KR102193025B1 - Horizontal centrifugal separators for screw conveyor size adjustment and wear response - Google Patents

Abstract

The present invention relates to a horizontal centrifugal separator capable of adjusting a size of a screw conveyor and coping with abrasion, which allows the screw conveyor to be used for a long time. According to the present invention, the horizontal centrifugal separator capable of adjusting the size of the screw conveyor and coping with the abrasion includes: a screw conveyor (20) including a rotation shaft part (21) having a hollow formed in an inner diameter portion of the rotation shaft part (21), a screw blade part (23) formed in a spiral shape, blade reinforcement supports (24) installed at regular intervals on an outer diameter portion of the screw blade part (23), and a reinforcing protrusion (26) protruding from the blade reinforcement support (24) so that reinforcement is performed with a longer length on one side; a size adjustment device (30) including a size adjustment reinforcement blade (30a) fixedly coupled to one side of the screw blade part (23); and a reinforcing member (50) formed on the size adjustment reinforcement blade (30a), and provided with a latching fixing protrusion (52) having a latching fixing groove (53) surrounding an outer diameter tip of the screw blade part (23).

Description

Horizontal centrifugal separators for screw conveyor size adjustment and wear response

The present invention relates to a horizontal centrifugal separator capable of adjusting the size of a screw conveyor and responding to abrasion, and in more detail, micro-solid particles contained in an undiluted solution generated in food waste and wastewater treatment plants and various chemicals and chemical plants are used by centrifugal force. In the process of phase centrifugation, the screw conveyor can be reinforced to be used, and the size (diameter) of the worn screw conveyor is adjusted to respond to abrasion, and the screw conveyor size adjustment and abrasion response are possible to ensure stable use while reinforcing for a long time. It relates to a horizontal centrifugal separator.

Solid-liquid centrifuges are installed for wastewater treatment in food waste treatment plants, livestock manure, and manure treatment plants. The solid-liquid centrifuge is composed of a wedge triangular network and a compression screw system to separate solids and liquids.

In order to separate liquids and solids such as wastewater sludge, a horizontal centrifugal separator in which a cylindrical horizontal portion and a conical portion having an inclination are integrally combined is used.

In a horizontal centrifugal separator, when the separated liquid is supplied to the input part of the rotating bowl, solids with high specific gravity are concentrated to the outside and relatively light liquids to the center due to a high centrifugal force field in the horizontal bowl immediately after supply. As a result, separation takes place.

In the bowl cone from which the solid cake is discharged, the centrifugal force is weakened because the distance from the center of rotation is small, and the light solid is floated in the circumference of the screw shaft and discharged as it is, resulting in an average increase in the moisture content of the solid.

Solids separated from the horizontal bowl slip while passing through the inclined surface of the conical bowl for discharging beyond the water level in the horizontal bowl, making it difficult to discharge. That is, since the shear force must be increased on the inclined surface of the bowl to lower the moisture content of the solid cake discharged, the rotational speed of the rotating bowl must be rotated at a higher speed than necessary, resulting in increased power consumption and relatively large equipment.

On the other hand, the solid-liquid separator is also referred to as a screw press dehydrator, and is configured to forcibly compress the screw with wastewater introduced into the wedge triangular network. Accordingly, the liquid is discharged through the wedge triangular net, and the sludge remaining in the net is compressed with a screw and dewatered. As such, the solid-liquid separator is a system for dewatering and discharging sludge for separating liquid and sludge.

Existing screw press systems pressurize liquid and sludge to dehydrate, so fine sludge can be forced out with the liquid through the mesh. This method takes a little work time to separate the solid-liquid, and the sludge recovery rate is poor, causing problems in the field operation.

In addition, in the process of centrifuging with pressure using the screw, the screw conveyor is easily worn, so maintenance and replacement costs increase due to the problem of frequent replacement of the screw conveyor in order to restore its normal function. There was a difficulty in deteriorating the separation function.

[Document 1] Utility Model Announcement No. 0173130 (1999. 125. 16. Announcement) [Document 2] Patent Registration No. 1010056 (registered on January 14, 2011) [Document 3] Utility model publication number 2018-0003179 (published on November 07, 2018) [Document 4] Patent Publication No. 2012-0026127 (published on March 16, 2012)

Therefore, the present invention was conceived to solve these conventional shortcomings, and the problem of the present invention is to prevent abrasion of the screw blade by further installing a blade reinforcing member and a reinforcing member at regular intervals with the outer diameter of the screw conveyor. It aims to do.

