KR102288702B1 - Blade pressurization device of circular sedimentation battery - Google Patents

Abstract

The present invention relates to a blade pressurizing device of a circular sedimentation tank. In a conventional circular sedimentation tank, the blade pressurizing device of a circular sedimentation tank according to the present invention forms a unit for elastically pressurizing a blade (A8) from a center cage (A7) formed in the circular sedimentation tank or a wall surface of the sedimentation tank. According to the present invention, damage of a blade can be prevented.

Description

Blade pressurization device of circular sedimentation battery

The present invention relates to a blade pressing device for a circular settling cell.

A circular sedimentation cell is a representative physical treatment facility that separates solid contaminants in treated water during various wastewater treatment processes.上等水) is composed of a device that selectively intakes water and discharges it.

More specifically, the circular sedimentation tank includes a sedimentation tank (A) formed in a circular shape as shown in FIG. 1; a bridge (A1) installed on the upper end of the settling tank (A); a holding pipe (A2) that is installed from the middle of the bottom of the bridge (A1) to the center of the bottom of the settling tank (A); an outlet hole (A3) which is opened in the upper part of the holding pipe (A2) to drain the treated water; an inlet pipe (A4) connected to the bottom of the holding pipe (A2) to introduce treated water into the holding pipe (A2); a hopper (A5) for collecting sludge which is depressed to a certain depth in the center of the bottom of the settling tank (A) and settles from the treated water; an outlet pipe (A6) connected to the hopper (A5) for discharging the precipitated sludge; a center cage (A7) which is installed on the outside of the holding pipe (A2) and rotates; a driving device (M) connected to the center cage (A7) from the bridge (A1) to rotate the center cage (A7); a blade (A8) connected to the bottom of the settling tank (A) from the lower part of the center cage (A7) to agitate the treated water; a scraper (A9) installed at the lower end of the blade (A8) to collect the sludge deposited on the bottom of the settling tank (A); A rectifying tube (A10) installed on the upper portion of the center cage (A7) to guide the treated water discharged to the outlet hole (A3) to flow downward;

These circular sedimentation tanks supply treated water through an inlet pipe, and the supplied treated water flows downward from the upper center through an outlet hole and a rectifying tube. They aggregate and settle in the form of sludge on the bottom, and the sedimented sludge is collected in a hopper by the inclined bottom shape of the settling tank and a scraper, and the collected sludge is treated for purification according to the principle that it is discharged through an outlet pipe.

However, the conventional circular settling cell has a problem in that when the sludge is excessively accumulated on the bottom of the settling tank, the blade rises by the buoyancy force, and the scraper climbs while lifting the sludge without being able to scrape it.

This is because the sludge is scraped with a scraper using the gravity of the blade while the blade is suspended from the center cage.

For reference, the following prior art literature is a list of four recent prior art documents searched for with "circular sedimentation cell" as a keyword through Patent Information Net Cypris. and background technology and its development status.

Korean Patent Registration Publication 1018375750000 Korean Patent Registration Publication 1008859280000 Korean Patent Registration Publication 2004377260000 Korean Patent Registration Publication 1020332850000

The present invention has been developed to solve the problems of the prior art mentioned in the background art, and in particular, it is an object of the present invention to solve the problem of preventing the injury of the blade.

The present invention limits the means for elastically pressing the blade from the wall surface of the center cage or settling basin as a means for solving the problem.

According to the means of the present invention, there is an effect of preventing the blade from being injured by elastically pressing the blade from the center cage or the wall surface of the settling tank. It has a collectible effect.

