KR101599972B1 - Centrifugal separator for an overall wastes processing equipment with injection pump for the enhancement of process efficiency and capacity - Google Patents

Abstract

The present invention relates to a filtration apparatus for filtration which is connected to a bottom discharge pipe of a cyclone to which a filtrate for primary treatment of a contaminant by a rotary screen and a screw dehydrator is supplied, The present invention relates to a centrifugal separator for ultimately separating fine contaminants such as fine particles from a filtrate. More particularly, the present invention relates to a centrifugal separator having an inlet pump on the inlet side of an inlet of a centrifugal separator, It is possible to prevent the clogging of the filtrate passage provided by the inlet pipe of the lower end discharge pipe and the centrifugal separator of the cyclone and the overflow phenomenon of the resulting filtrate, Cylinder components are accumulated in the injection space inside the screw pipe rotating at low speed Not only the overload phenomenon is prevented but also the filtrate can be supplied uniformly by the injection pump. Thus, it is possible to increase the processing efficiency and the processing capacity of the fine impurities by the centrifugal separator and to improve the smoothness of the impurity collecting processor including the centrifugal separator And to reduce the processing time and the processing cost of the impurities to a maximum extent and reduce the amount of the impurities.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a centrifugal separator for an integrated treatment apparatus,

The present invention relates to a filtration apparatus for filtration which is connected to a bottom discharge pipe of a cyclone to which a filtrate for primary treatment of a contaminant by a rotary screen and a screw dehydrator is supplied, The present invention relates to a centrifugal separator for ultimately separating fine contaminants such as fine particles from a filtrate. A centrifugal separator is provided with a feed pump on the inlet side of the centrifugal separator, To a centrifugal separator for an impregnated comprehensive treatment apparatus capable of forcibly supplying a filtrate in a sludge state to the inside of a centrifugal separator.

In recent years, due to the increase in the urban population and the increase in the size of the livestock farmers, a large amount of waste water, wastewater, manure, and livestock wastewater are generated, and due to such waste water, domestic wastewater, manure, Contamination of groundwater, rivers and coastal waters is not only serious but also has a bad influence on the formation of a comfortable living environment due to odor generated from wastewater, domestic sewage, manure, and livestock wastewater.

In the case of manure and livestock wastewater, separate purification facilities are provided for each area and are managed and treated at the governmental level. However, in the case of livestock wastewater, the concentration of suspended solids (SS) is 20,000 ~ 25,000 ppm, So as to treat the manure and the livestock wastewater more efficiently, various kinds of impurities are removed from the collected manure and livestock wastewater, and the resulting liquid is filtered into a liquid filtrate having a low suspended concentration. Then, It is sent to the final purification facility to be processed.

In order to separate the manure or livestock wastewater into filtrate and impurities as described above, the filtrate is subjected to primary impurity treatment by the rotary screen and screw dehydrator from manure or livestock wastewater fed into the apparatus housing, The filtrate is pumped with a cyclone and divided into a seed removal screen and a centrifugal separator so as to remove fine contaminants such as seeds, animal hair and flesh components contained in the filtrate, (Patent Registration No. 10-0880270) by the applicant of the present invention.

In the present invention, the cyclone performs a function of primarily separating fine contaminants, including seeds, animal hair, and flea, by their specific gravity difference, The heavy fine contaminants are precipitated into the inner bottom side of the cyclone and then formed into a sludge state together with the filtrate to be introduced into the centrifugal separator. In the case of the prior art, the inlet pipe of the centrifugal separator is directly connected to the lower outlet pipe of the cyclone The filtrate in the sludge state stored in the inner lower part of the cyclone was introduced into the centrifuge by dropping method.

However, when the filtrate of the sludge state is introduced into the centrifugal separator by using the falling method as described above, not only the feeding rate of the filtrate becomes very slow, but also the input amount of the filtrate is kept constant by various external factors And there is a problem that the treatment efficiency and the treatment capacity of the microbubbles using the centrifugal separator are significantly lowered.

In particular, since the filtrate passage provided by the lower outlet pipe of the cyclone and the inlet pipe of the centrifugal separator frequently clogs by the firing components, the filtrate stored in the cyclone unnecessarily overflows, It becomes a factor to increase the overall processing time and the processing cost of the impurity by the impurity concentration processor.

In addition, due to the low input pressure, the firing components are continuously accumulated in the input space inside the screw pipe rotating at a low speed in the centrifugal separator, resulting in an overload of the centrifugal separator due to an increase in the axial load, It is also difficult to smoothly and economically operate the impregnated comprehensive processor due to the breakdown and the repair or maintenance work.