Another problem of the present invention is that the size (diameter) of the worn screw blade can be adjusted by allowing the screw conveyor to additionally install the size adjustment reinforcing blade along the circumferential direction, so that the worn size can be adjusted without replacing the screw conveyor. Its purpose is to make it usable for a long time through a corresponding function that adjusts to a corresponding size.

The present invention is installed in the inner diameter of the bucket, a hollow is formed in the inner diameter of a cylindrical rotating shaft, and a screw conveyor in which a screw blade is formed in a spiral shape in the circular diameter on the right side, and a main shaft rotating the screw conveyor is connected to a reduction device, and then a belt When the raw liquid supply pipe installed on the opposite side of the main shaft is connected to the raw liquid storage tank and supplies the raw liquid, the three phases are separated into sludge, heavy liquid and light liquid, and then separated and discharged through the sludge discharge pipe, the heavy liquid discharge pipe and the light liquid discharge pipe. The blade reinforcement to be installed at regular intervals on the outer diameter of the screw blade is made of a certain thickness so as to be formed in a "∩" shape, and is installed at regular intervals on the outer diameter of the screw blade to prevent the screw blade from being easily worn. The blade reinforcement is installed so as to be wrapped around the outer diameter of the screw blade at regular intervals and fixed to be integral by welding, and the reinforcing protrusion further protrudes on the opposite side of the cone shape in the drawing of the rotating shaft. But the reinforcement is made longer in;
The screw blades form installation holes at regular intervals,
A size adjusting device for fixing a size adjusting reinforcing blade having a fixing hole formed at regular intervals on one side of the screw blade portion and fixing the fixing bolt and a fixing nut at the installation hole and the fixing hole;
It is formed on the size-adjustable reinforcing blade, characterized in that consisting of a reinforcing member provided with a locking fixing protrusion formed with a locking groove surrounding the outer diameter tip of the screw blade.

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The present invention prevents abrasion of the screw blade by the rotation of the screw conveyor by installing additional blade reinforcements at regular intervals with the outer diameter of the screw conveyor, and improves the rigidity of the blade reinforcement, so that the screw conveyor can be used for a long time without replacing it. Is to provide.

In the present invention, the size (diameter) can be adjusted by the outer diameter of the worn screw blade by allowing the screw conveyor to additionally install the size adjustment reinforcing blade along the circumferential direction, so that the size adjustment reinforcing member is provided without replacing the screw conveyor. By adding a pad, it responds to abrasion while improving rigidity and provides an effect that can last longer.

1 is a system diagram of an installation state showing a preferred embodiment of the present invention
Figure 2 is a front cross-sectional view showing the installation state of the present invention
3 is a front view of the screw conveyor of the present invention
Figure 4 is a side view of the screw conveyor of the present invention
5 is an enlarged cross-sectional view of a main part of the screw blade of the present invention
Figure 6 is a side view showing a state in which the size adjusting device is separated from the screw blade of the present invention
7 is a side view showing a state in which the size adjusting device is coupled to the screw blade of the present invention
Figure 8 is a front view of a state in which the size adjusting device is installed on the screw blade of the present invention
9 is an enlarged cross-sectional view of the main part in a state in which the size adjusting device is installed on the screw blade of the present invention
10 is a front cross-sectional view of the size adjusting device of the present invention
11 is a side view of another embodiment in which the size adjusting device is separated from the screw conveyor of the present invention
Figure 12 is a side view of a state in which the size control device is installed on the screw conveyor of the present invention
13 is a front cross-sectional view of the screw conveyor of the present invention with a size adjusting device installed
14 is a front cross-sectional view of the size adjusting device of the present invention
15 is a front cross-sectional view of the reinforcing member separated state for the size adjusting device of the present invention
16 is an enlarged side view of the main part of the correction member installed in the size adjusting device of the present invention
17 is a front cross-sectional view of the integrated installation state for the size adjustment device of the present invention
18 is a cross-sectional front view of an integral type of the size adjusting device of the present invention
19 is an enlarged side view of the integral part of the size control device of the present invention

Hereinafter, the most preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

Figure 1 is a schematic diagram showing an installation state of the preferred embodiment of the present invention, Figure 2 is a front cross-sectional view showing the installation state of the present invention.