1 is an exemplary view of the prior art;
2 is an exemplary view of the present invention;
3 is an enlarged view showing the first elastic pressing means in FIG.
4 is an enlarged view showing the second elastic pressing means in FIG.
5 is an enlarged view showing the third elastic pressing means in FIG.
6 is an enlarged view showing a fourth elastic pressing means that can be employed instead of FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings may be exaggerated, omitted, or schematically shown for the convenience of explanation regarding the main parts, and terms and names used in the description are impliedly defined by the shape, action, role, etc. of the configuration rather than the dictionary meaning. It can be done, and the description of the direction is determined based on the first presented direction from the first presented drawing, and the description of the position is determined based on the center of each component or the center of the circle. In addition, detailed descriptions of pre-registered known technologies and conventional technologies may obscure the gist and are omitted or replaced with simple symbols or names. In addition, the specific structure, shape, shape, arrangement, size, etc. of the configuration that can be identified through the drawings, the operation of the configuration that can be inferred through the drawings, and the effect thereof may also obscure the subject, so detailed description will be omitted. In addition, bolts, welding parts, holes, etc. applied for coupling between components may obscure the point and may be omitted from the drawing. , in this case, the plan view may be omitted.

Hereinafter, the present invention will be described with reference to FIG. 1 as follows.

The present invention is a settling tank (A) formed in a circular shape as shown in FIG. 1; a bridge (A1) installed on the upper end of the settling tank (A); a holding pipe (A2) that is installed from the middle of the bottom of the bridge (A1) to the center of the bottom of the settling tank (A); an outlet hole (A3) which is opened in the upper part of the holding pipe (A2) to drain the treated water; an inlet pipe (A4) connected to the bottom of the holding pipe (A2) to introduce treated water into the holding pipe (A2); a hopper (A5) for collecting sludge which is depressed to a certain depth in the center of the bottom of the settling tank (A) and settles from the treated water; an outlet pipe (A6) connected to the hopper (A5) for discharging the precipitated sludge; a center cage (A7) which is installed on the outside of the holding pipe (A2) and rotates; a driving device (M) connected to the center cage (A7) from the bridge (A1) to rotate the center cage (A7); a blade (A8) connected to the bottom of the settling tank (A) from the lower part of the center cage (A7) to agitate the treated water; a scraper (A9) installed at the lower end of the blade (A8) to collect the sludge deposited on the bottom of the settling tank (A); It is based on a circular settling cell consisting of a rectifying tube (A10) installed on the upper portion of the center cage (A7) to guide the treated water discharged to the outlet hole (A3) to flow downward.

below, Figure 2 inside Figure 6 The present invention will be described with reference to the following.

As shown, the present invention is characterized in that the means for elastically pressing the blade (A8) from the center cage (A7) of the conventional circular settling tank or the wall surface of the settling tank is configured.

In this way, as described in the effect of the invention, by elastically pressing the blade (A8) from the center cage (A7) or the wall surface of the settling tank, there is an effect that can prevent the injury of the blade (A8), and thereby Even if the sludge is excessively accumulated on the floor, there is an effect that the scraper A6 can scrape the sludge without climbing.

More specifically,

The means for elastically pressing the blade (A8) is largely a first pressing means ( 10); a second pressing means 20 utilizing a connection joint of a connecting rod YL that is connected to the lower portion of the center cage A7 and the inner upper surface of the blade A8 configured in the conventional circular settling cell; A third pressing means 30 utilizing between the outer end of the blade (A8) from the lower wall surface of the conventional circular settling cell; Or the fourth pressing means 40; may be configured.

First, the first pressing means 10 is a center cage on the upper surface of the hinge connection bracket (HB) connected to the lower end of the center cage (A7) and the inner end of the blade (A8), as shown in the figure. It may consist of a configuration in which an elastic member TB is installed so as to press the hinge connection bracket HB of the blade A8 from the hinge connection bracket HB of (A7), in which case the elastic member TB is shown It may be made of a leaf spring as shown.

This has the effect of being able to pressurize the blade (A8) from the center cage (A7) in the simplest way.