Korean Patent No. 10-0880270

In order to solve the problem of the centrifugal separator included in the above-mentioned prior art, the present invention provides a centrifugal separator in which an inlet pump is provided on the inlet side of the inlet of the centrifugal separator, and a filtrate in the sludge state, It is possible to prevent the clogging of the filtrate passage provided by the inlet pipe of the lower discharge pipe and the centrifugal separator of the cyclone and the overflow phenomenon of the filtrate resulting therefrom and the input of the inside of the screw pipe rotating at a low speed It is possible to prevent the overload phenomenon which is caused by accumulation of the particulate matters in the space and also to enable rapid and uniform quantitative supply of the filtrate by the injection pump so as to increase the treatment efficiency and the treatment capacity of the fine contaminants by the centrifugal separator , And the centrifugal separator, it is possible to ensure the smooth operation of the impregnated comprehensive processor, And to reduce and save the time and the processing cost as much as possible.

In addition, the present invention is characterized in that the suction pipe of the injection pump is connected to the lower side of the body of the cyclone, the discharge pipe of the injection pump is connected to the inlet pipe of the centrifugal separator, and the suction pipe is provided with a filter And an injector connected to the lower end discharge pipe of the cyclone is installed in the discharge pipe to prevent minute contaminants having a low specific gravity such as seeds or animal hair from flowing into the centrifugal separator, , It is possible to prevent the impeller of the pump from being worn and to secure the service life of the pump by minimizing the direct inflow of the fines component into the feed pump during the pumping process of the filtrate. The second technical problem is to make it possible.

Finally, the present invention is characterized in that, in addition to forming an outlet hole in the inlet space inside the screw pipe where the outlet side of the inlet pipe is located, an auxiliary outlet hole is additionally formed on the side of the screw pipe corresponding to the previous position of the inlet space So that it is possible to escape to the outside of the screw pipe through the auxiliary outflow hole without accumulating in the inner space of the screw pipe the extruded component pushed out from the input space along the penetration portion of the injection pipe, The outer cylinder and the inner screw pipe of the centrifugal separator rotate together with the planetary gear reducer so as to prevent the overload phenomenon of the centrifugal separator due to the increase of the load, By operating the load breaker, a planetary gear reducer is included Is that in order to prevent the damage or failure of the centrifugal separator also advance to the aspect of claim 3.

The present invention as a means for solving the above-mentioned problems is characterized in that the injection pipe is connected to the lower end discharge pipe of the cyclone to which the filtrate to be subjected to the primary treatment of the impurities is supplied via the rotary screen and the screw dehydrator, Wherein a screw pipe having a conveying screw is inserted into a cylindrical body cylinder, and the screw pipe is inserted into the cylindrical body cylinder. The centrifugal separator according to claim 1, A cylinder shaft receiving power of a driving motor and a cylinder shaft corresponding to an input portion of a planetary gear reducer are connected to both ends of the main cylinder, respectively, and pipe supporting shafts are provided at both ends of the screw pipe, A space is provided by a pair of partition walls, A screw reduction shaft extending through a center portion of the cylinder shaft is connected to an output side of the planetary gear reducer at one side pipe support shaft of the screw pipe, and the injection pipe passes through the center portion of the other cylinder shaft, the pipe support shaft, And a discharge port is formed in a screw pipe corresponding to the periphery of the charging space, and a filtrate discharge port and a fine discharge port are formed in both sides of the main cylinder, A suction port of the pump is connected to a discharge port of a pump including a pump motor and an impeller casing, the suction port of the pump is connected to a lower discharge pipe of the cyclone, and a suction pipe extending from a lower discharge pipe of the cyclone is connected And the discharge port of the charging pump is connected to the inlet pipe of the centrifugal separator And the suction pipe is connected to a lower side body of the cyclone at a higher position than the lower discharge pipe, and the suction pipe is provided with a cartridge filter mechanism for filtering foreign matters including a seed component The injector is connected to a lower end discharge pipe of the cyclone, and an auxiliary discharge hole is formed in the portion of the screw pipe between the pipe support shaft through which the injection pipe passes and the partition wall. .

delete

On the other hand, the planetary gear reducer is a two-stage speed reducer having a primary reduction gear and a secondary reduction gear, and the primary reduction gear and the secondary reduction gear are engaged with the primary sun gear, the secondary sun gear and the corresponding sun gear Wherein the first planetary gear and the second planetary gear are rotatably mounted on a gear holder of a first reduction gear and a second reduction gear, And the primary sun gear of the primary reduction gear is connected to an operation shaft serving as an operating means of the load breaker, and the primary sun gear of the primary reduction gear is connected to the primary sun gear of the primary reduction gear Wherein the gear holder is connected to a secondary sun gear of a secondary reduction gear by a transmission shaft, the external rotation drum is connected to a cylinder axis of a main cylinder, and a gear holder of the secondary reduction gear is connected to a screw pipe A link lever for supporting a lower end of the switch lever; an elastic case connected to one end of the link lever; And a limit switch provided so as to be in contact with the other end of the link lever, wherein the elastic case includes a pipe-shaped spring holder, a pipe-shaped holder cap which is assembled to be slidably movable along the spring holder, And the coil spring is inserted into the spring holder and the holder cap. The link lever is angularly moved about the link shaft while compressing the coil spring of the elastic case when the switch lever is rotated by the operation shaft .

