KR20140022353A - Opening and closing apparatus for storm overflow chamber - Google Patents

Abstract

The present invention relates to an opening and closing apparatus for a storm overflow chamber, and the apparatus is not separated but opened by rotation when a storm overflow chamber is dredged or maintained thereby enabling dredging and maintenance work to be conveniently done, and also a buoyancy container combined to the bottom surface of an opening and closing plate is capable of changing the length and the angle thereby controlling the closing time of the opening and closing apparatus depending on a water level inside the storm overflow chamber.

Description

OPENING AND CLOSING APPARATUS FOR STORM OVERFLOW CHAMBER}

The present invention relates to a rainwater tosoil opening and closing device, and more particularly, it is configured to facilitate dredging and maintenance by opening the rotation without separating the switchgear when dredging or rainwater to maintain the device, In addition, the buoyancy cylinder coupled to the bottom of the switchgear to vary the length and angle relates to a rainwater tosle opening and closing device that can control the closing time of the switchgear according to the water level inside the rainwater chamber.

In general, sewerage refers to a passage for draining sewage generated from household sewage, factory wastewater from factories and workplaces, and rainwater collected through road drains.

In particular, sewage is connected to the river at the discharge side, so sewage flows into the river.

In other words, the sewage is generally known to include a storm drain to be provided on the discharge side to purify the sewage flowing into the sewage treatment plant connected to the storm drain.

In general, the switchgear guides the sewage flowing through the sewage to rainwater tosoil to the sewage terminal treatment plant, and when the amount of sewage is increased by three times or more due to rainwater, the rainwater toseal is closed and discharged to the river or river.

However, the conventional opening and closing device (sewage inflow control device provided in the excellent soil chamber: Patent Registration No. 747588) is used to drain dredged soil and sediment on rainwater soil when periodically dredging the soil piled up in rainwater soil or repairing other equipment. There was a problem that the prevention device must be completely removed.

In addition, there is a problem in that the cost of labor and the increase of maintenance costs in the re-installation of rainwater and earth and sand intrusion prevention device again after this separation.

The present invention has been made in view of the above problems, and the first object of the present invention is to open dredging and maintenance by rotating without disconnecting the switchgear when dredging the superior soil or maintaining the device. It is to provide an excellent soil chamber switchgear configured to be able to.

A second object of the present invention is to provide a rainwater tosoil opening and closing device to be able to adjust the closing time of the opening and closing plate by combining the buoyancy cylinder capable of adjusting the angle and height on the bottom of the opening and closing plate.

According to a feature for achieving the object as described above, the first invention relates to a rainwater toil chamber opening and closing device, for this purpose in the switchgear installed in the rainwater chamber associated with the chapel conduits formed in the sewer, rainwater toil A main frame 30 installed in the 200; and an opening and closing plate 40 fixed to the rotating shaft 31 coupled to the main frame 30 to open and close according to the amount of rain; and the main frame 30. Fixed plate 50 is coupled to one side of the; and, Falling control plate 60 is attached to the upper surface of the fixed plate 50 to adjust the inflow of the sewage and initial rainwater; And the main frame 30 is characterized in that the other side is coupled to the fixed frame 10 and one side is fixed through the hinge portion 20 so that the other side is OPEN by the rotation without disassembly of the device.

In the second invention, in the first invention, the fixed frame 10 is a "-" form disposed on one side of the main frame 30 or the "c" character is disposed outside the main frame 30 and the other side is open. It is preferable that it is either form.

The third invention, in the second invention, both sides of the fixed frame 10 or the main frame 30 in the upper surface of the sewage and initial rainwater to lead to rainwater tosoil 200 to prevent leakage to the outside It is preferable that the plate 70 is configured to be coupled.

In the fourth invention, in the first invention, it is preferable that the inner step 210 for installing the fixed frame 10 and the main frame 30 is further formed on one side and the other side of the rainwater chamber 200.

The fifth invention, in the first invention, an opening stopper 80 for adjusting the opening degree of the opening and closing plate 40 is further coupled to one side lower space of the opening and closing plate 40, the opening stopper 80 is the It is preferable that the fixed frame 10 or the main frame 30 is connected to the height adjusting means 81 exposed on both sides of the upper surface.

The sixth invention, in the first invention, the bottom surface of the opening and closing plate 40 is adjusted to the length through the connecting means 43 to close the opening and closing plate 40 by buoyancy when the inside of the storm water chamber 200 is full water level. It is preferable that the buoyancy cylinder 42 whose angle is variable is further coupled.

