KR20210048828A - Automatic floodgate - Google Patents

Abstract

The present invention relates to a nonpowered automatic floodgate. More specifically, the present invention relates to the nonpowered automatic floodgate which does not require power for opening and closing the floodgate to enable the floodgate to be smoothly opened and closed during emergency such as blackout or failure to secure operational reliability and stability. According to the present invention, the nonpowered automatic floodgate uses a nonpowered method where the floodgate is automatically opened and closed according to a water level of a barrage to improve operational stability and reliability of the floodgate during the emergency such as the blackout and has a simple structure to be significantly easily maintained and repaired.

Description

Automatic floodgate

The present invention relates to a non-powered automatic sluice gate, and more particularly, since power to open and close the sluice gate is not required, smooth opening and closing operation of the sluice gate is possible even in the case of an emergency such as power failure or failure, thereby ensuring operational reliability and safety. It relates to a non-powered automatic sluice gate.

In general, sluice gates are installed to block the flow of water or control the flow rate, and are mainly installed in waterways such as rivers, rivers, reservoirs, and dams.

In the past, sluice gates were mostly manually opened and closed, but sluice gates capable of automatically opening and closing are widely used in the past.

For example, there is a vertical opening/closing type sluice gate having a structure in which a waterway is opened or closed by moving a sluice gate body formed in a plate shape up and down using a motor.

Conventional sluice gates require a relatively large force when opening and closing, and various problems are exposed, such as overloading the motor due to resistance by various foreign substances.

In order to solve the problems of the conventional floodgate as described above, Korean Patent Registration No. 10-0596023, Korean Patent Application Publication No. 10-2002-086322, Korean Utility Model Registration No. 20-0337251, and Korean Utility Model Registration No. 20-217658 Various hydrological devices such as have been proposed.

However, since the sluice gate device disclosed as described above is driven by a cylinder operated by supply of hydraulic oil or pneumatic pressure to open and close the sluice gate, or is driven by a motor, the structure is complicated and maintenance is difficult. There is a problem that cannot be achieved.

Korean Patent Registration No. 10-0596023 Republic of Korea Registration Office 20-0339969 Republic of Korea Patent Publication 10-2012-0046851

The present invention is to solve the conventional problems as described above, and in the case of an emergency such as a power outage or breakdown, the sluice gate operates smoothly, so the purpose of the present invention is to provide a non-powered automatic sluice gate that secures safety against the fear of water overflow. have.

In addition, another object of the present invention is to provide a non-powered automatic sluice gate that has a simple structure and is easy to maintain since the opening and closing operation of the sluice gate is made by the water level stored by the beam.

A non-powered automatic sluice gate according to the present invention for achieving the above object comprises: a frame part installed in the waterway of the beam and having a discharge port formed therein; A sluice main body which is rotatably installed on the frame and opens and closes the discharge port according to the level of the beam, wherein the sluice main body has a receiving space part formed to accommodate water in the upper side, and the sluice door inside the lower side A weight body for adding weight is built in the lower part of the main body, and a water inlet through which water can be introduced into the receiving space is formed at one side of the upper side facing the upstream side of the beam, and the other side of the upper side opposite to the water inlet is formed. It is characterized in that a water outlet through which water inside the space is discharged to the outside is formed.

The sluice body is characterized in that further provided with an on-off valve for opening and closing the water outlet.

If the water level of the beam is less than the set reference water level, the discharge port is closed, and if the water level of the beam is higher than the set base water level, the discharge port is opened so as to regulate the rotation of the sluice body; It is characterized.

The rotation intermittent unit has buoyancy, and an elevating unit that elevates according to the beam level, one end is rotatably installed in the elevating unit, the other end is rotatably installed in the frame unit, and the elevating unit is set standard A support link in which the other end rotates downward when it is higher than the water level, and is rotatably installed on one side of the frame portion corresponding to the other end of the support link, and when the other end of the support link is rotated downward, the support link Includes a locking link provided with a hook at the end of the other end being rotated upward while the other end of the door is interfered with, and an interference rod that is provided on one side of the sluice body and interferes with or cancels interference with the other end of the locking link. Characterized in that.

The non-powered automatic sluice gate according to the present invention applies a non-powered method in which the sluice gate is automatically opened and closed according to the water level of the beam, so that the operation stability and reliability of the sluice gate can be increased in case of an emergency such as a power outage, and the structure is simple, so that maintenance is very easy. There is this.