delete

According to the present invention as described above, the filtrate in the sludge state stored in the inner lower part of the cyclone is pumped into the centrifugal separator, thereby causing clogging of the filtrate passage, overflow phenomenon of the filtrate resulting therefrom, It is possible to prevent the accumulation of overload phenomenon and also to provide a rapid and uniform quantitative supply of the filtrate, thereby increasing the treatment efficiency and the treatment capacity of the fine contaminants by the centrifugal separator, It is possible to ensure smooth operation of the integrated processor and to reduce the processing time and the processing cost of the contaminants to the utmost.

In addition, since the firing component is mixed with the filtrate through the injector at the position past the discharge port of the injection pump, the amount of the fines component introduced into the injection pump is minimized in the pumping process of the filtrate, thereby preventing the impeller of the pump from being worn So that the service life of the feed pump can be sufficiently ensured. In addition, since the firing component pushed out from the feed space along the feed pipe is not accumulated in the inner space of the feed pipe, The overload phenomenon of the centrifugal separator due to an increase in the axial load of the screw pipe can be more reliably prevented.

In addition, when the centrifugal separator is overloaded and the deceleration function by the planetary gear reducer is not developed, the inner-side screw pipe and the outer-side main cylinder of the centrifugal separator rotate together with the planetary gear reducer, The lever-type load breaker associated with the operation shaft stops the operation of the centrifugal separator by operating the limit switch, thereby providing a very useful effect such as preventing the damage or failure of the centrifugal separator including the planetary gear reducer will be.

1 is a first use state view of the present invention.
FIG. 2 is a sectional view of the main part of the injection pump applied to FIG. 1; FIG.
3 is a second use state diagram of the present invention.
4 is a third use state diagram of the present invention.
Fig. 5 is a rear view of Fig. 4; Fig.
Fig. 6 is a schematic view of another embodiment of the injection pump. Fig.
7 is a cross-sectional side view of a part of a centrifugal separator according to the present invention.
Fig. 8 is a cross-sectional view of the main part of Fig. 7; Fig.
9 is a side sectional view of the planetary gear reducer;
Fig. 10 is a rear view of Fig. 7 showing the structure of the load breaker; Fig.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a state in which the centrifugal separator 10 according to the present invention is installed in the contaminant collective processor 1 of the present invention. The contaminant collective processor 1 has a rotary screen 2 The screw extruder 3 and the cyclone 6 as well as the seed removal screen 7 and the centrifugal separator 9 and the filtrate reservoir 4 and the filtrate discharge tank 8 are connected to the centrifugal separator 10, And are integrated and installed inside and outside the apparatus housing 1a.

The rotary screen 2 and the screw dehydrator 3 are disposed inside the inlet of the apparatus housing 1a so that the rotary shaft 2 and the screw dehydrator 3 are disposed at the inlet side of the apparatus housing 1a. The filtrate reservoir 4 is disposed on the lower side of the rotary screen 2 and the screw dehydrator 3 and the filtrate transfer pump 5 is provided on the wall side of the filtrate reservoir 4, And the screw extruder 3 are operated by the power of the screen motor 2a and the screw motor 3a provided in the apparatus housing 1a.

The seed removing screen 7 and the centrifugal separator 10 of the present invention and the cadmium discharger 9 and the filtrate discharge chamber 8 are sequentially arranged on the rear side of the apparatus housing 1a along the upward and downward directions The cyclone 6 is connected to the filtrate transfer pump 5 by the filtrate transfer pipe 5a while being disposed at the upper side of the rear end of the device housing 1a and the upper discharge pipe 6a, And is connected to the seed removal screen 7 and the centrifugal separator 10 of the present invention by the lower discharge pipe 6b.

The lower end side filtrate discharge pipe 7b of the seed removal screen 7 is disposed in the upper side inlet of the screw dehydrator 3 and the lower end side filtrate discharge pipe 7b of the seed removal screen 7 is disposed in the filtrate discharge tank 8, The filtrate discharge pipe 10a of the centrifugal separator 10 is also connected to the filtrate discharge tank 8 and the discharge pipe 10b of the centrifugal separator 10 is connected to the centrifugal discharge device 9 , And an exhaust pipe (7c) of odor is connected to the part of the apparatus housing (1a) where the seed removing screen (7) is built.

