KR20100129121A - A method for manufacturing of the seperating disc for a seperating disc type centrifugal seperator - Google Patents

Abstract

PURPOSE: A method for manufacturing a separating disc for a separating disc type centrifugal separator is provided to rapidly and conveniently perform the insertion of a protrusion portion into a fitting hole without any error. CONSTITUTION: A position fitting conic plane(50) is used in a process in which a band-shaped separation barrier is a certain position of a conic plane(21) of a separation plate. A position fitting hole(51) is installed at a position corresponding to the certain potion of the conic plane and has an identical shape to that of a protrusion portion.

Description

A method for manufacturing of the seperating disc for a seperating disc type centrifugal seperator

The present invention relates to a separator plate (hereinafter simply referred to as a separator plate) for separating plate-type centrifugal separator which separates a liquid to be processed (stock solution) into a liquid, a liquid, and / or a solid and a liquid by a high rotation and high centrifugal force. It relates to a manufacturing method.

Separator type centrifugal separators (hereinafter, also simply referred to as "separators") according to the present invention have been used in many fields of the industry, for example, purification of fuel oils and lubricating oils in diesel engines for ships, and their It is used as a purifier for removing solid impurities mixed in oil (in the liquid to be treated).

The conventional structure of this type of separator plate type centrifuge (separator) is a separator plate group in which a thin metal plate is formed into a truncated cone shape in which a plurality of separator plates are laminated in the rotational axis direction of the separator. The upper and lower gaps between the separators located at the upper and lower sides of each layer of the separating plate group, that is, the inner surface (lower surface) of the conical surface of the upper separating plate and the outer surface (upper surface) of the lower separating plate in each layer. The conical surface gap formed as a gap is divided into 8 parts at intervals in the rotational direction of the rotating body, for example, in a separation space partition protrusion provided in the conical busbar direction on the outer surface (upper surface) of the conical surface of the lower separating plate. Separation space of the thread is formed.

Separation processing by the separator having such a structure is performed as follows.

For example, when to-be-processed liquid (henceforth a stock solution) which is fuel oil, a lubricating oil, etc. is introduce | transduced into a rotating body from the rotation axis direction of a rotating body, a centrifugal force penetrates a separating plate group from the lower side of the said separating plate group in an up-down direction. Passing through a distribution hole, it flows into and spreads into each space.

The to-be-processed liquid imparted with centrifugal force diffuses into the separated separation space, while the liquid flows between the conical surfaces of the upper and lower separation plates so as to increase the inclination of the cone surface toward the center of the separation plate, that is, in the direction of the rotation axis.

On the other hand, miscellaneous solid impurity particles mixed in the liquid to be treated are settled on the inner surface (lower surface) side of the conical surface of the upper separation plate forming the separation space by centrifugal sedimentation, and the outer periphery of the separation space along the settled cone surface. It flows to the edge side, that is, the bottom side corresponding to the lower side of the conical surface (the discharge flow from the separation space).

When the precipitated solid impurity particles are discharged and flowed toward the outer circumference of the separation space in this way, the rear of the two separation space partition protrusions arranged before and after the rotational direction so as to form the separation space (to divide the partition). In the separation space partitioning projection, the solid impurity particles are guided by the rotary front edge which is an edge on the side of the rotational direction of the separation space partitioning projection, specifically, in the separation space partitioning projection. As it is swept away from it, it is sent to the lower side of the inner surface side of the upper separator plate, that is, the bottom side (the outer peripheral end of the separator plate), on the outer peripheral edge side of the separation space.

In this way, the solid impurities sent from each separation space to the outer circumferential edge are collected at the outer circumference and accumulate to reach the space in the rotating body around the separating plate group, and finally, the outermost peripheral portion in the rotating body. It is temporarily stored in the largest diameter part in the rotating body, which is a so-called solid impurity dust collecting place, and is properly discharged to the outside of the rotating body by appropriate means.

By the way, the problem is that the above-mentioned separation space partitioning protrusion part (hereinafter, referred to as a conical surface), which is the main body of the separating plate formed in the truncated cone shape as described above, is integrated with the conical surface of the separating plate. The separation space partition protrusion as a former member is also referred to as a separation space partition protrusion or abbreviation as a protrusion part, and an integral separation space partition protrusion part is called a separation space partition protrusion). It is a manufacturing method of the separation plate for separation plate-type centrifuges provided with the said separation space partition protrusion.

Conventionally, on one side, a thin metal plate is processed into a truncated cone shape to form a separating plate main body, or a conical surface (sieve), and on the other side, a large number of metal plates, which are of the same thickness and material as the separating plate main body, are plated. The separation space partition protrusion part (hereinafter, also simply referred to as a protrusion part) was cut out and welded while placing the separation space partition protrusion part one by one at a plurality of predetermined positions of the separation plate main body.

However, the separation space partitioning protruding part is difficult to handle because it is a relatively thin strip-shaped piece, and it is precisely positioned at a predetermined position on the conical surface rather than on the plane, and is integrally aligned with the conical surface which is the main body of the separating plate. Excretion was a difficult task that required a great deal of effort and time, and was a task in which production efficiency did not increase.

In order to solve the said subject, an object of this invention is to provide the manufacturing method of the separating plate provided with the separation space partition protrusion part with high production efficiency.

