KR100943475B1 - Apparatus for excreting sludge - Google Patents

Abstract

PURPOSE: An apparatus for discharging sludge is provided to reduce load on a connecting rod and enhance entire sludge discharge efficiency. CONSTITUTION: An apparatus for discharging sludge comprises: a scrapper(10) mounted inside a silo; a cylinder(11) mounted outside the silo; a connecting rod(12) which connects cylinder side and scrapper side; and a rod housing(13) which is mounted at wall side of the silo and supports the connecting rod. The rod housing comprises: an inner housing supporting the connecting rod and an outer housing mounted at wall side of the silo.

Description

Sludge Discharge Device {Apparatus for Excreting Sludge}

The present invention relates to a sludge discharge device, and more particularly, to a sludge discharge device having a scraper that can effectively discharge the sludge stored in the silo.

In general, sludge for sewage treatment plant or water treatment plant is treated with sediment separated from water and then dewatered for final disposal.

The sludge thus produced is stored in a fixed place for drying or landfilling, and then the appropriate amount is taken out and used as needed.

For example, sludge, which is a sediment remaining after treating waste water, is produced in a place equipped with a water purification plant including a sewage treatment plant. The sludge produced is stored and stored in a storage tank for incineration or drying, and then an appropriate amount as needed. Sludge storage silos are used to store the sludge at this time.

The sludge storage silo is formed in a circular or quadrangular shape, and includes a separate sludge discharge device for preventing the sludge stored in the sludge and smooth discharge.

The sludge discharge device is a device for extending the life of the silo and using it more conveniently. The sludge discharge device is configured to efficiently remove the sludge accumulated on the cement or the bottom of the silo by using a separate sliding scraper.

As an example of such a sludge discharge device, Utility Model Registration No. 20-0325152 discloses a sliding scraper installed inside the silo, a cylinder installed outside the silo to move the sliding scraper, and installed inside the silo of the sliding scraper. Disclosed is a sludge discharge device including a lead screw or the like for discharging sludge supplied by a reciprocating motion to the outside.

However, the method of using the lead screw as a means for sludge discharge, as well as the sludge discharge efficiency is poor, the structure is complicated and difficult to check and take action in the event of mechanical failure, the silo operation, handling and management is difficult.

In order to solve this problem, Patent No. 10-0815083 proposes a "silo having a sludge scraper".

That is, the sleeve is installed to one side of the silo, and the rod housing and the scraper, to which the connecting rod is coupled, are respectively coupled around the sleeve, and the sludge is discharged while reciprocating the scraper through the operation of the cylinder coupled to the axis of the connecting rod. Sludge discharge device is proposed.

However, in the above sludge discharge device, it is not easy to match the straightness between the operation axis of the cylinder and the connecting rod and the operation axis of the scraper, and if the load is biased to either side during the forward and backward movement of the scraper, the rod chamber may be broken, In severe cases, there is a disadvantage in that the structural operation is not smooth, such as damage to the connecting rod.

In addition, the scraper for discharging the sludge consists of a structure that simply pushes the sludge in the same manner, and in the same condition, the reciprocating operation frequency is large, so that the sludge is inefficient for transporting the sludge and the reciprocating operation frequency is high. There is a disadvantage that leads to a shortened life.

Accordingly, the present invention has been made in view of the above, and has a spherical bearing means at the support portion of the connecting rod for connecting between the scraper side and the cylinder side, and an auxiliary connecting rod between the scraper side and the connecting rod. By implementing the new type of scraper driving method, it is possible to effectively absorb the up and down and left and right movements of the scraper, thereby eliminating the load on the connecting rod, thereby improving the overall operating performance and sludge discharge efficiency. The purpose is to provide a sludge discharge device.

In addition, the present invention can not only transport a large amount of sludge by improving the arrangement of the reinforcement provided in the frame structure of the scraper, but also ensure a smooth movement, as well as to increase the sludge emissions, and significantly extend the life of the scraper. Another object is to provide a sludge discharge device that can be used.

The sludge discharge device provided in the present invention to achieve the above object is a means for discharging the sludge stored in the silo, a scraper installed in the silo, a cylinder installed outside the silo, the cylinder side and the scraper side The connecting rod is installed on the wall surface of the silo, the rod housing for supporting the connecting rod, etc., the rod housing is formed in the inner housing and the outer wall of the silo connecting rod is supported through the outer The inner housing and the outer housing are combined inside and outside in a spherical coupling structure, and the entire inner housing including the connecting rod slides with respect to the outer housing to absorb vibrations of the scraper up and down and to the left and right. It is characterized by being able to.

