KR101322878B1 - Winches hydrological sensors for the foreign - Google Patents

Abstract

PURPOSE: A foreign material detecting apparatus for a floodgate winch is provided to easily detect and remove foreign materials in a lower direction of a floodgate and then to completely close the floodgate by lowering the floodgate. CONSTITUTION: A foreign material detecting apparatus for a floodgate comprises a frame (10), a floodgate winch unit (20), an elastic unit, and a detecting unit (40). The frame is settled on a horizontal plate (3), which is positioned in an upper direction of a floodgate (5) by enabling uplift movement. The floodgate winch unit is fixed to the top of the frame and lifts the floodgate in a pinion-rack mode. The elastic unit elastically pressurizes one side and the other side of the frame in a direction towards the horizontal plate. The detecting unit detects the uplift of the frame which ascends depending on the presence of foreign materials (7) in the lower direction of the floodgate when the floodgate winch unit lowers the floodgate.

Description

Foreign material detection device for hydrostatic hoist {WINCHES HYDROLOGICAL SENSORS FOR THE FOREIGN}

The present invention is more easily detect and remove foreign substances in the downward direction of the water gate through a detection unit for detecting whether the lifting of the frame in accordance with the presence or absence of foreign substances in the lower direction of the water gate during the process of lowering the hydrology. It relates to a foreign material detection device for a hydrostatic winch that can completely close the waterway by lowering the hydrograph completely.

In general, the sluice gate is installed to control the flow rate in agricultural waterways, water and sewage, relay pumping station, rainwater pumping station, urban sewage treatment plant, water treatment plant, and industrial wastewater treatment plant. A hydrologic winch equipped with an emergency descent speed control device capable of quickly and safely descending a hydrologic gate has been proposed as a registered Korean Patent Publication No. 10-1251934.

However, when a foreign material such as a tree is located in the lower direction of the water gate during the process of the descending of the water gate by the hydro-winding machine, the water gate cannot be completely lowered by a foreign material such as a tree, and thus, the water gate is a water channel. There is a problem that can not be completely closed.

Domestic Patent Registration No. 10-1251934

The present invention was created in order to solve the above-mentioned problems, the hydrology of the sluice through the detection unit for detecting whether the lifting of the frame in accordance with the presence or absence of foreign matter in the lower direction of the sluice in the process of lowering the sluice. It is an object of the present invention to provide a foreign material detecting device for a hydrostatic hoisting device capable of completely closing the waterway by completely lowering the water gate after detecting and removing foreign matter in a downward direction more easily.

The present invention for achieving the above object is a frame seated on a horizontal plate located in the upper direction of the sluice; A hydrolog winding unit provided at an upper portion of the frame to lift and lift the gate in a pinion rack manner; One side of the frame and the other side of the frame in the horizontal plate direction in a state that the upper side of the fixing member that is fixed to the horizontal plate is inserted in the horizontal plate in a state that the one side of the frame and the other side of the frame respectively through the vertical plate An elastic portion for elastically pressing; Provides a foreign matter detection device for a hydrostatic hoist, characterized in that it comprises a; detection unit for detecting whether the lifting of the frame in accordance with the presence or absence of foreign matter in the lower direction of the water gate during the lowering of the hydrological winding unit; do.

Here, for example, the detection unit is preferably made of a contact detection unit for detecting whether the lifting of the frame according to whether the contact with one side of the frame.

In particular, the sensing unit is provided on the horizontal plate so as to be positioned around one side of the frame, and the one side of the frame which is lifted in accordance with the presence or absence of foreign matter in the lower direction of the water gate during the hydrostatic lifting unit descends the water gate and It is preferable that the limit switch to detect whether the lifting of the frame according to whether or not.

Alternatively, the sensing unit is provided on the horizontal plate so as to be positioned around one side of the frame, the bending plate member is horizontally bent in one direction of the frame; The bending plate member is provided on one side of the frame while maintaining a fixed interval with the fixing member, and when the frame is lifted or lowered according to the presence or absence of foreign matter in the downward direction of the water gate during the process of lowering the water gate. Limit switch for detecting whether the frame is elevated according to whether or not contact with; is preferably made of.

On the other hand, as another example, the detection unit is preferably made of a non-contact detection unit for detecting whether the lifting of the frame in a state of not in contact with one side of the frame.

Here, the sensing unit of another example and the magnetic member provided on one side of the frame in a state of maintaining a predetermined interval with the fixing member; Is provided on the horizontal plate so as to be located around one side of the frame is the magnetic force sensing whether the magnetic member is generated when the frame ascends in accordance with the presence or absence of foreign matter in the lower direction of the water gate during the hydrologic lifting portion descends the water gate According to the present invention, a hall sensor for detecting whether the frame is raised or lowered is preferably configured.