The invention of the manufacturing method of the separator plate for a separator plate-type centrifugal separator provided with the separation space partition protrusion of Claim 1 is a truncated cone-shaped separator plate centrifugation laminated | stacked in the rotating shaft direction of the said rotor body in the rotating body of a separator plate-type centrifuge. In the manufacturing method of the separator for aircraft,

In the step of integrally disposing a strip-shaped separating space partitioning protruding portion at a predetermined position of the conical surface of the separating plate, it is tightly fitted so that attachment and detachment are freely possible on the outer circumference of the conical surface of the separating plate. Using the conical shape for positioning,

In the positioning conical surface type, the separation space partitioning projection is inserted into the corresponding predetermined position portion corresponding to the predetermined position of the separating plate in the state in which the separation space partitioning projection part is integrated with the conical surface before being fitted in close contact with the conical surface. Positioning holes of the same shape as the space partition stone parts are provided,

In a state in which the positioning conical surface is closely fitted to the conical surface of the separating plate, a separation space partitioning projection portion formed separately is inserted into the positioning hole, and the separation space partitioning projection portion is welded to the conical surface. By excretion integrally.

The invention of the manufacturing method of the separator plate for a separator plate type centrifugal billing provided with the separator space partition protrusion part of Claim 2,

In the manufacturing method of a truncated cone-shaped separation plate laminated | stacked in the rotating shaft direction of the said rotating body in the rotating body of a separation plate type centrifugal separator,

In the step of integrally disposing a strip-shaped separation space partition protrusion part at a predetermined position of the conical surface of the separating plate, a conical surface for position alignment which is tightly fitted to be detachably attached to the outer circumference of the conical surface of the separating plate. Using a mold,

The aligning conical surface is inserted into a corresponding predetermined position portion corresponding to a predetermined position of the separating plate in advance in the state in which the separation space partitioning protruding part is integrated with the conical surface. Install the positioning hole of the same shape as the separation space partition stone parts,

In the state where the positioning conical surface is closely fitted to the conical surface of the separating plate, the separating space partitioning projection portion is welded to the conical surface while inserting a separate space partitioning projection portion formed separately from the positioning hole. It is characterized by integrally excreted by.

The invention of the manufacturing method of the separator plate for a separator plate type centrifugal separator provided with the separator space partition protrusion part of Claim 3,

In the manufacturing method of a truncated cone-shaped separation plate laminated | stacked in the rotating shaft direction of the said rotating body in the rotating body of a separation plate type centrifugal separator,

In the step of integrally disposing a strip-shaped separation space partition protrusion part at a predetermined position of the conical surface of the separating plate, a conical surface for position alignment which is tightly fitted to be detachably attached to the outer circumference of the conical surface of the separating plate. Using a mold,

In the positioning conical surface type, the separation space partitioning projection is inserted into the corresponding predetermined position portion corresponding to the predetermined position of the separating plate in the state in which the separation space partitioning projection part is integrated with the conical surface before being fitted in close contact with the conical surface. Place the positioning hole of the same shape as the space partition stone parts,

In the state where the positioning conical surface is in close contact with the conical surface of the separating plate, the strip is formed while the separation space partitioning protruding portion formed as a separate body is gradually inserted into the positioning hole from one end side of the strip shape to the other end side. Welding from one side of the shape toward the other end side,

It is characterized by integrally disposing the separation space partition protrusion part.

In the invention of claim 4, in the method for producing a separator plate for a separator plate-type centrifugal separator provided with the separator space divider protrusion according to any one of claims 1 to 3, welding is carried out in the longitudinal direction of the strip. ) Is spot welding.

According to a fifth aspect of the present invention, in the method for producing a separator plate for a separator plate-type centrifugal separator provided with the separator space divider protrusion according to any one of claims 1 to 4, the separator space divider protrusion part to be welded is a conical surface. In the state welded integrally, it is a length extending from the upper side 42 of the said conical surface to the lower side.

The invention of claim 6 is a method for producing a separator plate for a separator plate-type centrifugal separator provided with the separator space partition protrusion according to any one of claims 1 to 5, wherein the separator space partition protrusion part welded is a conical surface. It is characterized in that it is excreted in the direction of the cone busbar.

According to a seventh aspect of the present invention, in the method for manufacturing a separator plate for a separator plate-type centrifugal separator provided with the separator space divider protrusion according to any one of claims 1 to 5, the separator space divider protrusion part to be welded is a conical surface. It is characterized in that it is excreted in the direction intersecting the cone mothership.

In the invention of claim 8, in the method for producing a separator plate for a separator plate-type centrifugal separator provided with the separator space divider protrusion according to any one of claims 1 to 7, wherein the separator space divider protrusion pieces to be welded have a length. It is characterized by being linear in a direction.

The invention of claim 9 is a method for producing a separator plate for a separator plate-type centrifugal separator provided with the separator space divider protrusion according to any one of claims 1 to 7, wherein the separator space divider protrusion pieces to be welded have a length. It is characterized by a curved shape in the direction.

In the invention of claim 10, in the method for producing a separator plate for a separator plate-type centrifugal separator provided with the separator space divider protrusion according to any one of claims 1 to 7, the separator space divider protrusion piece to be welded has a length. It is characterized by a curved shape in a part of the direction.

In the invention of claim 11, in the method for producing a separator plate for a separator plate-type centrifugal separator provided with the separator space partition protrusion according to any one of claims 1 to 10, the conical surface for alignment is for position alignment. It is characterized by using a conical body to be molded in the manufacturing method of the separating plate to which the conical surface shape is applied.

According to a twelfth aspect of the present invention, in the method for producing a separator plate for a separator plate-type centrifugal separator provided with the separator space partition protrusion according to any one of claims 1 to 10, the conical surface for alignment is at least a separation plate. The part in close contact with the conical surface is characterized by using a conical surface molded in the method for producing the separator.