The centrifugal separator 10 allows centrifugation to be performed in a bucket 11 in which a cylindrical tube and a cone-shaped tube are combined, and an undiluted solution supply pipe 12a is installed in the center of the bucket 11 to provide an undiluted solution storage tank 12 ) To supply the undiluted solution.

In the drawing of the undiluted solution supply pipe 12a, a light liquid discharge pipe 42a such as oil is connected to the left bucket 11 to discharge the hard liquid into the hard liquid storage tank 42, and a heavy liquid discharge pipe on the right side of the hard liquid discharge pipe 42a It is installed so that the heavy liquid is discharged in the heavy liquid storage tank 41 by connecting (41a).

A screw conveyor 20 is installed in the inner diameter of the bucket 11, and a hollow is formed in the inner diameter of the rotating shaft portion 21 of the screw conveyor 20, and a space portion 17 is formed in the cone-shaped tube portion on the right side. The supply pipe 12a is connected to be installed to supply the undiluted solution.

A sludge discharge pipe 40a is formed on the right side of the space 17 to be installed so that the sludge is discharged to the sludge storage tank 40.

A sludge conveying conveyor is further installed at the lower side of the sludge discharge pipe 40a to move the sludge in an inclined manner so as to be installed to move and discharge into the sludge storage tank 40.

The screw conveyor 20 has a screw blade 23 protruding in a spiral manner, and the main shaft 16 at the right end is connected to the main motor 14 and the belt 14a through a reduction device 15 to be driven. , It is installed in a horizontal form on the lower body (13).

3 is a front view of the screw conveyor of the present invention, FIG. 4 is a side view of the screw conveyor of the present invention, and FIG. 5 is an enlarged cross-sectional view of a main part of the screw blade of the present invention.

The screw conveyor 20 has a screw blade part 23 on the outer diameter of the rotating shaft part 21 that fixes the screw-shaped screw blade part 23 with the outer diameter of the hollow rotating shaft part 21 and has the right end formed in a cone shape. It is installed, and is installed so as to pass through the hollow at the right end of the horizontal type of the rotary shaft 21 to be installed so that the undiluted solution is discharged.

The blade reinforcing bars 24 are installed at regular intervals on the outer diameter of the screw blade 23;

The blade reinforcement 24 is formed in a "∩" shape, and is installed at regular intervals on the outer diameter of the screw blade 23 to prevent the screw blade 23 from being easily worn, thereby enabling abrasion response. will be.

The blade reinforcing rod 24 is installed to be wrapped around the outer diameter of the screw blade 23 at regular intervals and fixed to be integral by welding, and the reinforcing protrusion 26 on the opposite side of the cone shape in the drawing of the rotating shaft part 21 Is to protrude more so that the reinforcement is made longer on one side.

Figure 6 is a side view showing a state in which the size adjusting device is separated from the screw blade of the present invention, Figure 7 is a side view showing a state in which the size adjusting device is coupled to the screw blade of the present invention, Figure 8 is the size of the screw blade of the present invention A front view of the state in which the adjusting device is installed, FIG. 9 is an enlarged cross-sectional view of the main part of the state in which the size adjusting device is installed on the screw blade of the present invention, and FIG. 10 is a front cross-sectional view of the size adjusting device of the present invention.

When the screw blade 23 is worn, physical properties cannot be separated normally, so the problem of having to be replaced with a new screw conveyor 20 is improved, and the inner diameter groove 38 surrounding the outer diameter of the rotating shaft 21 is formed. Installation holes 25 are formed on the blade 23 at regular intervals, and a size adjusting device 30 is installed on the outside thereof, so that the size of the outer diameter can be freely adjusted.

The size adjustment device 30 is to cover the size adjustment reinforcing blade (30a) consisting of an angle in the range of 45 to 90 °, and after the fixing holes 32 are formed at regular intervals to match the installation holes 25 It is fastened to be integral with the fixing bolt 33 and the fixing nut 34.