The centrifugal separator (1) according to the present invention, which is provided in the pre-treatment apparatus (1) for separating contaminants containing fines and the like from the filtrate in the sludge state discharged from the cyclone (6) (10) is a first main part in which the structure of the input part is improved so that the filtrate in the sludge state stored in the inner lower part of the cyclone (6) can be forcibly introduced into the centrifuge (10).

1, the discharge port of the pump 20 including the pump motor 21 and the impeller casing 22 is connected to the inlet of the centrifugal separator 10 at the inlet of the centrifugal separator 10, And the suction port of the injection pump 20 is connected to the lower end discharge pipe 6b of the cyclone 6. [

2, an impeller casing 22 is mounted on the upper end of a pump motor 21, and a pump motor 21 is mounted in the impeller casing 22, A suction port 22a through which the lower end discharge pipe 6b of the cyclone 6 is connected is provided on the upper side of the impeller casing 22 and an impeller 24 connected to the impeller casing 22 Is provided with a discharge port 22b to which the discharge pipe 11 of the centrifugal separator 10 is connected.

3 shows a state in which a different type of injection pump 20 is mounted on the inlet pipe 11 of the centrifugal separator 10. The injection pump 20 shown in Figs. 1 and 2 is mounted on the impeller casing 22, The inlet port 22a and the outlet port 22b of the impeller casing 22 form an angle of 90 degrees while the inlet port 20 and the outlet port of the impeller casing 22 shown in FIG. The rest of the configuration is the same except for the differences.

When considering the arrangement state of the cyclone 6 and the centrifugal separator 10 in the prior art inclusion complex treatment apparatus 1, the shape of the injection pump 20 shown in FIG. It is more reasonable to apply the injection pump 20 of the injection pump 20. It is also possible to provide a separate bracket for supporting the injection pump 20 in the apparatus housing 1a if necessary.

4 and 5 are views showing a state in which the introduction pump 20 of the centrifugal separator 10 including the injection pump 20 is connected to the pipeline connection system so that the injection pump 20 can be disposed on the clearance space of the rough- A suction pipe 25 extending from the lower end discharge pipe 6b of the cyclone 6 is connected to the suction port 22a of the discharge pump 20 and the discharge port 22b of the discharge pump 20 A discharge pipe 26 extending from the charging pipe 11 of the centrifugal separator 10 is connected.

5, the seed removing screen 7 and the centrifugal separator 10 of the present invention are provided with a screen motor 7d and a driving motor 12 installed on the rear side of the apparatus housing 1a, And an overflow pipe 6c extending to the filtrate reservoir 4 side is additionally connected to the upper end of the cyclone 6. The injection pump 20 is connected to the filtrate discharge tank 8 In the interior of the clearance space provided on the rear side of the vehicle.

The screw emitter 9 is a screw conveyor type emitter in which a conveying screw (not shown) is inserted into a cylindrical pipe which is inclined upward, and at the upper end thereof, a screw shaft 9b of a conveying screw A motor 9a is provided and a ceca outlet 9c for discharging fine contaminants (such as fine particles) transferred along the conveying screw is provided on the body side of the ceca emitter 9.

The seed removing screen 7 and the seed removing screen 6 may be connected to the upper discharge pipe 6a and the lower discharge pipe 6b of the cyclone 6 only when necessary such as repairing and maintenance of the impregnated comprehensive processor 1, A shutoff valve 27 is provided to shut off the supply of the filtrate through the centrifugal separator 10 and the exhaust pipe 7c is connected to the deodorizing device or the contaminant collecting processor 1 And a deodorizing device provided separately from the deodorizing device.

6 shows another embodiment of the inlet piping structure of the centrifugal separator 10 including the injection pump 20. The suction pipe 25 is located at a position higher than the lower end discharge pipe 6b The suction pipe 25 is provided with a cartridge filter mechanism 25a for filtering foreign substances including a seed component and the discharge pipe 26 is provided with a nozzle- An injector 26a is installed and the lower end discharge pipe 6b of the cyclone 6 is connected to the injector 26a.

According to the piping structure of the inlet portion of the centrifugal separator 10 as described above, it is possible to prevent fine contaminants having a low specific gravity such as seeds or animal hairs from flowing into the centrifuge 10, So that the amount of the fines flowing directly into the injection pump 20 is minimized during the pumping process of the filtrate to prevent the impeller 24 from being worn out The service life of the dosing pump 20 can be sufficiently secured.

In other words, in a process in which the filtrate component forcibly fed into the centrifuge 10 through the discharge pipe 26 is injected at a high speed through the injector 26a according to the operation of the injection pump 20, The lean component precipitated in the inner bottom portion of the cyclone 6 along the lower end discharge pipe 6b connected to the position is sucked toward the injector 26a side, And then supplied to the feed pipe 11 of the centrifugal separator 10.