According to a thirteenth aspect of the present invention, there is provided a method for producing a separation plate for a centrifugal separator having a separation space partition protrusion according to any one of claims 1 to 12, wherein the conical surface for positioning has a perimeter of the positioning hole. It is characterized in that the edge is formed thick.

The invention of claim 14 is the manufacturing method of the separator plate for separation plate type centrifugal separator provided with the separation space partition protrusion according to any one of claims 1 to 12. It is characterized by thickly forming at least both edges in the longitudinal direction of the circumferential edge.

The invention of claim 15 is a method for manufacturing a separator plate for a separator plate-type centrifugal separator provided with the separator space divider protrusion according to any one of claims 1 to 14, wherein the separator space divider protrusion piece to be welded is a flat plate. It characterized in that the molded by punching (穿孔) processing.

According to the invention of claim 16, in the method for producing a separator plate for a separator plate-type centrifugal separator provided with the separator space partition protrusion according to any one of claims 1 to 14, the separator space partition protrusion part welded is a flat plate. It was formed by punching, characterized in that the warp is provided in the longitudinal direction of the belt shape.

According to a seventeenth aspect of the present invention, in the method for manufacturing a separator plate for a separator plate-type centrifugal separator provided with the separator space partition protrusion according to any one of claims 1 to 16, a conical surface for positioning is formed on the conical surface of the separator plate. In the state of tight fitting overlapping, spot welding is performed while inserting into the positioning hole so that the other end gradually penetrates from the one end side of the strip-shaped separation space partitioning protrusion part, and the separation plate and the conical surface shape for the alignment state are overlapped. The separation space partitioning protruding part is integrally rotated about the axis of the cone and the separation space partitioning protruding portion is placed at all the predetermined positions of the separation plate while rotating the predetermined positions set in the circumferential direction of the separation plate to the welding position of the welding machine. It is characterized by excretion integrally.

According to each invention of Claims 1 thru | or 17, since all use the conical surface shape for positioning by which the positioning hole was provided, since the separation space partitioning protrusion part which is relatively difficult to handle because it is a thin strip-shaped small piece is not planar, predetermined | prescribed It is possible to perform the work of integrating the conical surface (sieve) accurately by precisely positioning it at a predetermined position on the conical surface which is difficult to contact with the position, relatively easily and smoothly, compared with the conventional one, and with a great deal of effort and time required in the past The manufacturing method can be reduced and the production efficiency can be provided.

According to each of the inventions of Claims 11 to 12, all can be used as conical surfaces for positioning, and conical bodies produced as semi-finished products can be diverted, so that manufacturing of the conical surfaces for positioning can be performed quickly. It is economical because it is easy to do.

According to each invention of Claims 13-14, since all have thickness in the edge of the positioning hole formed in the conical surface shape for positioning, without inserting the separation space partition protrusion part into the said positioning hole incorrectly. It can be performed quickly and easily, thereby improving production efficiency.

According to the invention of claim 16, since the separation space partitioning protruding part is warped, a welding worker can quickly and easily carry out a strip shape while holding the one end side in the longitudinal direction of the strip-shaped separation space partitioning protruding part by hand. Thus, the separation space partitioning protrusions can be gradually inserted into the long positioning holes from the other end side of the separation space partitioning protrusions, which is effective when disposing the separation space partitioning protrusions in the busbar direction of the conical surface.

According to the invention of claim 17, the separating plate and the positioning cone can be integrally handled in a polymerized state, and in the polymerized state, a plurality of points of the conical surface of the separating plate can be rotated around the axis of the cone. Since the predetermined position can be easily rotated to the welding position of the welding machine, the welding operation of the separation space partition protrusion part can be efficiently performed.

Hereinafter, the present invention will be described below by exemplifying a separator for a separator plate-type centrifuge (hereinafter, simply referred to as a separator) using fuel oil, lubricating oil or the like of a marine diesel engine as a liquid to be treated.

<Examples>

1 is a cross-sectional view of a rotating body of a separator-type centrifuge, FIG. 2 is a plan view of a separator constituting a group of separator plates, FIG. 3 is a bottom view of the separator plate, FIG. 4 is a side view of the separator plate, and FIG. 5 is a separator plate. 6 is a longitudinal cross-sectional view of the separating plate, FIG. 7 is a perspective view of another separating plate, and FIG. 8 is an explanatory view of usage of the conical surface type for positioning.

In FIG. 1, inside the rotating body 1, the separating plate group 20 in which many hatch-shaped separating plates 2 were laminated | stacked by the rotating shaft direction of the rotating body 1 is provided. As shown in FIGS. 2 to 6, the separating plate 2 constituting the separating plate group 20 is processed into a truncated cone shape by drawing a flat plate.

In each layer of the separating plate group 20, the upper and lower gaps between the upper separating plate 2 and the lower separating plate 2, which are positioned relatively up and down in the stacking direction, that is, shown in Figs. In the separating plate 2, the inner surface (lower surface) 212 of the conical surface 21 of the upper separating plate 2 and the outer surface (upper surface) of the conical surface 21 of the lower separating plate 2 in each layer ( Between 211), a conical surface gap (not shown) is a gap in which the liquid to be treated is introduced (a number of arrows in the upward direction shown in the separating plate group 20 in FIG. 1 indicate the direction of introduction of the liquid to be treated). Formed.