The size adjustment reinforcing blade (30a) further protrudes to the outer diameter of the screw blade portion (23) and protrudes to the outer diameter along the tip of the outer diameter, and then the reinforcing protrusion (31) protrudes to one side so that the shape to be bent becomes "a" As the wear of the product becomes slow, it is formed so that the wear response is possible.

A reinforcing member 50 is formed in which the locking fixing protrusion 52 in which the locking fixing groove 53 surrounding the outer diameter tip of the screw blade 23 is formed is integrally protruding in a "" type, and the locking fixing protrusion ( 52) to the outside of the outer diameter reinforcing rod 51 is formed between the reinforcing protrusions (31).

The size adjustment reinforcing blade (30a) can be installed by moving to further protrude to the outside when the tip is worn,

Adjusting the size by adjusting the installation position of the fixing hole 32 The size of the outer diameter can be freely adjusted by installing the reinforcing blade 30a to protrude further, and it can be used through the process of assembling continuously along the spiral. The outer diameter can be adjusted freely.

FIG. 11 is a side view of another embodiment in which the size control device is separated from the screw conveyor of the present invention, FIG. 12 is a side view of a state in which the size control device is installed on the screw conveyor of the present invention, and FIG. 13 is the size control of the screw conveyor of the present invention. A front sectional view with the device installed, Fig. 14 is a front sectional view of the size adjusting device of the present invention, Fig. 15 is a front sectional view of the reinforcing member separated state for the size adjusting device of the present invention, and Fig. 16 is a size adjusting device of the present invention It shows the enlarged side view of the main part of the correction member installed in the.

When the screw blade 23 is worn, physical properties cannot be separated normally, so the problem of having to be replaced with a new screw conveyor 20 is improved, and the inner diameter groove 38 surrounding the outer diameter of the rotating shaft 21 is formed. By installing a size adjusting device 30 on one side of the screw blade 23 on the blade 23, the size of the outer diameter can be freely adjusted.

The size adjustment device 30 is to cover the size adjustment reinforcing blade 30a formed at an angle in the range of 45 to 90°, protrudes further to the outer diameter of the screw blade 23 and protrudes to the outer diameter along the outer diameter tip and then bends. The reinforcing protrusion 31 protrudes to one side so that the shape becomes "a", so that the wear of the tip is slow, so that abrasion response is possible.

A reinforcing member 50 is formed in which the outer diameter reinforcing member 51 further protrudes in the outer diameter direction after the engaging fixing protrusion 52 in which the engaging fixing groove 53 surrounding the outer diameter tip of the screw blade 23 is formed protrudes. It becomes.

The outer diameter of the outer diameter reinforcing rod 51 is coupled to meet at the inner diameter of the reinforcing protrusion 31 and fixed to be integrally formed through the welding portion 36.

17 is a front cross-sectional view of an integral installation state of the size adjustment device of the present invention, FIG. 18 is a front cross-sectional view of the integrated size adjustment device of the present invention, and FIG. 19 is an enlarged side view of the integral part of the size adjustment device of the present invention. Is showing,

When the screw blade 23 is worn, physical properties cannot be separated normally. Therefore, the problem of having to be replaced with a new screw conveyor 20 is improved, and a size adjusting device 30 is installed on one side of the screw blade 23 to reduce the outer diameter. You can freely adjust the size.

The size adjustment device 30 is to cover the size adjustment reinforcing blade (30a) consisting of an angle in the range of 45 to 90°, and the screw blade part 23 in which the inner diameter groove 38 surrounding the outer diameter of the rotation shaft part 21 is formed. ) To the outer diameter of the screw blade 23 and protrude to the outer diameter along the outer diameter tip and then the reinforcing protrusion 31 protrudes to one side so that the bent shape becomes "a" shape, slowing the wear of the tip to respond to wear. It is to form this possible.

The reinforcing member 50 is integrally formed with the outer diameter reinforcing member 51 further protruding in the outer diameter direction after the engaging fixing protrusion 52 having the engaging fixing groove 53 surrounding the outer diameter tip of the screw blade 23 protrudes. It is formed by

In the present invention made of this configuration, the power transmitted to the belt 14a by driving the main motor 14 is reduced through the reduction device 15, and then the screw conveyor 20 rotates together with the main shaft 16. , The stock solution for separation stored in the stock solution storage tank 12 is supplied to the space part 17 through the stock solution supply pipe 12a.