Here, the sludge discharge device further includes an auxiliary connecting rod connected between the scraper and the connecting rod, wherein the rear end of the auxiliary connecting rod is fastened by a horizontal pin to the connecting rod side and at the same time, the auxiliary connecting rod side. And it is preferable to be connected to the connecting rod side through the connector fastened by the vertical pin.

In the case of the scraper, the main body is composed of a frame structure having a long rectangular frame structure, and a diamond-like reinforcement or a V-shaped reinforcement is provided inside the frame structure, so that a large amount of sludge can be smoothly carried. Do.

Sludge discharge device provided by the present invention has the following advantages.

First, the supporting means of the connecting rod improves the structure of the rod housing into a structure capable of spherical movement, and connects the auxiliary connecting rod between the scraper and the connecting rod, the vertical movement of the scraper through the spherical movement of the rod housing It can absorb and accept, thus improving the overall operating performance of the device, such as reducing the load on the connecting rod in relation to the movement of the scraper, and in addition, the overall sludge discharge efficiency of the device.

Second, by improving the arrangement of the reinforcement installed in the scraper frame structure to diamond or V-shape, it is possible to transport a larger amount of sludge and to facilitate the transport, thus significantly increasing the amount of sludge discharged. Of course, the life of the scraper can be further extended.

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

1 is a schematic view showing a silo in which a sludge discharge device is installed according to an embodiment of the present invention.

As shown in FIG. 1, a manhole means, an electronic measuring means, etc. are provided above the silo main body 100, and one side of the silo main body 100 includes a ladder for inspection and a discharge passage for discharging sludge. Is provided, and the screw 120 which is operated by the motor 110 or the like is installed below the silo body 100.

In the silo having such a structure, the components constituting the sludge discharge device 130, for example, the scraper 10, the cylinder 11, the connecting rod 12 and the auxiliary connecting rod 16, and the rod housing 13 The backs are installed on the inner and outer sides of the silo main body 100 and the walls, respectively.

For example, the scraper 10 is installed side by side above the screw 120 at the lower portion of the siler main body 100, and the cylinder 11 is installed in the same line on the outside of the siler main body 100. The cylinder 11 and the scraper 10 are connected by a connecting rod 12 and an auxiliary connecting rod 16 that penetrate the wall 140 of the siler body 100.

In addition, a rod housing 13 for supporting the connecting rod 12 is installed at the wall through portion of the siler main body 100.

Therefore, when the cylinder 11 is operated, the scraper 10 connected through the connecting rod 12 and the auxiliary connecting rod 16 reciprocates to smoothly discharge the sludge stored in the silo body 100. Can be.

Figure 2 is a front view showing a sludge discharge apparatus according to an embodiment of the present invention.

As shown in FIG. 2, the scraper 10 and the cylinder 11 are installed on the same line on the inside and outside of the silo main body 100 with the wall 140 interposed therebetween, and the rod and the scraper of the cylinder 11 are installed. An auxiliary connecting rod 16 and a connecting rod 12 penetrating horizontally through the wall are connected between the frame connecting portions 32 of the 10.

In addition, the connecting rod 12 is installed in a structure that horizontally penetrates the rod housing 13 installed on the wall, and is supported while receiving a slide guide in the rod housing 13 at this time.

In particular, the auxiliary connecting rod 16 is connected between the frame connecting portion 32 of the scraper 10 and the distal end of the connecting rod 12 in a pin structure, and moves up and down and left and right of the connecting rod 12 as well as itself. By doing so, the phenomenon in which the load is concentrated while the rod is concentrated to one place by the vertical movement of the scraper 10 can be eliminated.

That is, the sludge stored in the silo is neither liquid nor solid, and thus semi-solid, so that a lot of force is applied when agitating the sludge with the scraper 10, so that a large load is applied to the connecting rod 12 connected to the cylinder 11. These parts can be eliminated by employing the auxiliary connecting rod 16.

To this end, the front end of the auxiliary connecting rod 16 is connected to the frame connecting portion 32 of the scraper 10 in a pin structure, while the rear end of the auxiliary connecting rod 16 and the front end of the connecting rod 12. The connector 19 which is fastened through the horizontal pin 17 and the vertical pin 18, respectively, is connected therebetween.

