KR101030315B1 - A roof structure of sludge mixing tank - Google Patents

Abstract

PURPOSE: A roof for a sludge mixing tank is provided to maintain the height of the roof and prevent the damage of the roof regardless of the subsidence of the ground around the sludge mixing tank. CONSTITUTION: A main body(10) is located on the upper side of a sludge mixing tank. A plurality of supporting beams is installed to the lower side of the main body by crossing through the sludge mixing tank. A plurality of elevating units elevates the main body by being installed between the main body and the supporting beams. The main body is composed of a base plate(11), a hinge bracket, and a plurality of covering plates(13).

Description

Roof of sludge mixing tank {A ROOF STRUCTURE OF SLUDGE MIXING TANK}

The present invention relates to a roof installed in a sludge mixing tank for collecting and storing sludge from wastewater and sewage collected in a sewage treatment plant, and more particularly relates to a roof structure opened and closed by lifting and lowering.

Wastewater and sewage (hereinafter referred to as "sewage") discharged from ordinary household sewage or various industrial sites are collected in sedimentation sites and screen rooms of sewage treatment plants, and suspended matter and sediment are removed from these settlements and screen rooms. Sewage is fed to the initial settling basin.

In the first sedimentation basin, sewage is sedimented and removed by retaining collected wastewater for a long time, and the sludge-free sewage is fed to a bioreactor.

The bioreactor is composed of denitrification tank, aeration tank, anoxic tank, aeration tank, etc., and the sewage is passed through each of these reactors in order to remove organic matter in the sewage, and then the sewage is supplied to the final sedimentation basin and finally the sludge is once again. It is removed and discharged.

On the other hand, the sludge collected in each of the first settling basin and the final settling basin is fed to the sludge mixing tank, after which the sludge is concentrated, dehydrated and discharged in the thickening tank.

At this time, in the sludge mixing tank, the sludge stays for a long time, and a large amount of methane gas and odor are generated and released into the atmosphere.

Therefore, conventionally, the roof (cover) is covered on the upper part of the sludge mixing tank so that methane gas emitted from the sludge mixing tank is not discharged to the outside, and pipes are installed inside the roof to collect methane gas through the piping. .

By the way, such a conventional sludge mixing tank roof is not provided with a device that can be opened by itself is opened by using a crane, etc. For this reason, there is an inconvenience of periodically opening the roof of the mixing tank manually.

In addition, when the roof is lifted by force by using a crane or the like as described above, there is a problem in that the roof is mainly made of FRP material, which is easily damaged, and the damaged roof becomes another industrial waste to generate environmental waste. there is a problem.

Accordingly, Korean Patent No. 10-0960002 (Roofing Unit for Sliding Sludge Mixing Tank, which is capable of lifting and lowering the roof unit installed in the sludge mixing tank) has been developed.

The technology is a roof plate 110 is mounted on the upper portion of the sludge mixing tank 100, as shown in FIG. A plurality of support plates installed around the bottom of the roof plate 110; Located on the bottom of the support plate is composed of a plurality of lifting device 120 for lifting the support plate.

In the sludge mixing tank roof unit disclosed in the document, a plurality of lifting devices 120 are separately installed around the sludge mixing tank 100 embedded in the ground to support the support plate of the roof plate 110, and also the lifting device The roof plate 110 is lifted by elevating the supporting plate by driving of the 120. In this case, it is practically impossible not only to make the height of the ground on which the elevator 120 is installed to be the same height, but also the roof plate 110. There is a problem that the ground supporting the elevating device 120 is settled by the load of.

Therefore, before installing the elevating device 120, there is a hassle of additional foundation construction or additional floor structures to reinforce the ground, and also the plurality of elevating devices 120 installed at the same height to control the height of the roof. Since there are many difficulties in keeping the plate 110 horizontal, in fact, during the lifting of the roof plate 110, distortion occurs in the roof plate 110, which causes cracks in the roof plate 110 and breaks. There is a problem.

Therefore, the present invention is to improve the problems of the conventional sludge mixing tank roof as described above, the present invention does not affect the height of the roof even if the ground around the sludge mixing tank is settled, moreover, the roof is separated into a plurality produced An object of the present invention is to provide a roof for a sludge mixing tank that operates smoothly even if the height of the elevating unit is not kept the same.

An object of the present invention as described above is a roof, the main body located on top of the sludge mixing tank; A plurality of support beams positioned below the main body and installed across the sludge mixing tank; Is provided between the main body and the support beam is composed of a plurality of lifting unit for lifting the main body; The main body is composed of a base plate of a disk or polygon, a hinge bracket respectively provided on the base plate, and a plurality of cover plates hinged to one end of the hinge bracket and radially installed around the base plate. Is achieved.

The present invention can solve the problem of the prior art that it is difficult to maintain the horizontal level due to the ground subsidence when the roof installed on the sludge mixing tank is raised and opened, and further eliminates the problem that the roof is easily lifted while lifting the roof tilted. can do.