The undiluted solution supplied to the space part 17 is moved to the outside of the rotating shaft part 21 by the rotation of the screw conveyor 20, and then the 3-phase undiluted solution is separated due to the difference in specific gravity according to the rotation of the screw blade part 23,

As the undiluted solution forms a layer on the inner surface of the bucket 11 in the order of sludge, heavy liquid, and light liquid through the rotation of the screw blade part 23, the heavy sludge with a heavy specific gravity is the direction in which the rotating shaft part 21 on the right side is formed in a cone shape. After being moved to the sludge discharge pipe (40a) is discharged to the sludge storage tank 40, or through a sludge conveying conveyor is supplied to the sludge storage tank 40 to be stored.

The heavy liquid with a specific gravity lighter than the sludge is moved to the left side of the bucket 11 and then supplied to the heavy liquid storage tank 41 through the heavy liquid discharge pipe 41a, and the light liquid with a specific gravity lighter than the heavy liquid is the heavy liquid discharge pipe on the left side of the bucket 11 It is moved further to the left than (41a) and is supplied to the hard liquid storage tank 42 through the hard liquid discharge pipe 42a.

The three-phase centrifugal separator as described above is capable of separating each stock solution having a different ratio (%) of the three phases into three phases through water level pressure control or the like.

While performing the three-phase separation as described above, when the screw conveyor 20 rotates and the screw blade portion 23 is gradually worn and the pressure is weakened, and the three-phase separation efficiency is lowered, a problem of having to be replaced with a new one occurs. 23), as shown in Figs. 2 and 3, if the "∩" type blade reinforcement 24 is welded and fixed at regular intervals, the blade reinforcement 24 is worn while rotating together with the screw blade 23. This is to provide a wear response effect that can take a very long replacement cycle as a result of the wear is delayed because the wear rate is further delayed by preventing the wear.

By further forming a reinforcing protrusion 26 in one direction of the blade reinforcing rod 24, the replacement period can be longer.

When the blade reinforcing rod 24 and the screw blade 23 are worn and can no longer be used, the installation holes 25 are formed in the screw blade 23 at regular intervals, and the size is adjusted to have an angle of 45 to 90°. The reinforcing blade (30a) is integrally formed through the fixing bolt (33) and the fixing nut (34) in a state in which fixing holes (32) are formed at regular intervals to match the installation holes (25) as shown in Figs. It is to be installed by performing the process of fixing in a spiral direction, and can be installed while freely adjusting the size (diameter) by adjusting the size and the position of the installation hole 25 and the fixing hole 32.

As described above, the screw conveyor 20 consisting of the size adjustment device 30 installed with the size adjustment reinforcing blade 30a is installed inside the bucket 11 and can be used for a long time until it wears out, so that the screw conveyor 20 It is possible to respond to wear that can significantly extend the replacement cycle.

In the process of using the screw conveyor 20, the size adjustment reinforcing blade 30a is formed with a “a”-shaped reinforcing protrusion 31 on one side of the outer diameter to further extend the wear period, and the size adjustment reinforcement When the blade (30a) is worn, the fixing bolt (33) and the fixing nut (34) are loosened to increase the fixing hole (32) or re-shape the size so that the reinforcing blade (30a) protrudes further outward. By adjusting it, you can use it more.

The reinforcing member 50 is installed on the size-adjustable reinforcing blade 30a, and the locking groove 53 surrounds the outer diameter of the screw blade 23, so that the screw blade 23 is more strongly fixed and abrasion is prevented. And, the outer diameter reinforcing rod 51 and the locking protrusion 52 are further protruded to the inner diameter of the reinforcing protrusion 31 to prevent abrasion due to size adjustment, and a wear response is possible.

On the other hand, the present invention, as shown in Figs. 11 to 16, when the blade reinforcement 24 and the screw blade 23 are worn and can no longer be used, the angle of 45 to 90 ° to the screw blade 23 Reinforcing the reinforcing member 50 to reinforce the gap between the screw blade 23 and the reinforcing protrusion 31 by connecting the reinforcing blade (30a) having a size adjustment along the spiral direction and surrounding the outer diameter of the tip of the screw blade (23). It can be installed while freely adjusting the size (diameter) by welding and fixing through the welding part 36 at the inner diameter of the protrusion 31.