On the outer surface (upper surface) 211 of the conical surface 21 of the separating plate 2 positioned relatively below, the separating space partition protrusion 3 is disposed in the substantially conical busbar direction of the conical surface 21. ) Radially from the rotational center side in a plurality of plane views so as to be spaced apart in the rotational direction (in this embodiment, the right direction in the drawing = counterclockwise direction), for example, by dividing 8 into 8 separate separation spaces 4. Is excreted.

Separation processing of the liquid to be processed (fuel oil containing sludge or water, lubricating oil, etc.) by this separator is largely divided and centrifuged as follows by primary separation and secondary separation.

First, in FIG. 1, the to-be-processed liquid is introduce | transduced into the rotating body 1 from the introduction port 11 provided in the rotating direction in the rotating shaft of the rotating body 1, and the centrifugal force by the high speed rotation of the rotating body 1 is carried out. They are separated into light liquids, heavy liquids, and solids (hereinafter referred to as primary separation treatment).

The hard liquid with a light specific gravity separated by this primary separation process penetrates through the said separating plate group 20 in the up-down direction from the lower side to the upper side of the separating plate group 20, and at least for each separation space 4 Flows upwardly through each of the flow holes 22 provided through the separation space 4, and sequentially flows into each separation space 4 of each layer from the bottom to the inside of each separation space 4. It spreads.

Next, secondary separation processing will be described.

Since the to-be-processed liquid diffused into each separation space 4 is given centrifugal force, the liquid of the to-be-processed liquid is spread | diffused from the said distribution hole 22 to each separation space 4, and the upper and lower separation plates ( Between the conical surfaces 21 of 2 and 2, that is, the inner surface (lower surface) 212 of the conical surface 21 of the upper separating plate 2 and the outer surface (upper surface) of the conical surface 21 of the lower separating plate 2. The inside of the separation space 4 which is a gap with 211 flows upward so that the lower conical surface 21 may climb toward the center of the separation plate 2, that is, in the direction of the rotation axis. This flow, that is, upward flow, is the same as a number of arrows shown in the separating plate group 20 in FIG. 1 so as to face the direction of the rotation axis toward the inclination direction.

Thus, the comparatively light to-be-processed liquid which passed through the clearance gap 4 of the separation space 2 of the separation plate 2 of each layer of the separation plate group 20, ie, upwards, is upward. As a purification liquid, it collect | recovers from the recovery port 15 provided in the vicinity of the rotating shaft of the rotating body 1 shown in FIG.

On the other hand, the particles having a relatively high specific gravity among the various miscellaneous solid impurity particles of the object to be mixed in the liquid to be treated are quickly spaced in the rotating body 1 by centrifugal sedimentation by the high speed rotation of the rotating body 1. From the discharge port 14 which reaches the maximum diameter part 13 of 12, and is provided in the maximum diameter part 13 around the body of the rotating body 1, by a suitable timing and a suitable means, a rotating body (4) It is discharged to the outside. This maximum diameter part 13 is a dust collection and accumulation place which temporarily stores a solid impurity as an outermost main hole inside, when seen from the inside of the rotating body 4.

In addition, the heavy impurity liquid contained in the to-be-processed liquid, the to-be-processed liquid, etc. are extensive settling surfaces (cone area of the separating plate 20 x separating plate 2 formed by the separating plate group 20). In each of the separating spaces 4 constituting the conical surface, the conical surface of the upper separating plate 2 located on the relatively upper (ceiling side) forming the separating space 4 of the settled surface of the separating space 4. The inner surface (lower surface) 212 side of the (21) is settled (the sedimentation by centrifugal force on the ceiling side of the separation space 4), and along the settled cone surface 21, the outer peripheral edge of the separation space 4 ( It flows to the 41) side, ie, the base 41 side of the conical surface 21. Hereinafter, this flow refers to the discharge flow from the separation space 4.

In this way, when the solid miscellaneous mass of the individual miscellaneous mass which settled in each separation space 4 discharges and flows toward the outer peripheral edge 41 of each separation space 4, the said separation space 4 rotates. Located in the rear of the rotational direction among the two pairs of the two separation space partitioning protrusions 3 and 3 which are arranged at intervals in the front-rear direction of the rotational direction so as to form a plurality in the direction (to divide the partitions). By the separation space partition protrusion 3 (for example, the separation space partition protrusion 3R with respect to the separation space partition protrusion shown by 3F in FIG. 4), the separation space partition stone By the rotating front edge 31 which is the edge (front edge) of the side of rotation part 3R of a rough part, solid impurity particle | grains are shown, for example by the flow trace of the dashed arrow of FIG. The inner surface of the separation plate 2 on the upper side of the separation space 4 on the outer circumferential edge 41 side of the separation space 4, as if being separated from the separation space 4 by the separation space partition protrusion 3R. It is sent to the base side 41 (the outer periphery edge 41 of the separator 2) on the (212) side.

In FIG. 1, the solid impurities (not shown) sent from the separation space 4 to the outer peripheral edge 41 side and discharged to the outside of the separation plate group 20 as described above are separated from the separation plate group ( The space 12 in the rotor 1 around the rotor 20 is reached, and as described above, the largest diameter portion in the rotor 4 which is a so-called solid impurity dust collecting site of the outermost main hole in the rotor 4. 13 is temporarily stored and discharged from the outlet 14 to the outside of the rotor 4 by appropriate means.

As described above, the solid impurity particles floating in the processing liquid filling the separation space 4 are guided to the rotary front edge 31 of the separation space partition protrusion 3 by centrifugal force, and from the separation space 4. When the inside of the separation space 4 is discharged to the outside, that is, to the outer peripheral portion of the separating plate group 20, in the rotating front edge 31, individual miscellaneous solid impurity particles having a specific gravity differ from each other. The separation space partition protrusion 3 is more precisely divided so that the mass of the unit particles increases due to the difference in the movement speed or the contact or collision due to the arrival of the flow path (dashed arrow in FIG. 5). Rotating front edge 31 is formed.

