normally, the screw vanes are turned clockwise when viewed from the bearing cap to the front cap, so that the threads of the bearing cap and front cap bolt are wound in the direction of the right screw and do not loosen as they coincide with the direction of rotation. This fastening structure is a general structure.

The screw conveyor of the present invention configured as described above is partially assembled without cutting off the entirety of the screw blades, even if the screw blades are damaged by using a transfer material that is heavily worn by assembling the screw hub 1 using the detachable screw blades. Replacement repair is possible.

In addition, the individual detachable screw blades can be coated to have the desired strength, which increases wear resistance, allowing continuous dehydration and concentration for a long time.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

<Explanation of symbols for the main parts of the drawings>
(1): Screw hub (2): Separate screw blade
(3): Bearing cap (4): Front cap
(11): screw groove (21): screw wing holder
(31): Bearing cap body (32): Tightening nut
(311): External thread thread (321): Internal thread thread
322: locking jaw

Claims (7)

In the screw conveyor of the screw decanter centrifuge,
A screw hub 1 in which a screw groove 11 is formed;
A plurality of separate screw blades (2) inserted into the screw grooves and formed with a screw wing holder (21) for fixing a neighboring separate screw blade (2) at one end thereof;
A bearing cap (3) installed at the rear end of the screw hub (1) for pushing and supporting the detachable screw blade (2);
Screw conveyor for a decanter type centrifuge with a detachable screw blade, characterized in that it comprises; a front cap (4) is installed at the front end of the screw hub (1) to push and support the detachable screw blade (2).
The method according to claim 1,
The screw groove (11) is a screw conveyor for a decanter type centrifuge with a detachable screw blade, characterized in that the continuous spiral groove processing at a pitch of a predetermined interval on the circumferential surface of the body of the screw hub (1).
The method according to claim 1,
The detachable screw blade (2) is a screw conveyor for a decanter type centrifuge with a detachable screw blade, characterized in that each formed by one pitch of the screw groove.
The method according to claim 1,
The screw wing holder 21 is a screw conveyor for a decanter type centrifuge with a detachable screw wing, characterized in that formed on the screw hub side.
The method according to claim 1,
The detachable screw blade (2) is a screw conveyor for a decanter type centrifuge with a detachable screw blade, characterized in that the hard alloy coated.
The method according to claim 1,
The detachable screw blade (2) is a screw conveyor for a decanter type centrifuge with a detachable screw blade, characterized in that the hard alloy coating at least at the end of the screw blade with a cemented carbide tip or thermal spraying (溶 射, thermal spraying) state .
The method according to claim 1,
The bearing cap (3) is inserted into the rear end of the screw hub (1) is fixed to the bearing cap body 31 having an outer diameter screw thread portion 311 formed in the rear end;
The inner diameter screw thread part 321 which is combined with the outer diameter screw thread part 311 is formed, and a part of the contact with the detachable screw blade 2 is cut so that the locking jaw part 322 formed to push the detachable screw blade 2 when the screw is rotated. Screw conveyor for a decanter-type centrifuge with a detachable screw blade, characterized in that consisting of; tightening nut (32) having a.

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