1 is a perspective view of a non-powered automatic sluice door according to the present invention.
Figure 2 is a partial cut-away perspective view of a non-powered automatic sluice door according to the present invention.
Figure 3 is a side view for explaining the opening and closing operation of the non-powered automatic sluice door according to the present invention.
Figure 4 is a side view for explaining the opening and closing operation of the non-powered automatic sluice door according to the present invention.
Figure 5 is a side view for explaining the opening and closing operation of the non-powered automatic sluice door according to the present invention.

Hereinafter, a non-powered automatic sluice gate according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5 show a non-powered automatic sluice door 1 according to the present invention. 1 to FIG. 1, the non-powered automatic sluice door 1 according to the present invention includes a frame part 10, a foreign matter blocking part 20, a sluice main body 30, and a rotation interception part 40. .

The frame part 10 is installed and fixed in a waterway 6 provided on one side of the beam 5 constructed in a direction crossing the river, and an outlet 11 capable of discharging water to the downstream side of the beam 5 inside. ) Is formed. The frame portion 10 includes a bottom portion 110 that is closely fixed to the bottom of the water channel 6, and a side wall that extends upward on both sides in the length direction of the bottom portion 110 and is closely fixed to both sides of the channel 6 It is configured to include the unit 120.

The foreign matter blocking part 20 is installed on the rear side of the frame part 10 so that foreign matters floating in the water with a relatively large volume and size such as tree branches or plastic waste enter the channel 6 inside the frame part 10 It is installed so as to cross the channel 6 inside the frame unit 10 as blocking the operation.

The foreign matter blocking part 20 has one end fixed to one side wall part 120 of the frame part 10, the other end fixed to the other side wall part 120, and both side wall parts ( 120) It is formed in the shape of a flat plate having a left and right length corresponding to the interval, and having a constant width vertically.

As shown in the figure, the foreign matter blocking portion 20 may be applied with a rectangular flat plate structure, or alternatively, a screen or a mesh structure may be applied.

The foreign matter blocking unit 20 blocks foreign matter in water from entering the discharge port 11 inside the frame unit 10 so that the sluice body 30 can operate smoothly without being interfered with by the foreign matter. In addition, a housing 410 of a rotation intermittent portion 40 to be described later is fixed to one side of the foreign matter blocking portion 20.

The sluice body 30 is formed in a square shape, has a wide upper and narrow streamlined structure, and is installed inclined so that the upper side slightly retreats toward the downstream side of the beam 5 than the lower side.

On both sides of the sluice body 30 in the left and right width directions, a rotation shaft is provided slightly below the center of the vertical length of the sluice body 30, and this rotation axis is rotatable on both side wall parts 120 of the frame part 10, respectively. Is installed. The sluice body 30 is rotatably installed on the frame part 10 by a rotating shaft, and is rotated to one side or to the other side according to the water level of the beam 5 to open and close the outlet 11.

The sluice body 30 has an accommodation space 31 formed therein to accommodate water in the upper side, and a weight body 32 for adding weight to the lower portion of the sluice body 30 is built in the lower side.

The weight body 32 built in the sluice body 30 makes the lower part of the sluice body 30 heavier than the upper part of the sluice body 30 so that when the water level of the beam 5 is lower than the set reference water level, the sluice body ( 30) to keep the discharge port (11) closed.

The sluice body 30 has a water inlet 33 through which water can be introduced into the receiving space 31 on one side of the upper side facing the upstream side of the beam 5, and the upper rudder opposite to the water inlet 33 is formed. On the side, a water outlet 34 through which water filled in the receiving space 31 can be discharged to the outside is formed.

The water outlet 34 is further provided with an on-off valve 35. The water in the receiving space 31 can be discharged to the outside by rotating the opening/closing valve 35 to one side, or rotated to the other side to the inside of the storage compartment through the water discharge port 34 It can block water from being discharged to the outside.

The rotational intermittent unit 40 closes the outlet 11 when the water level of the beam 5 is less than the set reference water level, and opens the outlet 11 when the water level of the beam 5 is higher than the set base water level. The rotation of (30) is regulated.

The rotation intermittent unit 40 includes a housing 410, a lifting unit 420, a support link 430, a locking link 440, and an interference rod 450.

The housing 410 is formed in a cylindrical shape with open upper and lower portions, a hollow portion is formed on the inside so that the subsphere 421 can be moved up and down, and one side of the outer peripheral surface is fixed to the foreign matter blocking portion 20. On both sides of the housing 410 facing each other, a support link 430 to be described later can pass, and a flow slot 411 through which the support link 430 can flow up and down a predetermined distance extends vertically.