For the arrangement of the separation space partition projections 3 with respect to the conical busbar of the conical surface 21 of the separating plate 2, that is, for the integration of the separation space partition projections 3 into a predetermined position with respect to the cone surface 21. For example, in the present embodiment, the welding is inclined at an angle so as to intersect the conical busbar of the conical surface 21, but the arrangement is not limited thereto. For example, the separation plate 20 shown in FIG. You may arrange | position (arrange) the separation space partition protrusion part 30 in parallel with a cone bus bar, ie, in the direction of a cone bus bar (FIG. 7 is mentioned later).

In any case, the separation space partition protrusions integrally welded to predetermined positions set in plural places (in this embodiment, eight places) on the surface of the outer circumference of the conical surface 21, that is, the separation space partition protrusions after being integrated (3) shows the solid impurity particle in the said separation space 4 to the base 41 side below the separation space 4 corresponding to centrifugal force. It is a device that acts to be relatively swept away (hereinafter, this action is also called extinction).

The inclination, that is, the inclination of the separation space partition protrusion 3 shown in this embodiment is relative to the cone busbar passing through the separation space partition protrusion 3 and the upper end side of the separation space partition protrusion 3 is in the rotational direction side. It is arrange | positioned so that the lower end side of the separation space partition protrusion 3 may become the inclination (henceforth simply an inclination hereafter) located in the rotation back side.

On the other hand, the form of the rotary front edge 31 of the separation space partition protrusion 3 is different from the rotation direction (right turn in the figure) of the rotating body 4 over the entire length of the rotary front edge 31. It may be curved so as to draw a curve expanding in the opposite direction (left direction in the drawing).

For example, the front edge of the separation space partition protrusion (piece) 3, that is, a curve over the entire length of the rotary front edge 31 (not shown), or as shown, the rotary front edge 31 You may form so that the part of the side of the base side 41 of the cone surface 21 may be deeply curved among the full length of the.

When formed in this way, it is possible to increase the mass by contacting or colliding with the solid impurity particles in a relatively large area, and to effectively exert the dissipation action. However, it is not necessary to do so, and simply the rotation front edge 31 A straight strip may be linear over the entire length, that is, the separation space partition protrusion (piece) 3 itself.

On the other hand, the shape of the 'ヘ' shaped separation space partition protrusion part (piece) 3 shown in the Example is an experiment carried out in the solid-liquid separation performance experiment using the fuel oil, the lubricating oil, etc. of the diesel engine for ships as a to-be-processed liquid. It is only the best shape found in repeated experiments, and therefore, the separation space partitioning protrusions may vary depending on the performance of the separator, the use of the components to be treated, or the physical properties of the solid impurities (particles) to be mixed in the processing liquid. The shape of (3) may be different.

For example, the separation space partition protrusions (pieces) 3 of the separation plate 20 shown in FIG. 7 are linear, and this separation space partition projections (pieces) 3 are parallel to the cone busbar, that is, a circle. It is excreted in the direction of the mother ship. On the other hand, in this linear separation space partition protrusion part (piece) 3, the effect by a curved part, such as "'" shape, cannot be obtained.

In the separating plate 3 of this embodiment, the truncated cone-shaped conical body 2 manufactured as described below is used as the main body, and the conical surfaces 21 and 211 which are the outer circumferential surfaces of the conical body 2 which is the main body. For aligning as a aligning means of a position to be described later, a plurality of strip-shaped separation space partition protrusion parts 3 formed separately from the conical body 2 at a plurality of predetermined positions scheduled on the image. It is made by integrating with the said conical body by welding, and inserting it into the conical-shaped positioning hole, respectively, and integrally disposing on the outer peripheral surface of the said conical body.

Hereinafter, manufacture of the separating plate 2 provided with this separation space partition protrusion 3 is demonstrated.

At the time of manufacture of the separating plate, first, as a premise, the conical body 2 which is the main body of the separating plate, the separating space partitioning protrusion part 3 separately from the separating plate, and the conical surface type for positioning, which are positioning means It is necessary to prepare (manufacturing) separately.

<Production of Conical Sphere>

First, a square plate as a raw material is prepared, and the square plate is formed into a conical shape by a drawing processing machine (hereinafter, this step is also referred to as a drawing processing step). The rectangular plate cuts a plate material (precision plate 2000x1000 2B JIS standard) into the required rectangle according to the size of the target separator board (henceforth this process is called a square cut process).

On the other hand, each square plate as a material cut into a square is checked for contamination or dust before it enters the drawing process of the next step, and if removed, it is removed. Also known as fair).

Next, the said rectangular shape material was made as it was, while the said rectangular shape material (1 sheet) was pinched at the predetermined position between the mold and the sphere of a drawing processing apparatus, for example, an automatic spinning drawing machine. While rotating, the square material is shaped into a circular shape while pressing the square material into the frame with a drawing rod (hereinafter, this process is also referred to as a drawing processing process).

Next, the conical shape formed in the drawing processing step is cut horizontally by cutting the conical parietal portion side with a power press as a cutting device (hereinafter referred to as the parietal cut process). By making the base side of the truncated cone shape circular (hereinafter this process is also called bottom cut process), the conical body 3 as a main body of the truncated cone-shaped separating plate 2 is shape | molded (hereafter, this process is conical shaping | molding). Also known as fair).