The filter mechanism 25a provided in the suction pipe 25 is a typical example in which the filter pipe 25c is inserted into the pipe-shaped filter casing 25b. However, The filter casing 25b can be detachably assembled to the suction pipe 25 by using a flange jointing method so that the filter pipe 25c So that it is possible to easily carry out a cleaning or replacement work.

The shutoff valve 27 includes a valve body 28 disposed at the lower end of the cyclone 6, a valve plate 28a slidably inserted along the valve body 28, A valve screw 29 rotatably connected to one end of the valve plate 28a and a valve bracket 29 connected to the lower end of the cyclone 6 to support the screw movement of the valve screw 29 27a and a rotary knob 29a at an end of a valve screw 29 extending through the valve bracket 27a.

The above-mentioned slide-type plate-type valve can reduce the installation space as much as possible compared to a general butterfly valve or a ball valve which opens and closes a valve passage by rotating a circular or spherical valve body, The shutoff valve 27 (see FIG. 5) installed in the upper discharge pipe 6a of the cyclone 6 is also provided with a slide plate type It is desirable to apply a valve.

7 and 8, a centrifugal separator 10 according to the present invention has a screw pipe 16 having a delivery screw 16a inside a cylindrical main body cylinder 14, The body portion on the front side (the right side in the figure) of the body cylinder 14 has a tapered cylindrical shape, the body portion on the rear side (left side in the drawing) has a round cylindrical shape, In connection with this structure, the main discharge port 14c is provided at the distal end side of the main cylinder 14, and the filtrate discharge port 14b is provided at the end side thereof.

A cylinder shaft 14a to which a driven pulley 12b is mounted is connected to the tip end side of the main body cylinder 14 and the driven pulley 12b is driven by a drive motor 12 And the main cylinder 14 is rotatable by the power of the drive motor 12. The rear end of the main cylinder 14 is connected to the input portion of the planetary gear reducer 18 And a bearing unit 15 for supporting the rotation of the main cylinder 14 is mounted on each cylinder shaft 14a.

A pipe support shaft 16b is provided at both sides of the screw pipe 16 and an insertion space 17 formed by a pair of partitions 17a is provided in the center side of the screw pipe 16, A screw reduction shaft 18a extending through the center of the cylinder shaft 14a at the output portion of the planetary gear reducer 18 is connected to the pipe support shaft 16b on the rear side (left side in the figure) of the screw pipe 16, Respectively.

Therefore, the rotation speed of the main cylinder 14 by the drive motor 12 is reduced to a predetermined ratio, for example, about 40.5: 1 through the planetary gear reducer 18, and the reduced rotation speed is transmitted to the screw reduction shaft 18a to the screw pipe 16 so that the screw pipe 16 having the feed screw 16a rotates at a different speed from the main cylinder 14 to separate the filtrate and the fine contaminants, Corresponds to a known technique which is essentially applied to the centrifugal separator 10.

The injection pipe 11 in which the injection pump 20 is mounted on the inlet side passes through the center of the cylinder shaft 14a and the pipe support shaft 16b and the partition wall 17a on the front side And the sludge pumped from the cyclone 6 is discharged to the outside of the screw pipe 16 in the screw pipe 16 corresponding to the periphery of the charging space 17, A plurality of outflow holes 17b are formed.

In addition, the centrifugal separator 10 is installed on the support bracket 13b provided on the apparatus housing 1a. The support bracket 13b is provided with a main body casing 13 for protecting the main cylinder 14 And the decanter casing 13a for protecting the planetary gear reducer 18 are installed in the main casing 13. The filtrate discharge pipe 10a and the decanter discharge pipe 10b of the centrifugal separator 10, And a support pipe support base 11a is additionally provided on the support bracket 13b corresponding to the tip end side of the injection pipe 11. [

The centrifugal separator 10 according to the present invention is characterized in that the inlet pump 20 is mounted on the inlet side of the inlet pipe 11 and the filtrate in the sludge state from the cyclone 6 to the inlet space 17 of the screw pipe 16 The supply speed and the supply pressure of the filtrate to the input space 17 become very high compared to the free-fall supply method as in the centrifugal separator of the prior art.

This eliminates the accumulation of particulate matter and the like in the injection space 17 and allows the sludge filtrate to be quickly discharged to the outside of the screw pipe 16 through the outflow hole 17b, It is possible to provide the advantages of improving the processing efficiency and the processing performance of the fine contaminants due to the high feed pressure of the filtrate, There is a high possibility that the firing component or the like may be pushed into the internal space of the screw pipe 16 corresponding to the above-

As described above, the injection pipe 11 is divided into the internal space of the screw pipe 16, that is, the space corresponding to the right side of the injection space 17 in FIGS. 7 and 8, along the portion penetrating the partition wall 17a. The centrifugal force of the screw pipe 16 is gradually increased and finally the centrifugal separator 10 is overloaded and incapable of operating.