Seventh invention, in the sixth invention, the connecting means 43 has a lower end of the first pipe 431 is fixed to both sides of the buoyancy tube 42 and the upper end of the angle adjustment on the bottom of the opening and closing plate 40 A pair of second pipes 432 easily coupled through the joint portion 433, and the upper end is inserted into the bearing is coupled to the other end of any one of the second pipes 432 so that the buoyancy cylinder 42 can be raised and lowered freely rotated. The fixed and the other end is a screw rod 432a is screwed to the nut 431a welded to the upper end of the first pipe 431 on the vertical line, and the upper end is fixed to the other end of the other second pipe 432 and the other end Is a guide rod 432b guided inside the first pipe 431 on the vertical line, and a handle nut 432c fixed on the screw rod 432a to forcibly rotate the screw rod 432a. It is preferred to be configured.

According to the rainwater toil chamber opening and closing device according to the present invention, the device can be easily separated from the rainwater tosoil chamber, there is an effect that can facilitate the dredging and maintenance of the rainwater soil chamber.

In addition, it is possible to adjust the closing time of the opening and closing plate by combining the buoyancy cylinder that can adjust the angle and height on the bottom of the opening and closing plate has the effect of controlling the initial inflow into the storm chamber.

1 is a perspective view of a rainwater toil chamber opening and closing apparatus according to a first embodiment of the present invention,
Fig. 2 is an exploded perspective view of Fig. 1,
Fig. 3 is a cross sectional view of Fig. 1,
4 is an operation diagram showing an open state of the main frame in FIG.
5 is an operation diagram showing the length and angle adjustment of the buoyancy cylinder in FIG.
6 is a perspective view of the rainwater tossil opening and closing device according to the second embodiment,
Figure 7 is an exploded perspective view of Figure 6,
8 is a perspective view showing an open state of the main frame.

Hereinafter will be described in detail together with the accompanying drawings with respect to the rainwater toil switchgear according to the present invention.

1 is a perspective view of the rainwater tossil opening and closing device according to a first embodiment of the present invention, Figure 2 is an exploded perspective view of Figure 1, Figure 3 is a cross-sectional view of FIG.

As shown in Figures 1 to 3, the present invention is configured to facilitate dredging and maintenance by opening by rotation without disconnecting the opening and closing device when dredging the rainwater soil or maintaining the device, and also The buoyancy cylinder coupled to the bottom of the opening and closing plate is to change the length and angle to the rainwater toil chamber opening and closing device to control the closing time of the opening and closing plate according to the water level inside the rainwater chamber.

The rainwater toil chamber opening and closing device is composed of three parts, which is a fixed frame 10 and the main frame 30 is fixed to the rainwater soil chamber 200, and the opening and closing plate 40 is installed in the main frame 30. It is composed.

The rainwater soil chamber 200 is connected to the chager conduit 300 formed in the sewer, the upper step side and the other side is a structure in which the inner step 210 for installing the fixed frame 10 and the main frame 30 is further formed.

Here, the fixed frame 10 is fixed to the inner step 210 of the rain storm chamber 200, and the main frame 30 is the inner step of the rain storm chamber 200 to be rotated based on the fixed frame 10. It is a structure seated at 210.

At this time, the fixed frame 10 is configured in a "c" shape of the other side is open, the main frame 30 is installed inside the fixed frame (10). Here, the fixed frame 10 may be configured by extending the hanging frame 11 in the horizontal direction to prevent the main frame 30 from being pushed to the other end of the open both sides.

 On the other hand, the other side of the main frame 30 is a structure that is coupled to the fixed frame 10 and one side is fixed to the rainwater chamber 200 so that the other side is opened by the hinge 20. Here, the hinge portion 20 is composed of a hinge or a hinge axis, in the first embodiment of the present invention is composed of a hinge.

The hinge coupling structure described above is to facilitate dredging and maintenance by opening the rainwater chamber 200 by opening it without disconnecting the switchgear when dredging or maintaining the device.

On the other hand, the four sides of the bottom of the fixed frame 10 is configured to further combine the horizontal bracket 12 in close contact with the bottom of the main frame 30 to match the horizontal level with the main frame 30.

In addition, the opening and closing plate 40 is a structure that is fixed to the rotating shaft 31 coupled to the main frame 30 is opened and closed according to the amount of rain.

The opening and closing plate 40 is maintained at an always open state by adjusting the center of gravity by a plurality of weights (41) coupled to the rotational shaft 31 or coupled to the bottom surface, the water pressure of the excellent water It can be configured to be closed by.

In addition, the bottom of the opening and closing plate 40, the interior of the tea house 300 is a full water level, the initial excellent backflow to the storm water 200, the connection means so that the internal water level of rainwater soil 200 is closed by buoyancy when the water level is full Through the 43 is a structure that is further coupled to the buoyancy cylinder 42 is adjustable in length and angle.