On the other hand, the molded conical body removes oil adhering to the power press.

Finally, the distribution hole 22 having the required size is drilled and installed at a predetermined position of the cone surface formed in the above-described conical surface forming process by means of a suitable drilling means, for example, a manual or a power press. Also known as fair). The desired conical body 3 is manufactured by each process mentioned above.

<Production of Separation Space Partition Stone Parts>

The separation space partitioning protruding part 3 is made into a required shape by punching the raw material of the flat plate by an appropriate molding means, for example, a punching machine or the like (punching).

For example, it is shape | molded to the shape curved in the shape of "'" as mentioned above, or to the straight band shape as shown in FIG. 7 (Hereinafter, this process is also called shaping | molding process of a protrusion part).

At the time of shaping | separation of the separation space partition protrusion part 3, especially, in the case of the protrusion part which the said separation space partition protrusion part is excreted exactly in the inclination direction at the angle parallel or near parallel to the cone busbar of a conical surface, the length In the direction, the upper surface (the surface on the opposite side to the contact surface to the conical surface = the back side) is processed so as to be warped (hereinafter referred to as the bending process).

The advantage by shape | molding in the shape which gave this "bending" is demonstrated in the welding process mentioned later. By the above process, a desired separation space partition protrusion part is manufactured.

<Production of Positioning Cone Type (Manufacturing)>

The conical surface shape for positioning as a positioning means which puts the separation space partitioning protrusion part 3 into the predetermined position which integrates the surface of the conical body 2 which is the main body of the separating plate 2 has the A truncated cone-shaped conical surface of the same shape or similar shape is used to at least a portion of the separation plate main body which is tightly attached to the outer circumference of the cone surface so as to be freely detachable.

The conical surface type 50 for alignment shown in the Example of FIG. 8 was made to closely fit from the cone axis direction shown by the arrow shown so that it may overlap with the conical surface 211 of the cone surface 21 which is the main body of the separating plate 2. At this time, the separation space partitioning protrusions 3 are attached to the conical body 21 at the corresponding predetermined position portions corresponding to the predetermined positions of the separation space partitioning protrusions 3 of the separating plate 2. The positioning hole 51 which is dropped in the integrated state and inserted densely is provided with the ball of the same shape as the said separation space partitioning protrusion part 3, for example.

The positioning conical surface 50 (hereinafter also referred to as a conical surface shape), as can be seen in the state shown, the positioning conical surface 50 is applied to the separation space partitioning projection piece 3 The conical spherical body 21, which is the main body of the separator 2 to be welded, is used as it is, and the alignment hole 51 is drilled.

Therefore, although the distribution hole 22 is installed in the perforated state, this distribution hole 22 is useless as a conical surface shape, and may be absent.

As such a conical surface 50 for alignment, it is not necessary to necessarily divert | separate the separating plate 2 as mentioned above, You may create a conical surface separately, By doing so, of the conical surface 50 for alignment, Procurement is quick and easy, and procurement costs are economical.

In any case, the positioning conical surface 50 is formed in the same or similar shape as the truncated cone-shaped separating plate 2, and has a size that covers the entire outer surface of the separating plate 2 completely from the outer cone axis direction. It is desirable to.

For example, when the positioning conical surface 50 is formed exclusively for the separating plate 2, since the thickness of the conical surface of the separating plate 2 is thin, the inner peripheral edge of the positioning hole 51, What is necessary is just to arrange | position a suitable reinforcement member (not shown) to the both edge side of the long hole which is drilled at least in strip shape, and to make it thick.

In this way, when the separation space partitioning projection 3 is inserted into the positioning hole 51 by forming a thickness at the edge of the positioning hole 51 formed in the positioning cone 50, the mistake is made. Without the need for precise insertion, the operation can be performed quickly and easily.

Next, a welding step of integrally disposing a strip-shaped separation space partition protrusion part 3 at a predetermined position on the conical surface 21 of the separating plate 2 will be described.

<Welding first step (fitting step)>

As shown in FIG. 8, the detachable conical surface 50 on the outer circumferential side of the conical surface 21 of the separating plate 2 is fitted so that attachment and detachment is freely possible so as to overlap from the conical axis direction, and the separating plate ( On the predetermined position of the conical surface 21 of 2), i.e., the set position of the separation space partitioning projection 3, the separation hole 51 of the positioning conical surface 50 is closely fitted so as to overlap exactly, and the separation plate (2) and the conical surface 50 are integrated (hereinafter also referred to as fitting process between the separating plate and the conical surface).

<Welding second process>

Next, the separation space partitioning protruding portion 3 formed as a separate body is inserted into the positioning hole 51 of the positioning cone 50 for separation, and the separation space partition is formed on the conical surface 21 of the separation plate 2. The protrusion part 3 is welded.

Welding is the said separation space partition protrusion part 3 in the welding location (not shown) which is set in order at intervals suitably in the longitudinal direction of the strip | belt-shaped separation space partition protrusion part 3, for example. Integral by spot welding from one end to the other end.

<Welding at the First Positioning Hole 51>

First, while holding the other end side of one separation space partitioning protrusion part 3 with one hand, one end side of separation space partitioning protrusion part 3 is inserted into one end side of positioning hole 51, Resistant to the repulsion force of the deflection of the separation space partitioning protrusion piece 3, and in the state which pressed the welding location of at least one side of the said separation space partitioning protrusion part 3 according to the positioning hole 51, With one hand, spot welding is performed on the one end side of the weld.