In addition, each of the cover plates independently configured can be opened, so that only the roof unit in the required position can be opened, thereby saving the power used to open the roof and reducing the time required for opening.

1 is a configuration diagram showing an example of a roof unit for a sludge mixing tank capable of raising and lowering a conventional;
Figure 2 is a perspective view showing an example of the roof for sludge mixing tank according to the present invention,
3 is an isolated perspective view of FIG. 2;
Figure 4 is a side view showing an example of the lifting unit according to the present invention,
5 and 6 is a state diagram used in the present invention.

Hereinafter will be described in more detail with reference to the accompanying drawings showing an embodiment of the present invention.

The present invention relates to a roof installed in a sludge mixing tank for collecting and mixing sludge from wastewater collected in a sewage treatment plant and the like, in particular, a roof controlled to lift and open the roof as needed. As described above, the main body 10 is composed of a support beam 20 and a lifting unit 30.

The main body 10 is installed in the form of a cover on the upper part of the sludge mixing tank so that methane gas generated from the sludge mixing tank is not discharged to the atmosphere as it is, and is shown in the center of the sludge settling tank as shown in FIGS. 2 and 3. A base plate 11 located; Hinge brackets 12 installed on a plurality of outer circumferential surfaces of the base plate 11; A reinforcing beam 13 'having one end hinged to the hinge bracket 12 and the other end being rotated; It consists of a cover plate 13 which is elevated by the reinforcing beam 13 '.

At this time, one end of the reinforcing beam 13 'is hinged to the base plate 11, the bottom surface is supported by the lifting unit 30 to be described later, the other end is installed to be inclined downward to the free end.

The reinforcing beam 13 'serves as a frame in which the cover plate 13 can be installed and supported. The reinforcing beam 13' is provided with cover plates 13 of constant width on both sides thereof. .

Accordingly, when the reinforcing beam 13 'is lifted and lifted, the main body 10 is opened and closed while the other end of the cover plate 13 hinged thereto is lifted about its one end.

Instead of the reinforcing beam (13 ') is provided with a grid-shaped frame that can be installed on the cover plate 13, it can be changed to allow the cover plate 13 to be seated on the grid frame, in this case It is preferable that a mounting plate that can be coupled to the lifting unit 30 to be described later on the bottom of the grid frame is further provided.

On the other hand, when all the cover plate 13 is assembled so that the outer periphery of the disk or polygon is carried out, at this time methane gas between the gap between the hinge bracket 12 of the base plate 11 and the reinforcement beam 13 ' It may be further provided with a hermetic holding member capable of maintaining hermeticity between these gaps so that the back is not discharged to the atmosphere.

The airtight holding member is installed on the base plate 11 and is made of a soft resin plate, rubber sheet or vinyl material that is manufactured to a size that can cover the connection portion of the reinforcing beam 13 ′ coupled to the hinge bracket 12. This can be

In addition, the cover plate 13 is separated and formed in an appropriate number so that the total load of the main body 10 can be uniformly distributed in the lifting unit 30, which will be described later, by the operation of the lifting unit 30 Each of the plates 13 is controlled, thereby partially opening only the cover plate 13 in a required position without unnecessarily opening the whole body 10, thereby minimizing the input of power required to open the body 10. have.

The cover plate 13 is formed in a radially unfolded shape with respect to the base plate 11, and in view of the structure of the lifting unit for opening the cover plate 13 and the ease of manufacturing, The number is preferably carried out in the range of 3 to 8.

Here, when the cover plate 13 is implemented in three or less, for example two, the effect of reducing the load of the main body 10 is low, so that the load applied to the elevating unit 30 is relatively large, and the cover plate 13 In the case where the cover plate 13 and the elevating unit are too complicated, the cover plate 13 and the elevating unit are not preferable, so that the cover plate 13 is manufactured separately from 3 to 8 in consideration of these points. desirable.

In addition, the gas extraction pipe 14 communicating with the sludge mixing tank is further provided at the center of the main body 10 formed by the cover plate 13 butting, thereby collecting methane gas discharged from the sludge mixing tank. At this time, the material of the cover plate 13 is made of an environmentally friendly and light material, it is more preferable to minimize the load of the lifting unit 30 to lift them. In addition, the cover plate 13 may be further provided with a viewing window so that the inside of the sludge mixing tank from the upper portion of the main body 10 may be installed, and the viewing window may be openable.

The support beam 20 is configured to support the lifting unit 30 to be described later, the structure is as many as the number of the cover plate 13 to support each of the plurality of cover plate 13 as shown in FIG. It is installed across the top of the sludge mixing tank.

Since the support beam 20 supports the weight of the cover plate 13 and must withstand the reaction force applied by the elevating unit 30, the support beam 20 may be further provided with a plurality of reinforcing structures. .