The lifting unit 420 includes a floating body 421, a height adjustment rod 422, a nut member 423, and a support piece 424.

The floating body 421 has buoyancy, is inserted into the housing 410 and moves up and down in the housing 410 according to the level of the beam 5.

The height adjustment rod 422 has a threaded portion formed on the outer circumferential surface, the upper end is fixed to the lower end of the subsidiary body 421 and extends a certain length downward along the longitudinal direction of the housing 410.

The nut member 423 is for adjusting the height of the subsphere 421 with respect to the housing 410 by rotating the height adjustment rod 422, and is attached to the support piece 424 disposed below the subsphere 421. It is fixed.

The support piece 424 is disposed under the elevating part 420 inside the housing 410, and the nut member 423 is fixed to one side.

The support link 430 is composed of a pair, and each support link 430 is rotatably installed at one end of each of the support piece 424 and the other end of the frame unit 10 It is installed rotatably on both sidewalls 120 of the. The other end of the support link 430 extends to a length that can be exposed to the outside of both side wall portions 120, and the other end is rotated downward when the lifting unit 420 is higher than the set reference level, which will be described later. Is interfered with the end of 440.

The locking link 440 is rotatably installed at the side wall portion 120 of the frame portion 10 corresponding to the other end of the support link 430, and the other end of the support link 430 rotates downward. When possible, one end is interfered with the other end of the support link 430 and is rotated downward, and the other end is rotated upward. A hook is provided at the end of the locking link 440 to hang the interference rod 450.

The interference rod 450 is installed horizontally on both sides of the sluice body 30 in the left and right width directions to interfere with or cancel the interference with a hook provided at the other end of the locking link 440. One side of the interference rod 450 is fixed to the sluice body 30, and the other side extends longer so that it can protrude further outward than the sidewall portion 120 of the frame portion 10. The interference rod 450, together with the locking link 440, has a function to regulate the rotation of the sluice body 30, but when the upper side of the sluice body 30 is rotated below the frame part 10, the side wall part It also has a function of blocking the reverse rotation of the sluice body 30 in the outlet 11 while being caught in the 120.

After the user rotates the height adjustment rod 422 to position the subsphere 421 at a set height (reference water level), and when the water level reaches the set height and the elevating unit 420 rises, the elevating unit 420 and As the connected support link 430 interferes with the end of the locking link 440, the locking link 440 is rotated, and in this process, the locking link 440, which was hung on the interference rod 450, is rotated upward and thus the interference rod As the locked state of 450 is released, the sluice body 30 is in a state in which it can be rotated. On the other hand, when the water level is lower than the set height and the lifting unit descends, the support link connected to the lifting unit is released from the interference with the end of the locking link, and the end side of the locking link on which the hook is formed is rotated downward, and the sluice body returns to its original state. During the return, the interference rod coupled to the sluice body is engaged (locked) so that the hook portion of the locking link is caught again, and the sluice body is in a state in which the discharge port is closed until the water level reaches the set reference level again.

Hereinafter, the operation of the non-powered automatic sluice door 1 according to the present invention having the configuration as described above will be described in more detail with reference to FIGS. 4 and 5.

First, when the water level of the beam 5 is below the reference water level, the rotation of the sluice body 30 is blocked so that the waterway 6 can be maintained in a closed state through the rotation interceptor 40 as shown in FIG. 4. .

In addition, the water level of the beam 5 reaches the inlet provided in the sluice body 30 or higher than the inlet, as shown in FIG. 5 due to the opening of the sluice gate of the upstream side beam or rain, so that the water overflows the sluice body 30 In this case, until the water level of the beam 5 is higher than the set reference water level (for example, a height higher than the upper end of the sluice body 30), the water on the upstream side of the beam 5 passes through the inlet to the sluice body 30. ) It continuously flows inward.

Thereafter, the water level of the beam 5 is higher than the reference water level, so that the elevating section 420 of the rotary interceptor 40 rises together with the water level, and in this process, the interference rod 450 of the sluice body 30 is a locking link. The lock state for (440) is released. At this time, less water is filled in the receiving space 31 inside the sluice body 30, so the weight of the upper side of the sluice body 30 is smaller than the weight of the lower side of the sluice body 30, so the difference between the upper and lower weights of the sluice body 30 If there is, the sluice body 30 is not rotated, and a considerable amount of water is filled in the receiving space 31 inside the sluice body 30, so that the lower weight of the sluice body 30 and the upper weight of the sluice body 30 are The discharge port 11 is opened while the sluice body 30 is rotated only when a similar state, that is, a state in which a balance is achieved.