As described above, the screw conveyor 20 consisting of the size adjusting device 30 in which the size adjusting reinforcing blade 30a is installed is installed inside the bucket 11 so that the outer diameter and the outer diameter reinforcing member 51 of the reinforcing member 50 and the Since the locking projection 52 can be used for a long time until abrasion is worn, the replacement cycle of the screw conveyor 20 can be significantly extended.

In addition, the present invention, as shown in Figs. 17 to 19, when the blade reinforcement 24 and the screw blade 23 are worn and can no longer be used, the angle of 45 to 90 ° to the screw blade 23 Reinforcing the reinforcing member 50 to reinforce the gap between the screw blade 23 and the reinforcing protrusion 31 by connecting the reinforcing blade (30a) having a size adjustment along the spiral direction and surrounding the outer diameter of the tip of the screw blade (23). It can be installed while freely adjusting the size (diameter) by welding and fixing through the welding part 36 at the inner diameter of the protrusion 31.

As described above, the screw conveyor 20 consisting of the size adjusting device 30 in which the size adjusting reinforcing blade 30a is installed is installed inside the bucket 11 so that the outer diameter and the outer diameter reinforcing member 51 of the reinforcing member 50 and the Since the locking projection 52 can be used for a long time until abrasion is worn, the replacement cycle of the screw conveyor 20 can be significantly extended.

In the present invention, the size of the outer diameter can be freely adjusted even after the "a"-shaped reinforcing protrusion 31 is worn by welding or integrally fixing the reinforcing member 50 to the reinforcing blade 30a, and the size is adjusted Afterwards, the outer diameter reinforcing rod 51 and the locking protrusion 52 of the reinforcing member 50 can be used while maintaining stiffness in response to abrasion until they are worn, and the state in which the size adjustment reinforcing blade 30a is combined is jammed. Since the fixing groove 53 surrounds the outer diameter of the screw blade part 23 and provides a fixed state, the reinforcing blade 30a of the size is firmly fixed in the circumferential direction so that the separation operation is performed through stable stirring.

The inner diameter groove 38 of the reinforcing blade 30a is installed while wrapping along the outer diameter of the rotating shaft part 21, and when the outer diameter is worn, the installed state is released to reinforce the size adjustment made at an angle in the range of 45 to 90°. It is used after moving the blade (30a) to the size required for driving by moving the blade (30a) outward, and further protruding to the outer diameter of the screw blade part (23) where the inner diameter groove (38) surrounding the outer diameter of the rotating shaft part (21) is formed. Even when the screw blade part 23 is protruded to the outer diameter, the outer diameter reinforcing rod 51 of the reinforcing member 50 remains on the size-adjustable reinforcing blade 30a, and the locking groove 53 is screwed. It is to provide an effect capable of responding to wear through a function of slowing wear while at the same time wrapping around the tip of the outer diameter of the blade 23 so that there is no difficulty in driving.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains can make various modifications without departing from the essential characteristics of the present invention. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

The present invention performs a process of three-phase separation through rotation of a screw conveyor by supplying an undiluted solution, and a reinforcing member is installed on the screw blade of the screw conveyor to delay wear to respond to abrasion, and a size adjustment reinforcement plate on the screw blade It is to provide a very useful invention that allows the screw conveyor to be used without changing its size by adjusting its position and fixing it.

10: centrifugal separator 11: bucket
12: undiluted solution storage tank 12a: undiluted solution supply pipe
13: main body 14: main motor
14a: belt 15: reduction device
16: main shaft 17: space
20: screw conveyor 21: rotating shaft portion
22: hollow 23: screw blade
24: blade reinforcement 25: mounting hole
26: reinforcing protrusion 30: size adjustment device
30a: size adjustment reinforcement plate 31: reinforcement protrusion
32: fixing hole 33: fixing bolt
34: fixing nut 36: welding part
40: sludge storage tank 40a: sludge discharge pipe
41: heavy liquid storage tank 41a: heavy liquid discharge pipe
42: hard liquid storage tank 42a: hard liquid discharge pipe
40: reinforcing member 51: outer diameter reinforcement
52: locking projection 53: locking fixing groove

Claims (7)