The elevating unit 30 is a device installed between the cover plate 13 and the support beam 20 to elevate the cover plate 13 as necessary, thereby allowing a worker to enter the sludge mixing tank. As shown in FIG. 4, the lifting unit 30 has a cylinder 31 fixed to the support beam 20, and is installed in the cylinder 31 by pneumatic or hydraulic pressure. It consists of a rod 32 which is pulled in / out, wherein the free end of the rod 32 is fixed to the reinforcing beam 13 ′ of the cover plate 13. In addition, the cylinder 31 and the rod 32 are coupled to each other through the hinge shaft H, so that a slight rotation is possible around the hinge shaft H.

In the above, the lifting unit 30 has been described as being operated by pneumatic or hydraulic pressure. Instead, the lifting unit 30 may be implemented by using an electric actuator, and by using the electric actuator, the height of the cover plate 13 may be more accurately. It can control, and can raise and lower by making the height between each cover plate 13 more constant.

When the cover plate 13 is elevated, the elevating unit 30 lowers the base plate 11 while the upper portion located in the center of the sludge mixing tank is lowered conversely, and as a result, the central portion of the main body 10 is all at once. There is a risk of sinking, in order to prevent this, the position where the rod 32 of the elevating unit 30 is installed so that the center of gravity of the cover plate 13 is always on the outer circumference of the main body 10 to prevent the cover plate The upper part of 13 is installed relatively close to the base plate 11.

Due to this structure, even when the cover plate 13 is elevated, the height of the base plate 11 can be maintained as it is, thereby allowing each cover plate 13 to be lifted and controlled independently.

On the other hand, the center of gravity of the elevating unit 30 is biased around the outer circumference, thereby causing the base plate 11 is temporarily lowered into the sludge mixing tank, which may cause sag, thereby resulting in each component connected to the main body 10 In order to prevent this, the present invention may further include a stopper (not shown) for limiting an angle at which the hinge bracket 12 of the base plate 11 is rotated about the reinforcing beam 13 ′ to prevent damage. have.

The sludge mixing tank roof of the present invention having the structure as described above is installed to cover the upper portion of the sludge mixing tank 1, as shown in Figure 5, at this time by the sludge stored in the sludge mixing tank 1 The generated methane gas and the like are discharged to the outside through the gas extraction pipe 14 provided at the center thereof and collected.

On the other hand, when the operator wants to open the main body 10 to check or clean the configuration in the sludge mixing tank 1, as shown in Figure 6 to control each lifting unit 30, respectively, the cover plate of the required position ( 13) only open.

At this time, all of the cover plates 13 may be opened. As such, even if all of the cover plates 13 are opened, each cover plate 13 is driven and opened independently, so that the height of each cover plate does not need to be kept constant. In addition, since the cover plate 13 is installed on the upper portion of the sludge mixing tank 1 can maintain the height installed irrespective of the ground subsidence.

The present invention is easy to control the lifting and lowering of the cover plate installed in the sludge mixing tank and can also partially open the roof of the required position is effective in saving energy by minimizing the use of the power required to open the roof.

1: sludge mixing tank 10: main body
11: base plate 12: hinge bracket
13: cover plate 13 ': reinforcement beam
14 gas extraction pipe 20 support beam
30: lifting unit 31: cylinder
32: Rod H: Hinge Shaft

Claims (5)

In the sludge mixing tank for collecting and mixing the sludge from the waste water collected in the sewage treatment plant,
A main body 10 positioned above the sludge mixing tank 1;
A plurality of support beams 20 positioned below the main body 10 and installed across the sludge mixing tank 1;
A plurality of lifting units (30) installed between the main body (10) and the support beam (20) to lift and lower the main body (10);
The main body 10 has a disc or polygonal base plate 11, a hinge bracket 12 provided on the base plate 11, and one end of the hinge bracket 12 is hinged to the base plate, Roof for sludge mixing tank, characterized in that composed of a plurality of cover plates 13 which are radially installed around the (11).
The method according to claim 1,
The lifting unit 30 includes a cylinder 31 fixed to the support beam 20; A rod (32) installed in the cylinder (31) and drawn in / out;
The installation position of the elevating unit 30 is the sludge mixing tank roof, characterized in that installed adjacent to the base plate 11 side from the middle of the support beam 20 so that the weight is biased around the outer side of the cover plate 13 .
The method according to claim 1,
The cover plate 13 is a roof for sludge mixing tank, characterized in that provided with 3 to 8 in a fan shape.
The method according to claim 1,
The hinge bracket 12 is a roof for sludge mixing tank further comprises a stopper for limiting the angle at which the cover plate 13 is rotated up and down.
The method according to claim 1,
The cover plate 13 is a roof for sludge mixing tank, characterized in that further provided with a reinforcement beam (13 ') for installing the lifting unit (30).

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