Next, the second pressing means 20 is a connecting rod instead of a connecting joint of the connecting rod (YL) that is connected to the inner upper surface of the lower part of the center cage (A7) and the inner upper surface of the blade (A8) configured in the conventional circular settling cell as shown In the middle of (YL), an insertion tube (SG) inserted so as to be mutually expandable and contractible is formed from the inner ends of both rods, and the connection rod (YL) of the center cage (A7) is inserted inside the insertion tube (SG). It may consist of a configuration in which an elastic member TB is installed so as to push the connecting rod YL of the blade A8 from the SG to the insertion tube SG, in which case the elastic member TB is a coil spring as shown. can be made with

In this way, since it is possible to press the middle of the blade (A8), there is an effect of improving the pressing force compared to applying the elastic member (TB) to the above-described hinge connection bracket (HB).

Next, the third pressing means 30 constitutes the contact disk JW so that the upper surface of the outer end of the blade A8 configured in the conventional circular settling cell is connected to the circumference as shown, and the contact disk JW. A plurality of mounting brackets (JB) are configured on the lower wall surface of the settling basin along the circumference of the upper surface, and a wheel (BQ) that is rolled in contact with the contact disk (JW) from the bottom of the inner end of the mounting bracket (JB) is configured, Connect between the mounting bracket (JB) and the wheel (BQ) with the lifting shaft (SC) so that the wheel (BQ) can be raised and lowered from the mounting bracket (JB). It is possible to configure the insertion tube (SG) that is inserted so as to be mutually expandable and contractible from the wheel (BQ) and press the wheel (BQ) from the mounting bracket (JB) to the inner lifting shaft (SC) of the insertion tube (SG). It may be of a configuration in which an elastic member (TB) is installed, and the elastic member (TB) may be formed of a coil spring as shown.

In this way, since it is possible to press the end of the blade (A8), there is an effect that the pressing force is further improved than that of applying the elastic member (TB) to the above-described insertion tube (SG).

Next, the fourth pressing means 40 constitutes a mounting bracket (JB) inclined in the upper outward direction from the outer end of the blade (A8) configured in the conventional circular settling tank as shown, and the A contact disc (JW) inclined in the downward direction along the circumference of the lower wall surface is constituted, and a wheel (BQ) that is rolled in contact with the inclined part of the contact disc (JW) from the inclined part of the outer end of the mounting bracket (JB) is formed. and connect the lifting shaft (SC) between the mounting bracket (JB) and the wheel (BQ) so that the wheel (BQ) can be raised and lowered in the inclined direction from the mounting bracket (JB), and on the outer surface of the lifting shaft (SC) The insertion tube (SG) is configured to be mutually expandable from the mounting bracket (JB) and the wheel (BQ), and the wheel (BQ) is installed from the mounting bracket (JB) to the inner lifting shaft (SC) of the insertion tube (SG). It may be made of a configuration in which an elastic member (TB) that can be pressed is installed, and the elastic member (TB) may be formed of a coil spring as shown.

In this way, instead of configuring the contact disk (JW) on the blade (A8) like the third pressing means (30), the contact disk (JW) is configured in the settling basin (A) to press the end of the blade (A8). Therefore, there is an effect that the installation of the contact disk JW is easier compared to the third pressing means 30 described above.

On the other hand, the fourth pressing means 40 that can be applied instead of the first, second, and third pressing means or the third pressing means 30 may be any one or both or both depending on the size of the applied circular settling cell. and the pressing force is superior to the second pressing means 20 than the first pressing means 10, and the third pressing means 30 and the fourth pressing means 40 are superior to the second pressing means 20, and all It is most powerful when hired.