That is, one end of the connector 19 is connected to the rear end of the auxiliary connecting rod 16 by a vertical pin 18, and the other end thereof is connected to the front end of the connecting rod 12 by a horizontal pin 17. .

Accordingly, when the scraper is operated, the horizontal pin 17 of the connector 19 induces vertical movement of the rod, and the vertical pin 18 induces left and right movement of the rod, so that the direction of the scraper 10 is reciprocated. Even if it is slightly distorted, it can actively cope with it, which can reduce the load on the load as much as possible.

In addition, since the auxiliary movement of the connecting rod 16 can cope with most of the abnormal movement of the scraper 10 while freely moving, it is necessary to accurately adjust the straightness between the operation axis of the cylinder and the connecting rod and the operation axis of the scraper. This lowering is sufficient to ensure the degree of freedom associated with the layout design between the scraper, the connecting rod and the cylinder.

Here, in the case of the connecting rod 12 and the auxiliary connecting rod 16, it is preferable to apply a high-frequency heat-treated product for strengthening its rigidity in relation to receiving a significant load or load during operation.

Figure 3 is an enlarged cross-sectional view showing a rod housing of the sludge discharge apparatus according to an embodiment of the present invention.

As shown in FIG. 3, here, a rod housing having a structure capable of absorbing the up and down and left and right vibrations of the scraper using a sliding action of a spherical surface is shown.

To this end, a tubular sleeve 30 is installed on the wall 140 of the silo body, and a rod housing having a combination of the outer housing 15 and the inner housing 14 on the outside of the sleeve 30. 13) is installed.

The outer housing 15 has a form in which two blocks are coupled to each other, and is fixedly installed on the sleeve 30 side, and an inner circumferential surface thereof is a concave spherical surface 31a having a predetermined curvature.

The inner housing 14 has a through hole in an axial line, and the inner side of the outer housing 14 using a convex spherical surface 31b having a predetermined curvature formed on the outer circumferential surface (same curvature as the spherical surface of the outer housing). Spheres are combined into a combined structure.

That is, the inner housing 14 and the outer housing 15 are coupled in a form that can be slid in a state in which spherical surfaces 31a and 31b are joined to each other.

In addition, O-rings 29 are interposed between the spherical surfaces 31a and 31b, respectively, to allow the sealing of the spherical surface to be contacted.

The connecting rod 12 is coupled to the inner housing 14 of the rod housing 13 in such a manner as to penetrate the axis, and the coupling portion at this time, that is, between the inner circumferential surface of the inner housing 14 and the outer circumferential surface of the connecting rod 12. A plurality of packings 21 are installed therein.

In addition, between the inner circumferential surface of the inner housing 14 and the outer circumferential surface of the connecting rod 12, a lubricating oil dispersing ring 22 is installed together with the packing 21, wherein the lubricating oil dispersing ring 22 is packed. It is located in the center serves to evenly distribute the lubricating oil supplied from the lubricating oil inlet 20 into the housing for smooth operation of the connecting rod 12 to both packing 21 side.

Accordingly, the connecting rod 12 coupled to the rod housing 13 side through the inner housing 14 has various sliding directions through a sliding motion by a spherical coupling structure between the inner housing 14 and the outer housing 15. It can be freely flow, and can eventually absorb the vibration of the scraper 10 in the vertical and horizontal directions by using this movement, it is possible to actively cope with the load applied in relation to the operation of the scraper.

In addition, a packing pusher 25 is provided as a means for preventing the packing 21 from being removed from the inner housing 14.

The packing pusher 25 is installed in the form of being fitted around the connecting rod 21, the flange portion is coupled to the inner housing 14 through the screw 23 is fastened in parallel with the axis, the flange at this time A spring 23 is interposed between the portion and the rear end nut of the screw 23.

Accordingly, the packing pusher 25 can prevent the packing 21 from being pulled out by using the tip portion partially entered into the inner housing 14 while receiving the elastic support of the spring 23.

4 and 5 are a front view and a plan view showing various examples of the scraper of the sludge discharge apparatus according to an embodiment of the present invention.

As shown in FIG. 4 and FIG. 5, the scraper is provided with a reinforcement having a predetermined shape.

Since a relatively large amount of force is applied when stirring the semi-solid sludge, deformation of the scraper may occur or breakage of the scraper may occur.

In order to compensate for this problem, the strength of the scraper can be increased by integrally forming the reinforcing material on the scraper.