When the water gate body 30 is rotated, the flow of water passing through the discharge port 11 and the water in the lower weight 32 and the upper receiving space 31 are balanced in a state where the discharge port 11 is opened. The sluice body 30 is in a state lying down in the horizontal direction.

Thereafter, when the water level of the beam 5 is lower than the sluice body 30 lying in the horizontal direction, the water filled in the receiving space 31 on the upper side of the sluice body 30 is discharged through the water outlet 34, and the receiving space When a significant amount of water in the part 31 is discharged, the lower side of the sluice body 30 becomes heavier than the upper side by the weight body 32, and the sluice body 30 is rotated back to its original position as shown in FIG. 11) is closed.

And, when the sluice body 30 is completely rotated to its original position to close the outlet 11, the interference rod 450 provided in the sluice body 30 is again attached to the hook of the locking link 440. It is caught and locked, and the outlet 11 remains closed until the water level of the beam 5 is higher than the set reference level again.

On the other hand, if the opening/closing valve 35 provided in the sluice body 30 is opened, as described above, when the water level rises, the sluice body 30 rotates and the outlet 11 is opened, and when the water level is lowered, the sluice body ( As 30) returns to its original position, the state in which the outlet 11 is closed is repeated.

However, if the opening/closing valve 35 is closed, the water in the receiving space cannot be discharged after the water is filled in the receiving space, so the water body continues to lie down in the horizontal direction, so the sluice main body 30 cannot return to its original position. , Through this, the discharge port 11 is maintained in an open state.

That is, depending on whether the opening/closing valve 35 is opened or closed, the discharge port 11 may be opened or closed according to the water level, and the discharge port 11 may be kept in an open state.

On the other hand, the non-powered automatic sluice door 1 according to the present invention has a structure in which the rotational interception unit 40 is positioned at the upstream side of the beam 5 rather than the impurity blocking unit 20. The foreign material blocking unit 20 is rotated by changing the positions of the foreign material blocking unit 20 and the rotational blocking unit 40 so as to prevent the rotational control unit 40 from performing a stable operation due to interference or interference with the unit 40 It goes without saying that it is possible to apply a structure arranged so as to be located on the upstream side of the beam than the intermittent part 40.

The non-powered automatic sluice gate according to the present invention described above has been described with reference to the accompanying drawings, but this is only exemplary, and various modifications and other equivalent embodiments are possible from those of ordinary skill in the art. Will understand.

Therefore, the scope of the true technical protection of the present invention should be determined only by the technical spirit of the appended claims.

10: frame part
110: bottom
120: side wall portion
20: foreign matter blocking part
30: sluice body
31: receiving space part
32: weight body
33: water inlet
34: water outlet
35: on-off valve
40: rotation intermittent
410: housing
420: elevating section
430: support link
440: lock link
450: interference rod

Claims (4)

A frame part installed in the channel of the beam and having a discharge port formed therein;
A sluice body which is rotatably installed on the frame part to open and close the discharge port according to the water level of the beam; and,
The sluice main body has a receiving space part formed in the upper side to accommodate water, a weight body for adding weight to the lower part of the sluice main body is built in the lower side, and the receiving space is at one side of the upper side facing the upstream side of the beam A non-powered automatic sluice door, characterized in that a water inlet through which water can be introduced into the part is formed, and a water outlet through which water in the receiving space is discharged to the outside is formed on the other side of the upper side opposite to the water inlet.
The method of claim 1,
A non-powered automatic sluice door, characterized in that the sluice main body further includes an opening/closing valve for opening and closing the water outlet.
The method of claim 1,
If the water level of the beam is less than the set reference water level, the outlet is closed, and if the water level of the beam is higher than the set base water level, the outlet is opened, so that the rotation of the sluice body is regulated. Features a non-powered automatic sluice gate.
The method of claim 3,
The rotation control unit
A lift that has buoyancy and moves up and down according to the beam level,
One end is rotatably installed in the elevating unit, the other end is rotatably installed in the frame unit, and the other end is rotated downward when the elevating unit is higher than a set reference level, and a support link;
It is rotatably installed on one side of the frame part corresponding to the other end of the support link, and when the other end of the support link is rotated downward, the other end rotates upward as one end interferes with the other end of the support link. And a locking link provided with a hook at the end,
Non-powered automatic sluice gate, characterized in that it comprises an interference rod provided on one side of the sluice body to interfere with or cancel the interference with the other end of the locking link.

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