Next, with the hand which hold | separated the separation space partitioning protrusion part 3, the following welding part is pressed in line with the positioning hole 51, and the welding site is spot-welded with the other hand.

In the same manner, the first step is repeated, and one hand presses the welding point in accordance with the setting hole, and the other hand performs the spot welding with the other hand, and the welding of the separation space partitioning protruding part 3 is performed. (Hereafter referred to as spot welding).

In the spot welding process described above, the separation space partitioning protrusion piece 3 is welded while being inserted into the positioning hole 51 little by little, that is, the separation space partitioning protrusion piece 3 is welded from one end side of the strip shape to the other end side. While gradually inserting into the positioning hole 51 suitably, the welding point is continuously welded one by one toward the other end side of a strip | belt shape.

According to such a welding method, since welding is carried out sequentially, confirming a welding location, since it welds while contacting a predetermined position correctly, the separation space partitioning protrusion part 3 stabilizes at a predetermined welding location, Does not occur, and it is welded correctly and is integrated with the separating plate 2.

However, the welding method is not limited to this, and for example, the whole separation space partitioning protrusion part 3 may be inserted into the positioning hole 51 at once and spot welded.

In addition, in the welding example of an Example, although demonstrated with the strip | belt, ie, spot welding interspersed in the longitudinal direction of the separation space partitioning protrusion part 3 extended in strip shape, you may use another suitable welding means.

On the other hand, the length of the separation space partitioning protruding portion 3 to be welded here is the lower side, that is, the lower side 41 from the upper side 42 side of the conical surface 21 in the state welded integrally to the conical surface 21. The length extending to the side is preferable.

<Welding in Second Positioning Hole 51>

Next, the second positioning hole 51 which performs the welding operation of the separation space partitioning protruding portion 3 is the adjacent positioning hole 51 of the first positioning hole 51 or another suitable position. A fitting hole may be used, but the second welding is completed when the positioning hole 51 located in the vicinity of, for example, 180 degrees is selected and welded in the opposite direction to the positioning hole 51 used for the first (first) welding. In the step of, the conical surfaces 2 and 20 overlapping and overlapping the separating plate 2 are better positioned by the separation space partitioning protruding portions 3 welded at two places separated in the 180 degree direction. Since 51) is made, the positioning hole 51 to which the other separation space partitioning protruding portion 3 should be welded is naturally determined at a predetermined position of the separating plate 2, and is more easily and reliably positioned. Separation plate partitioning slab (3) more accurately It can be integrated in the predetermined position of (2).

In any case, by using the conical surface 50 as described above, a strip-shaped separation space partitioning protrusion is formed in a state where the conical surface 21 for alignment is overlapped with the conical surface 21 of the separating plate 2 so as to overlap. Spot welding is performed while being inserted into the positioning hole 51 so that the other end side gradually penetrates from one end side of the piece 3, and the separation space partitioning protrusion part using the next predetermined position, that is, the positioning hole 51 When welding (3) with an appropriate welder, the separating plate 2 and the positioning cone 50 for alignment in a superimposed and integrally integrated state are integrally driven about the axis of the cone in the circumferential direction, Separating space partition protrusion part at all predetermined positions of the separating plate 2 while rotating the predetermined position (positioning hole 51) set in the circumferential direction of the separating plate 2 to the predetermined welding position of the said welding machine. (3) can be excreted integrally Therefore, the welding operation of the separation space partitioning protrusion part 3 can be performed efficiently.

The present invention has been described in the above embodiments with respect to the separation plate for the separation plate-type centrifugal separator using fuel oil, lubricating oil, etc. of the diesel engine for ships as a liquid to be treated, but is not limited to this. It can be used in the manufacture of the separator.

1 is a cross-sectional view of a rotating body of a separator plate centrifugal separator.

2 is a plan view of a separating plate constituting the separating plate group.

3 is a bottom view of the separator.

4 is a side view of the separator plate.

5 is a perspective view of the separator plate.

6 is a longitudinal cross-sectional view of the separator plate.

7 is a perspective view of another separating plate.

8 is an explanatory view of the usage of a conical surface for alignment.

<Description of Drawing Major Symbols>

2: Separator 21: Conical Surface

211: outer surface of the conical surface (upper surface) 212: inner surface of the conical surface (lower surface)

22: distribution hole 3: separation space partition protrusion

(3): Separation partition slab part 42: Upper side of conical surface

50: conical surface for position alignment (conical surface type)

51: position fitter

Claims (17)