To this end, the body of the scraper 10 is made of a frame structure 26 of a long rectangular frame shape made by weaving a square bar, etc., the rear end of the frame connecting portion for coupling to the auxiliary connecting rod 16 and the pin structure ( 32 is provided, and the overall length of the frame structure 26 is divided into sections by a plurality of auxiliary members connected in the width direction.

In particular, the inside of the frame structure 26 is provided with a diamond-shaped reinforcement 27 or V-shaped reinforcement 28 disposed in the partitioned area, wherein each of the reinforcement 27, 28 has its own diamond shape and The inside space obtained from the V shape is used to efficiently transport a large amount of sludge.

Such diamond-shaped reinforcement 27 or V-shaped reinforcement 28 is easier to transport sludge than conventional "X" or "/" type, and can reduce the production cost during manufacturing, and smoothly conveyed load during reciprocating motion Can reduce the life of the scraper.

In this way, by adopting a structure in which the sliding motion by spherical contact can be made to the rod housing portion, and adopting a structure in which the rod can be moved up and down and to the left and right to the connecting portion with the scraper side, It is possible to reduce the load on the rod as much as possible with respect to the movement of the scraper, which is subjected to high force at the time of stirring, and thus to ensure the stable and efficient operation performance of the entire component including the rod, thereby extending the endurance life of the components. It is also possible to improve the sludge discharge efficiency.

1 is a schematic diagram showing a silo in which a sludge discharge device is installed according to an embodiment of the present invention;

Figure 2 is a front view showing a sludge discharge apparatus according to an embodiment of the present invention

Figure 3 is an enlarged cross-sectional view showing a rod housing of the sludge discharge apparatus according to an embodiment of the present invention

4 is a front view and a plan view showing an example of the scraper of the sludge discharge apparatus according to an embodiment of the present invention

5 is a front view and a plan view showing another example of the scraper of the sludge discharge apparatus according to an embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

10: scraper 11: cylinder

12: connecting rod 13: rod housing

14: inner housing 15: outer housing

16: auxiliary connecting rod 17: horizontal pin

18: Vertical Pin 19: Connector

20: lube oil inlet 21: packing

22: Lubricant dispersion ring 23: Screw

24: spring 25: packing pusher

26 frame structure 27 diamond-shaped reinforcement

28: V type reinforcement 29: O-ring

30 sleeve 31a, 31b spherical surface

32: frame connection

Claims (6)

As means for discharging the sludge stored in the silo, a scraper 10 installed inside the silo, a cylinder 11 installed outside the silo, and a connecting rod 12 connecting the cylinder side and the scraper side And a rod housing 13 installed on the wall surface of the silo to support the connecting rod 12, wherein the rod housing 13 includes an inner housing 14 and a silo through which the connecting rod 12 is supported. It consists of an outer housing 15 which is installed on the wall surface side of the inner housing 14 and the outer housing 15 is combined with the inner and outer sides in a spherical coupling structure, the inner housing 14 including a connecting rod 12 Sludge discharge device, characterized in that the whole is able to absorb the vibration of the scraper up and down and left and right while sliding the outer housing (15). The method of claim 1, wherein the auxiliary connecting rod 16 is connected between the scraper 10 and the connecting rod 12, the rear end of the auxiliary connecting rod 16 is a horizontal pin 17 and the connecting rod side Sludge discharge device, characterized in that connected to the connecting rod (12) through the connector (19) fastened by the vertical pin (18) and the auxiliary connecting rod side. The inner housing 14 of the rod housing 13 is installed on an inner circumferential surface of the rod housing 13 to distribute the lubricating oil supplied from the lubricating oil inlet 20 to both packing 21 sides. Sludge discharge device characterized in that the lubricating oil dispersion ring 22 is provided. According to claim 1 or 2, Outwardly of the rod housing 13 is inserted into the connecting rod 12 and at the same time while being supported by a screw 23 fastened to the inner housing 14 to the spring 24 Sludge discharge device characterized in that the packing pusher 25 is elastically supported by. The sludge discharge apparatus according to claim 1 or 2, wherein the scraper (10) comprises a plurality of diamond-shaped reinforcements (27) integrally formed inside the frame structure (26) having a long rectangular frame structure. The sludge discharge apparatus of claim 1 or 2, wherein the scraper (10) includes a plurality of V-shaped reinforcements (28) integrally formed inside the frame structure (26) having a long rectangular frame structure.

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