In order to compensate for the disadvantages caused by the application of the injection pump 20 as described above, the supplementary outflow hole (not shown) is formed in the portion of the screw pipe 16 corresponding to the transfer space 17 16c so as to smoothly discharge the fine particulate component pushed along the portion through which the charging pipe 11 passes through the partition wall 17a to the outside of the screw pipe 16 through the auxiliary discharging hole 16c.

It is preferable that at least two auxiliary outflow holes 16c are formed in the form of a long hole within a range not to hinder the installation of the feed screw 16a, It is preferable that the portion of the protruding portion 17a is formed so as to be convexly protruded toward the injection tube 11 side as shown by a dotted line in Fig. 8 so as to compensate for the wear phenomenon caused by the collision with the firing component.

9 shows a planetary gear reducer 18 used in the centrifugal separator 10 of the present invention. The planetary gear reducer 18 includes a first reduction gear 34 and a second reduction gear 35 And the primary reduction gear 34 and the secondary reduction gear 35 are connected to a primary sun gear 34b and a secondary sun gear 35b and at least two or more primary planetary gears 35a, (34a) and a secondary planetary gear (35a).

The primary planetary gear 34a and the secondary planetary gear 35a are rotatably mounted on the gear reducers 34c and 35c of the primary reduction gear 34 and the secondary reduction gear 35, (Right side in the drawing) and a rear side (left side in the figure) of the outer rotary drum 36. The primary ring gear 36a and the secondary ring gear 36b are fixed to the inner peripheral surface of the drum 36, And a cylinder shaft 14a of the main cylinder 14 is connected to the front drum cover 38. The drum cover 38 is connected to the front side drum cover 38,

The rear side drum cover 38 is provided with an operation shaft 18b for supporting the operation of the primary reduction gear 34. The operation shaft 18b is connected to the primary sun gear And the gear holder 34c of the first reduction gear 34 is connected to the second sun gear 35b of the second reduction gear 35 by a transmission shaft 37, The gear holder 35c of the speed reducer 35 is connected to the pipe support shaft 16b of the screw pipe 16 by the screw reduction shaft 18a.

When the main cylinder 14 and the external rotary drum 36 connected thereto are rotated in accordance with the operation of the driving motor 12, the primary ring gear 36a of the external rotary drum 36 is engaged with the primary ring gear 36a of the primary rotary gear 36a, The gear 34a of the primary reduction gear 34 rotates along the periphery of the primary sun gear 34b to rotate the gear holder 34c of the primary reduction gear 34. As a result, And the second sun gear 35b connected to the transmission shaft 37 are rotated so that the second planetary gear 35a engaged with the sun gear is rotated along the second ring gear 36b, The gear holder 35c of the secondary reduction gear 35 connected to the screw reduction shaft 18a is rotated together with the screw reduction shaft 18a.

The rotation speed of the main body cylinder 14 rotated by the power of the drive motor 12 is controlled at a constant rate via the planetary gear reducer 18 in accordance with the operation of the primary reduction gear 34 and the secondary reduction gear 35, And is transmitted to the screw pipe 16 connected to the screw decelerating shaft 18a which is decelerated and the axial load of the screw pipe 16 is increased or the foreign matter is caught between the conveying screw 16a and the main cylinder 14 If the centrifugal separator 10 is overloaded due to the same factors, the deceleration function by the planetary gear reducer 18 is not developed.

If the above-mentioned overload state is left unchanged, the respective gear parts constituting the planetary gear reducer 18 are worn or damaged to cause failure or malfunction of the centrifugal separator 10, so that such a situation can be prevented in advance A lever-type load breaker 19 is provided on the operation shaft 18b in a state in which the operating shaft 18b extends outwardly through the rear-side drum cover 38 of the planetary gear reducer 18 .

10, the load breaker 19 includes a switching lever 30 connected to the operating shaft 18b of the planetary gear reducer 18 and a switching lever 30 connected to the lower end of the switching lever 30, A telescopic case 32 connected to one end of the link lever 31 and a limit switch 33 provided to be in contact with the other end of the link lever 31 .

The elastic case 32 includes a pipe-shaped spring holder 32a, a pipe-shaped holder cap 32b which is slidably movably assembled along the spring holder 32a, And a coil spring 32c inserted into the holder cap 32b so that the holder cap 32b is connected to the link lever 31 while the spring holder 32a is connected to the centrifuge 10, And the coil spring 32c starts to be compressed only when a load of 45 kg or more acts on the coil spring 32c.