In the manufacturing method of the separator plate for truncated cone-shaped separator plate-type centrifuge laminated | stacked in the rotating shaft direction of the said rotor in the rotating body of a separator-type centrifugal separator, In the process of integrally disposing a strip | belt-shaped separation space partition protrusion part in the predetermined position of the conical surface of the said separating plate, By using a conical surface type for positioning close to the outer periphery of the conical surface of the separating plate so as to be detachable freely, In the positioning conical surface type, the separation space partitioning projection is inserted into the corresponding predetermined position portion corresponding to the predetermined position of the separating plate in the state in which the separation space partitioning projection part is integrated with the conical surface before being fitted in close contact with the conical surface. Place the positioning hole of the same shape as the space partition stone parts, In a state in which the positioning conical surface is closely fitted to the conical surface of the separating plate, a separation space partitioning projection portion formed separately is inserted into the positioning hole, and the separation space partitioning projection portion is welded to the conical surface. A method for producing a separator plate for a separator plate-type centrifugal separator comprising a separator space partition protrusion, characterized in that it is integrally excreted. In the manufacturing method of the truncated cone-shaped separation plate laminated | stacked in the rotating shaft direction of the said rotating body in the rotating body of the said separation plate type centrifuge, In the process of integrally disposing a strip | belt-shaped separation space partition protrusion part in the predetermined position of the conical surface of the said separating plate, By using a conical surface type for positioning close to the outer periphery of the conical surface of the separating plate so as to be detachable freely, In the positioning conical surface type, the separation space partitioning projection is inserted into the corresponding predetermined position portion corresponding to the predetermined position of the separating plate in the state in which the separation space partitioning projection part is integrated with the conical surface before being fitted in close contact with the conical surface. Place a positioning hole of the same shape as the space protrusion part, In the state where the positioning conical surface is closely fitted to the conical surface of the separating plate, the separating space partitioning projection portion is welded to the conical surface while inserting a separate space partitioning projection portion formed separately from the positioning hole. A method for producing a separator plate for a separator plate-type centrifugal separator provided with a separator space partition protrusion, characterized in that it is integrally excreted with each other. In the manufacturing method of a truncated cone-shaped separation plate laminated | stacked in the rotating shaft direction of the said rotating body in the rotating body of a separation plate type centrifugal separator, In the process of integrally disposing a strip | belt-shaped separation space partition protrusion part in the predetermined position of the conical surface of the said separating plate, By using a conical surface type for positioning to be detachably attached to the outer periphery of the conical surface of the separating plate, In the positioning conical surface type, the separation space in which the separation space partitioning protrusion part is integrated into the conical surface is inserted into a corresponding predetermined position portion corresponding to the predetermined position of the separating plate when closely contacting the conical surface. Place the positioning hole of the same shape as the space partition stone parts, In the state where the positioning conical surface is in close contact with the conical surface of the separating plate, the strip is formed while the separation space partitioning protruding portion formed as a separate body is gradually inserted from the one end side of the strip shape to the other end side in the positioning hole. Welding from one side of the shape toward the other end side, A method for producing a separator plate for a separator plate-type centrifugal separator comprising the separator compartment partition protrusions, wherein the separator compartment partition projection parts are integrally disposed. The manufacturing of the separator plate for a separator plate centrifuge according to any one of claims 1 to 3, wherein the welding is spot welding dotted in the longitudinal direction of the strip. Way. The separation space partitioning projection part welded according to any one of claims 1 to 4 is a length extending from an upper side to a lower side of the conical surface in a state of being integrally welded to the conical surface. The manufacturing method of the separator plate for separator-type centrifuges provided with the separation space partition protrusion part. Separation plate for a separator plate-type centrifugal separator with a separation space partition protrusion according to any one of claims 1 to 5, wherein the separation space partition protrusion part to be welded is disposed in a conical busbar direction of the conical surface. Method of preparation. Separation plate-type centrifugal separator with separation space partition protrusions according to any one of claims 1 to 5, wherein the separation space partition protrusion parts to be welded are disposed in a direction intersecting the cone busbar of the conical surface at an angle. Method for producing a separator plate for a separator. The separation plate for separation plate type centrifugal separator provided with the separation space partition protrusion part according to any one of claims 1 to 7, wherein the separation space partition protrusion part to be welded is linear in the longitudinal direction. Manufacturing method. The separating plate partition centrifuge according to any one of claims 1 to 7, wherein the separation space partitioning protruding portion to be welded is curved in the longitudinal direction. Manufacturing method. Separation plate-type centrifugal separator with separation space partition protrusions according to any one of claims 1 to 7, wherein the separation space partition protrusion parts to be welded are curved in a part of the longitudinal direction. Method of manufacturing the plate. Separation partition partition stone according to any one of claims 1 to 10, wherein the positioning cone has a conical face formed during the manufacturing process of the separating plate to which the positioning cone is applied. The manufacturing method of the separator plate for separator-type centrifuges provided with a rough part. The separation cone according to any one of claims 1 to 10, wherein the positioning conical surface uses at least a portion that is in close contact with the conical surface of the separation plate, which is formed in the manufacturing process of the separation plate. The manufacturing method of the separator plate for separator-type centrifuges provided with the space partition protrusion part. The separating plate type centrifuge separator of claim 1, wherein the positioning cone has a thickened peripheral edge of the positioning hole. Manufacturing method. The separation cone partition protrusion according to any one of claims 1 to 12, wherein the positioning conical surface is formed by thickly forming at least two longitudinal edges of the peripheral edge of the positioning hole. The manufacturing method of the separator plate for plate centrifuges. The separation plate for separation plate type centrifuge according to any one of claims 1 to 14, wherein the separation space partition protrusion part to be welded is formed by drilling a flat plate. Manufacturing method. The separation space partitioning projection portion according to any one of claims 1 to 14, wherein the separation space partitioning projection portion to be welded is formed by punching a flat plate and warping is provided in a strip-shaped longitudinal direction. The manufacturing method of the separator plate for separator type centrifuge provided with. 17. The method according to any one of claims 1 to 16, wherein the other side is gradually inserted from one end side of the strip-shaped separation space partitioning protruding part in a state in which the positioning cone is overlapped to overlap the conical surface of the separating plate. Spot welding is performed while inserting into the positioning hole, and the separation plate and the positioning conical surface for overlapping are integrally rotated about the axis of the cone, and the predetermined position set in the circumferential direction of the separation plate is fixed. Method for producing a separator plate for a separator plate-type centrifuge, wherein the separator compartment partition protrusion is integrally disposed at all predetermined positions of the separator plate while being rotated to a welding position of the welder. .

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