A screw conveyor 20 that is installed on the inner diameter of the bucket 11 and has a hollow formed in the inner diameter of the cylindrical rotating shaft 21 and the space 17 on the right side is formed in a spiral shape with a screw blade 23 in the circular diameter, and the After the main shaft 16 rotating the screw conveyor 20 is connected to the reduction device 16, it is connected to the main motor 14 through a belt 14a, and a stock solution supply pipe 12a installed on the opposite side of the main shaft 16 ) Is connected to the undiluted solution storage tank 12 to supply the undiluted solution, the three phases are separated into sludge, heavy liquid and light liquid, and then separated and discharged through the sludge discharge pipe 40a, the heavy liquid discharge pipe 41a and the light liquid discharge pipe 42a. , The blade reinforcement 24 installed at regular intervals on the outer diameter of the screw blade 23 is made of a constant thickness so as to be formed in a "∩" shape, and is installed at regular intervals on the outer diameter of the screw blade 23 so that the screw blade 23 The blade reinforcement 24 is installed so as to be wrapped around the outer diameter of the screw blade 23 at regular intervals and fixed to be integrated by welding, and the rotating shaft part ( In the drawing of 21), the reinforcing protrusion 26 is further protruded on the opposite side of the cone shape so that the reinforcement is made longer from one side;
The screw blade 23 forms installation holes 25 at regular intervals,
A fixed bolt 33 and a fixing nut at the installation hole 25 and the fixing hole 32 by combining a size-adjustable reinforcing blade 30a in which fixing holes 32 are formed at regular intervals on one side of the screw blade part 23 A size adjusting device 30 fixed to 34;
A screw, characterized in that it is formed on the size-adjustable reinforcing blade (30a) and comprises a reinforcing member (50) in which a locking projection (52) is installed in which a locking fixing groove (53) is formed that surrounds the outer diameter tip of the screw blade (23) Horizontal centrifugal separator capable of adjusting the size of the conveyor and responding to abrasion.
delete The method of claim 1,
The size adjustment reinforcing blade (30a) further protrudes to the outer diameter of the screw blade portion (23) and protrudes to the outer diameter along the tip of the outer diameter, and then the reinforcing protrusion (31) protrudes to one side so that the shape to be bent becomes "a" A horizontal centrifugal separator capable of adjusting the size of a screw conveyor and responding to abrasion, characterized in that it is formed to slow the wear of the screw conveyor.
The method of claim 1,
The size adjustment reinforcing blade (30a) is formed to have an angle of 45 to 90° and fixed to the screw blade portion (23) in a screw form, and an inner diameter groove portion (38) is formed in the inner diameter along the outer diameter of the rotating shaft portion (21). A horizontal centrifugal separator capable of adjusting the size of a screw conveyor and responding to abrasion, characterized in that it is fixed.
The method of claim 1,
The reinforcing member 50 protrudes so that the locking fixing protrusion 52 in which the locking groove 53 surrounding the outer diameter tip of the screw blade 23 is formed is integrally formed in a "" type, and the locking fixing protrusion 52 A horizontal centrifugal separator capable of adjusting the size of a screw conveyor and responding to abrasion, characterized in that the outer diameter reinforcing rod 51 is formed between the reinforcing protrusions 31 to the outside of the ).
The method of claim 1,
The reinforcing member 50 has an outer diameter reinforcing rod 51 protruding in the outer diameter direction after the engaging fixing protrusion 52 in which the engaging fixing groove 53 surrounding the outer diameter tip of the screw blade 23 is formed protrudes. A horizontal centrifugal separator capable of adjusting the size of a screw conveyor and responding to abrasion, characterized in that the outer diameter of 51) and the inner diameter of the reinforcing protrusion 31 are combined to meet each other and fixed by a welding part 36.
The method of claim 1,
The reinforcing member 50 has an outer diameter reinforcing rod 51 protruding in the outer diameter direction after the engaging fixing protrusion 52 in which the engaging fixing groove 53 surrounding the outer diameter tip of the screw blade 23 is formed protrudes. A horizontal centrifugal separator capable of adjusting the size of a screw conveyor and responding to abrasion, characterized in that it is formed integrally with the outer diameter of 51) and the inner diameter of the reinforcing protrusion 31.

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