The link lever 31 is provided so as to be angularly movable about a link shaft 31a fixed on the support bracket 13b and the lower end of the link lever 31 is supported by the elastic force of the coil spring 32c A stopper pin 31b for preventing the link lever 31 from being pushed is fixedly mounted on the support bracket 13b and the limit switch 33 is provided at a position corresponding to the opposite side of the elastic case 32, Is fixedly mounted on the support bracket (13b) so as to be in contact with the support bracket (31).

Therefore, when the centrifugal separator 10 is overloaded and the deceleration function by the planetary gear reducer 18 is not developed, the planetary gear reducer 18 and the screw pipe 16 rotate together with the main cylinder 14 The switching lever 30 connected to the operating shaft 18b of the planetary gear reducer 18 compresses the coil spring 32c of the expansion and contraction casing 32 while pushing the link lever 31 in the leftward direction The link lever 31 operates the limit switch 33 to interrupt the power supply to the drive motor 12 for the centrifugal separator 10. [

According to the present invention as described above, the feed pump 20 is installed in the input portion of the centrifuge 10, and the filtrate in the sludge state stored in the lower inside of the cyclone 6 is forcedly supplied into the centrifuge 10 It is possible to prevent the phenomenon of clogging of the filtrate passage and the overflow phenomenon of the filtrate and the overload phenomenon which is caused by accumulation of the filamentous component in the inside of the screw pipe 16 and also to supply the filtrate quickly and uniformly do.

This makes it possible to increase the processing efficiency and the processing capacity of the fine contaminants by the centrifugal separator 10 compared with the conventional case in which the filtrate of the sludge state stored in the cyclone 6 is supplied in a dropping manner, 10, the processing time and the processing cost of the impurities can be shortened and saved as much as possible.

In addition, when the input part structure in which the firing component is mixed with the filtrate through the injector 26a at the position past the discharge port 22b of the charging pump 20 is applied, The amount of direct introduction into the pump 20 can be minimized, so that wear of the impeller 24 for the pump can be prevented and the service life of the dosing pump 20 can be sufficiently secured.

By forming the auxiliary outlet hole 16c on the side of the screw pipe 16 corresponding to the position before the filtrate injection space 17, So that the component can escape to the outside of the screw pipe 16 through the auxiliary outflow hole 16c without accumulating in the inner space of the screw pipe 16. As a result, The overload phenomenon of the separator 10 can be prevented more reliably.

In addition, when the centrifugal separator 10 is overloaded and the deceleration function of the planetary gear reducer 18 is not developed, the inner screw pipe 16 and the outer main cylinder (not shown) of the centrifugal separator 10 14 is rotated together with the planetary gear reducer 18 and the lever type load breaker 19 connected to the operating shaft 18b of the planetary gear reducer 18 operates the limit switch 33 to rotate the centrifugal separator 10 The centrifugal separator 10 including the planetary gear reducer 18 can be prevented from being damaged or broken down.

1: Contamination integrated processor 1a: Device housing 1b, 11: Input pipe
2: Rotary screen 2a, 7d: Screen motor 3: Screw dehydrator
3a: screw motor 4: filtrate reservoir 5: filtrate transfer pump
5a: Filtrate piping 6: Cyclone 6a: Upper discharge pipe
6b: Lower discharge pipe 6c: Overflow pipe 7: Seed removal screen
7a: a contaminant discharge port 7b, 10a: a filtrate discharge pipe 7c:
8: Filtrate discharge tank 9: Fountain discharging device 9a: Discharge motor
9b: screw shaft 9c, 14c: fountain outlet 10: centrifugal separator
10b: a three-cylinder discharge pipe 11a: a supply tube support 12: a drive motor
12a: drive pulley 12b: driven pulley 12c: electric belt
13: main body casing 13a: reducer casing 13b: support bracket
14: main cylinder 14a: cylinder shaft 14b: filtrate outlet
15: bearing unit 15a: bearing 16: screw pipe
16a: Feed screw 16b: Pipe support shaft 16c: Secondary outflow hole
17: input space 17a: partition wall 17b:
18: planetary gear reducer 18a: screw reduction shaft 18b: operating shaft
19: load breaker 20: input pump 20a: pump pedestal
21: pump motor 22: impeller casing 22a: inlet
22b: Discharge port 23: Drive shaft 24: Impeller
25: suction pipe 25a: filter mechanism 25b: filter casing
25c: filter pipe 26: discharge pipe 26a: injector
27: shutoff valve 27a: valve bracket 28: valve body
28a: valve plate 29: valve screw 29a: rotary knob
30: switch lever 31: link lever 31a: link shaft
31b: stopper pin 32: elastic case 32a: spring holder
32b: holder cap 32c: coil spring 33: limit switch
34: primary reduction gear 34a: primary planetary gear 34b: primary sun gear
34c, 35c: gear holder 35: second reduction gear 35a: second planetary gear
35b: secondary sun gear 36: external rotating drum 36a: primary ring gear
36b: Second ring gear 37: Transmission shaft 38: Drum cover