In the above, the description of the present invention is finished, and the present invention is to help the understanding of the principle of the configuration to be pursued in the present invention and the specific components included in the configuration and the configuration of the present invention, and the drawings The structure, form, shape, arrangement, direction, and quantity are determined in consideration of the principle to be pursued, and the configuration included in the present invention and its specific components can be variously changed as needed. There will be. The configuration and specific components thereof presented in the present invention illustrate the effects that those of ordinary skill in the art want to achieve in the present invention and what principle is most preferable to apply in order to obtain better effects from the effects. did it Accordingly, the present invention is most preferably completed by including all of the above-described configurations, but it can be completed by selecting or excluding some of the configurations described above according to cost reduction, manufacturing convenience, environmental conditions, or necessity. , it is also possible to separate one or a part of a component and merge it with another component to complete it. In addition, each configuration described above may be independently applied to other technical fields other than this technical field in consideration of principles, uses, functions, roles, actions, effects, and the like. Based on this, the scope of the present invention is specified in the scope that encompasses the claims of the present invention as follows, and claims are made in order from the claims having broad rights. It seems that the gist to be pursued in the present invention can be sufficiently grasped through one specific content and the claims to be described below, and the effects of the parts that are illustrated but not described will be sufficiently inferred through the drawings. Accordingly, those skilled in the art will be able to apply various modifications and changes in this technical field based on the contents mentioned in the present invention, thereby further increasing the efficiency of use as well as the development of this technical field.

Claims (2)

In a typical circular sedimentation cell,
Including a means for elastically pressing the blade (A8) from the center cage (A7) or the wall surface of the settling tank configured in the circular settling tank,
The means for elastically pressing the blade (A8),
The hinge connection bracket of the blade (A8) from the hinge connection bracket (HB) of the center cage (A7) to the upper surface of the hinge connection bracket (HB) connected to the lower end of the center cage (A7) and the inner end of the blade (A8) ( HB) a first pressing means (10) installed with an elastic member (TB) so as to be pressed;
In the middle of the connecting rod (YL) connected to the lower part of the center cage (A7) and the inner upper surface of the blade (A8), the insertion tube (SG) is inserted so as to be mutually stretchable from the inner ends of both rods, and the insertion An elastic member TB is installed inside the tube SG to push the connection rod YL of the blade A8 from the insertion tube SG of the connection rod YL of the center cage A7 to the insertion tube SG a second pressing means 20;
A contact disk (JW) is formed so that the upper surface of the outer end of the blade (A8) is connected, and a plurality of mounting brackets (JB) are formed on the lower wall of the settling basin (A) along the circumference of the upper surface of the contact disk (JW). and constitutes a wheel (BQ) that is rolled in contact with the contact disk (JW) from the bottom of the inner end of the mounting bracket (JB), and a mounting bracket (BQ) so that the wheel (BQ) can be raised and lowered from the mounting bracket (JB) JB) and the wheel (BQ) are connected with the lifting shaft (SC), and the insertion tube (SG) is inserted into the outer surface of the lifting shaft (SC) from the mounting bracket (JB) and the wheel (BQ) so as to be mutually elastic. and a third pressing means (30) having an elastic member (TB) installed on the inner lifting shaft (SC) of the insertion tube (SG) from the mounting bracket (JB) to press the wheel (BQ); Or constitute a mounting bracket (JB) inclined in the upper outward direction from the outer end of the blade (A8), and constitute a contact disk (JW) inclined in the lower direction along the circumference of the lower wall surface of the settling basin (A), and the A wheel BQ that is rolled in contact with the inclined portion of the contact disk JW from the inclined portion of the outer end of the mounting bracket JB is formed, and the wheel BQ can be moved up and down from the mounting bracket JB in an inclined direction. An insertion tube (SG) is connected between the mounting bracket (JB) and the wheel (BQ) with the lifting shaft (SC), and is mutually expandable from the mounting bracket (JB) and the wheel (BQ) on the outer surface of the lifting shaft (SC). ), and a fourth pressing means (40) having an elastic member (TB) installed on the inner lifting shaft (SC) of the insertion tube (SG) from the mounting bracket (JB) to press the wheel (BQ) ;
A blade pressurizing device of a circular settling cell comprising any one or two or more. delete

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