Here, the buoyancy cylinder 42 serves as a weight, and is made of a hollow cylindrical to receive buoyancy. At this time, of course, it can be configured as a hollow rectangular cylinder as another example.

In addition, the connecting means 43 is composed of a first pipe 431, a second pipe 432, a screw rod 432a, and a guide rod 432b.

The first pipe 431 has a structure in which a lower end is fixed to both sides of the buoyancy tube 42.

The second pipe 432 is positioned on a vertical line of each of the first pipes 431 and is coupled to the bottom surface of the opening and closing plate 40 through the joint portion 433 to facilitate angle adjustment.

In addition, the screw rod 432a is bearing-coupled to the other end of one of the second pipes 432 so that the buoyancy tube 42 can be elevated in the rotational direction so that the screw rod 432a is freely rotated and the other end thereof is formed on the vertical line. It is a structure that is screwed to the nut 431a welded to the upper end of the one pipe 431.

At this time, the handle nut 432c is welded on the screw rod 432a so as to forcibly rotate the screw rod 432a.

The guide rod 432b has a structure in which an upper end is fixed to the other end of the other second pipe 432 and the other end is guided inside the first pipe 431 on the vertical line.

The above-described configuration of the connecting means 43 changes the angle of the buoyancy cylinder 42 through the joint portion 433, and if the knob nut 431a is forcibly rotated, the screw rod 432a is rotated by the screw rod 432a. A) so that the buoyancy tube 42 can be lifted along the configuration to adjust the closing time of the opening and closing plate (40).

On the other hand, the fixed plate 50 is fixed to one side of the main frame 30, the upper surface of the fixed plate 50 is attached to the variable position to the downflow control plate 60 for adjusting the inflow of sewage and initial rainwater is coupled It is composed.

At this time, a plurality of coupling holes 51 are formed in the fixing plate 50, and a long groove 61 corresponding to the coupling hole 51 of the fixing plate is formed in the drop control plate 60.

Therefore, the downfall control plate 60 is a structure that can control the inflow of the sewage and initial rainwater by varying its position on the upper surface of the fixed plate 50 through the long groove (61).

In addition, the upper surface of both sides of the fixed frame 10 is composed of a water plate 70 is coupled to guide the sewage and initial rainwater to the rainwater chamber 200 to prevent the outflow to the outside.

Since the water plate 70 is fixed to the fixed frame 10 may be installed in connection with the Y-shaped water plate 71 installed in the sewer.

In addition, the opening and closing plate 40 is a structure that can adjust the opening angle by the opening stopper (80).

The open stopper 80 is disposed across the lower space of one side of the opening and closing plate 40 about the rotation shaft 31 in the transverse direction.

The opening stopper 80 is configured to adjust the opening angle of the opening and closing plate 40 by height is adjusted by the height adjusting means exposed on both sides of the fixed frame.

In addition, the opening stopper 80 may be configured to finely control the opening degree of the opening and closing plate 40 by combining the protrusions 80a at two upper surfaces.

4 is an operation diagram showing the open state of the main frame in Figure 1, Figure 5 is an operation diagram showing the length and angle adjustment of the buoyancy cylinder in FIG.

First, as shown in FIG. 4, when dredging or maintaining the rainwater tortilla 200 or maintaining the apparatus, the main frame 30 is lifted in the state in which the other side is gripped by hand, and the main frame through the hinge portion 20. 30 is rotated upward on the basis of the fixed frame 10 it is possible to open the stormy soil 200.

Since the main frame 30 does not need to be directly separated from the rainwater toil 200 through the pivoting main frame 30, the dredging and maintenance of the rainwater tosoil 200 can be easily performed.

In addition, when assembling, only the main frame 30 is rotated again, so that it is seated on the fixed frame 10, so that assembly is also very convenient.

Meanwhile, as shown in FIG. 5, the angle adjustment of the buoyancy cylinder 42 is possible through two second pipes 432 coupled to the bottom surface of the opening and closing plate 40 through the joint portion 433.

In addition, the height adjustment of the buoyancy cylinder 42 is to rotate the screw rod 432a, the bearing coupled to the other end of any one of the second pipe 432 can be freely rotated while maintaining the position of the screw rod 432a.

Then, the first pipe 431 positioned on the corresponding vertical line of the second pipe 432 is elevated along the screw rod 432a, so that the buoyancy cylinder 42 is raised or lowered.

At this time, the other side of the buoyancy cylinder 42 is guide rod 432b fixed to the other end of the second pipe 432 is guided inside the first pipe 431 on the vertical line to tilt the buoyancy cylinder 42 You can get on and off without load.

Therefore, the buoyancy cylinder 42 can change the angle through the joint portion 433, and can also be lifted by the rotation of the screw rod 432a to adjust the closing time of the opening and closing plate 40.