Claims (5)

delete delete delete The feed pipe 11 is connected to the lower end discharge pipe 6b of the cyclone 6 to which the filtrate having undergone the primary treatment of the impurities is supplied through the rotary screen 2 and the screw dehydrator 3 while the cyclone 6 (10) for separating fine contaminants, including fine particles, from the filtrate in the sludge state flowing through the inlet pipe (11) from the filtrate, wherein the centrifugal separator (10) A cylinder shaft 14a for receiving the power of the drive motor 12 is connected to both side ends of the main cylinder 14 and a planetary gear mechanism And a cylinder shaft 14a corresponding to an input portion of the speed reducer 18 are connected to the pipe support shaft 16b at both side ends of the screw pipe 16, An input space 17 by a pair of partition walls 17a is provided A screw reduction shaft 18a extending through a central portion of the cylinder shaft 14a is connected to an output portion of the planetary gear reducer 18 at one side of the pipe support shaft 16b of the screw pipe 16, The injection pipe 11 extends to the inside of the charging space 17 through the central portion of the other cylinder shaft 14a and the pipe support shaft 16b and the partition wall 17a and is provided at the periphery of the charging space 17 An outlet hole 17b is formed in the corresponding screw pipe 16 and a filtrate discharge port 14b and a helix discharge port 14c are formed on both sides of the main cylinder 14,
A discharge port 22b of a pump 20 including a pump motor 21 and an impeller casing 22 is connected to the discharge pipe 11 of the centrifugal separator 10, (22a) is connected to the lower end discharge pipe (6b) of the cyclone (6)
A suction pipe 25 extending from the lower end discharge pipe 6b of the cyclone 6 is connected to the suction port 22a of the discharge pump 20 and a discharge port 22b of the discharge pump 20 is connected to a centrifugal separator A discharge pipe (26) extending from an inlet pipe (11) of a compressor (10)
The suction pipe 25 is connected to the lower side body of the cyclone 6 at a position higher than the lower end discharge pipe 6b and the suction pipe 25 is provided with a cartridge filter A mechanism 25a is provided,
A nozzle-shaped injector 26a is installed in the discharge pipe 26 and a lower discharge pipe 6b of the cyclone 6 is connected to the injector 26a.
And an auxiliary outlet hole 16c is formed in a portion of the screw pipe 16 between the pipe supporting shaft 16b through which the inlet pipe 11 passes and the partition wall 17a. Thereby increasing the treatment efficiency and the treatment capacity of the centrifugal separator. The planetary gear reducer according to claim 4, wherein the planetary gear reducer (18) is a two-stage speed reducer having a first speed reducer (34) and a second speed reducer (35) built therein, and the first speed reducer (34) Is composed of a primary sun gear 34b, a secondary sun gear 35b and at least two primary planetary gears 34a and a secondary planetary gear 35a meshing with the corresponding sun gear,
The primary planetary gear 34a and the secondary planetary gear 35a are rotatably mounted on the gear reducers 34c and 35c of the primary reduction gear 34 and the secondary reduction gear 35, A first ring gear 36a fixed to the inner peripheral surface of the drum 36, and a second ring gear 36b,
The primary sun gear 34b of the primary reduction gear 34 is connected to an operation shaft 18b serving as an operating means of the load breaker 19 and the gear holder 34c of the primary reduction gear 34 And is connected to the secondary sun gear 35b of the secondary reduction gear 35 by a transmission shaft 37,
The outer rotary drum 36 is connected to the cylinder shaft 14a of the body cylinder 14 and the gear holder 35c of the secondary reduction gear 35 is fixed to the screw pipe 16a by the screw reduction shaft 18a. The pipe support shaft 16b is connected to the pipe support shaft 16b.
The load breaker 19 includes a switching lever 30 connected to the operation shaft 18b, a link lever 31 for supporting the lower end of the switching lever 30, And a limit switch 33 installed to be in contact with the other end of the link lever 31,
The elastic case 32 includes a pipe-shaped spring holder 32a, a pipe-shaped holder cap 32b which is slidably movably assembled along the spring holder 32a, And a coil spring 32c inserted in the holder cap 32b,
The link lever 31 is angularly moved around the link shaft 31a while compressing the coil spring 32c of the expansion and contraction case 32 when the switching lever 30 is rotated by the operation shaft 18b And a centrifugal separator for treating an impurity intensive treatment apparatus, wherein the treatment efficiency and the treatment capacity are increased by attaching a pump to the inlet.

Images