FIG. 6 is a perspective view of the rainwater tortilla opening and closing apparatus according to the second embodiment, FIG. 7 is an exploded perspective view, and FIG. 8 is a perspective view showing an open state of the main frame.

6 to 8, the second embodiment includes the first embodiment, except that the fixed frame 10 has a linear shape such as "-".

The fixed frame 10 is a structure that is coupled to the main frame 30 and the hinge portion 20 in a state fixed to the inner step 210 on one side of the urethane soil 200,

In addition, unlike the first embodiment, the height adjusting means 81 for adjusting the height of the clapper plate 70 and the open stopper 80 is fixed to both sides of the main frame 30, the main frame 30 is It can be configured to rotate together when rotated.

On the other hand, the inner step 210 formed on the other side of the rainwater chamber 200 may be configured by combining the main frame 30 and the index plate 90 for shock absorption and watertight.

The structure of the above-described fixed frame 10 has the same function as the first embodiment, and can simplify the installation of the switchgear, and can also reduce the construction cost by the simplified switchgear.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that various obvious modifications are possible without departing from the scope of the invention from this description. Therefore, the scope of the invention should be construed by the claims described to include many such variations.

10: fixed frame 11: hanging frame 12: horizontal bracket
20: hinge part
30: main frame 31: axis of rotation
40: opening and closing plate 41: weight 42: buoyancy cylinder
43: connecting means 431: first pipe
431a: nut 432: second pipe
432a: screw rod 432b: guide rod
432c: knob nut
433: joints
50: fixing plate 51: coupling hole
60: downspout 61: long groove
70: water plate 71: Y-shaped water plate
80: open stopper 80a: protrusion 81: height adjustment means
90: index plate
200: excellent soil chamber 210: internal step
300: tea house

Claims (7)

In the switchgear installed in the stormwater silo associated with the tea house drain formed in the sewer,
A main frame 30 installed in the rainstorm chamber 200;
An opening and closing plate 40 fixed to the rotating shaft 31 coupled to the main frame 30 to open and close according to the amount of rainwater;
A fixed plate 50 coupled to one side of the main frame 30;
Falling water control plate 60 for varying the position on the upper surface of the fixed plate 50 to control the inflow of sewage and initial rainwater; And
The main frame 30 is rainwater tosoil opening and closing, characterized in that the other side is fixed to the rainwater chamber 200 is fixed to the rainwater chamber 200 so that the other side is opened by the rotation without disassembling the device Device.
The method of claim 1,
The fixed frame 10 is excellent in that it is any one of the "-" shape disposed on one side of the main frame 30 or the "c" shape arranged on the outside of the main frame 30 and the other side is open. Chum switchgear.
3. The method of claim 2,
Both sides of the fixed frame 10 or the main frame 30 is composed of a water plate 70 is coupled to prevent the outflow to the outside by inducing sewage and initial excellent water to the rainwater tossing 200 Excellent tossil switchgear characterized in that.
The method of claim 1,
One side and the other side of the rainwater chamber 200, the rainwater chamber opening and closing device characterized in that the inner step 210 for installing the fixed frame 10 and the main frame 30 is further formed.
The method of claim 1,
An opening stopper 80 for adjusting the opening degree of the opening and closing plate 40 is further coupled to one lower space of the opening and closing plate 40, and the opening stopper 80 is the fixed frame 10 or the main frame 30. Rainstorm chamber opening and closing device, characterized in that connected to the height adjusting means 81 is exposed on both sides of the upper surface.
The method of claim 1,
On the bottom of the opening and closing plate 40, when the inside of the rainwater tossing chamber 200 becomes full, the buoyancy tube 42 is adjustable in length and angle through the connecting means 43 so that the opening and closing plate 40 is closed by buoyancy. Excellent tossil switchgear, characterized in that further coupled.
The method according to claim 6,
The connecting means 43 has a first pipe 431 having a lower end fixed to both sides of the buoyancy tube 42, and an upper end thereof coupled to the bottom surface of the opening and closing plate 40 through an articulation portion 433 for easy angle adjustment. The upper end of the pair of second pipes 432 and the buoyancy cylinder 42 is adjusted to be lifted and adjusted to be inserted into the other end of one of the second pipes 432 to be freely rotated, and the other end of the first pipe on the corresponding vertical line. A screw rod 432a screwed to the nut 431a welded to the upper end of the 431, and an upper end thereof is fixed to the other end of the second second pipe 432, and the other end of the first pipe 431 on the corresponding vertical line. Rainproof chamber opening and closing device, characterized in that consisting of a guide rod 432b guided in the inner side and a handle nut 432c fixed on the screw rod 432a to forcibly rotate the screw rod 432a. .

Images