Alternatively, the sensing unit may include a magnetic member provided on an upper side of the plate member provided in the horizontal plate to be positioned around one side of the frame; The magnetic member is provided on one side of the frame while maintaining a predetermined distance from the fixing member, and the magnetic member is lifted when the frame is lifted or lowered by the presence of foreign matter in the lower direction of the water gate during the process of lowering the water gate. Hall sensor for detecting whether the lifting of the frame according to whether or not to generate a magnetic force;

Alternatively, the sensing unit is provided with a light emitting sensor which is provided on one side of the frame while maintaining a predetermined distance from the fixing member to irradiate light toward one side of the frame; It is provided on the horizontal plate so as to be located around one side of the frame is received by the light emitting sensor when the frame ascends in accordance with the presence or absence of foreign matter in the lower direction of the water gate during the process of lowering the gate It is preferably made of; a light receiving sensor for detecting whether the frame is elevated or not.

Furthermore, it is preferable that the opening meter which shows the opening degree of the said water gate which the said hydro-winding body raises and lowers is provided.

The present invention is more easily detect and remove foreign substances in the downward direction of the water gate through a detection unit for detecting whether the lifting of the frame in accordance with the presence or absence of foreign substances in the lower direction of the water gate during the process of lowering the hydrology. There is an effect that can completely close the waterway by lowering the hydrograph completely.

1 is a cross-sectional view schematically showing a foreign matter detection device for a hydrologic winch of the present invention,
2 is a cross-sectional view schematically showing a state in which the water gate is lowered,
3 to 6 are cross-sectional views schematically showing an example of the sensing unit consisting of a contact sensing unit,
7 to 12 are cross-sectional views schematically showing a sensing unit of another example consisting of a non-contact sensing unit.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

1 is a cross-sectional view schematically showing a foreign matter sensing device for a hydrologic winch of the present invention, Figure 2 is a cross-sectional view schematically showing a state that the water gate 5 is lowered.

The foreign body detecting device for the hydrologic winch of the present invention includes a frame 10, a hydrologic winch 20, an elastic portion (30 of FIG. 3) and the detection unit 40 as shown in Figs. .

First, the frame 10 is horizontally seated on the horizontal plate 3 located in the upper direction of the sluice 5 so as to lift and lower.

The lower side of the frame 10 and the lower side of the frame 10, the lower side of the fixing member 200, which may be composed of a set anchor, an anchor plate, etc. is the lower one side of the frame 10 and the frame 10 The other side of the lower) can be inserted into the horizontal plate (3) in a vertical depth through a fixed depth.

Next, the hydrological winding unit 20 is provided on the upper portion of the frame 10, for example, a bolt fixed state to elevate the gate 5 in the pinion rack method, the hydrological winding unit 20 as described above Since the technology is known through the domestic registration utility model publication No. 20-0124588, etc., detailed description thereof will be omitted.

3 to 6 are cross-sectional views schematically illustrating an example sensing unit 40 including a contact sensing unit.

Next, the elastic portion 30 may be made of a spring or the like.

When the fixing member 200 is a set anchor, as shown in FIG. 3, an upper side of the bolt 301 of the set anchor may be accommodated inside the elastic part 30.

The upper side of the elastic portion 30 is in contact with the lower surface of the flat washer 302 of the set anchor, the lower side of the elastic portion 30 of the lower one side upper surface of the frame 10 and the frame 10 The elastic part 30 is elastically pressurized in the direction of the upper surface of the horizontal plate 3 on the lower one side of the frame 10 and the lower other side of the frame 10 in contact with the lower other upper surface.

Next, the detection unit 40 is the frame 10 which is lifted in accordance with the presence or absence of foreign matter (7) in the lower direction of the sluice 5 during the process of lowering the sluice (5) the sluice winding unit 20 ) To detect whether or not the lift.

For example, the detector 40 may be configured as a touch detector that detects whether the frame 10 is raised or lowered according to whether the frame 10 is in contact with one side of the frame 10.

More specifically, first, as shown in FIGS. 3 and 4, the lower work of the frame 10 is located at one side outward of the fixing member 200 while maintaining a predetermined distance from the fixing member 200. The lifting plate 100 which moves up and down along the frame 10 may be vertically provided as a single body.

The upper side of the elevating plate 100 may be horizontally bent in one direction outward of the elevating plate 100.

As an example, the sensing unit 40 may include a limit switch 410 as shown in FIGS. 3 and 4.

A support plate member for supporting the limit switch 410 at a predetermined height on one side upper surface of the horizontal plate 3 to be positioned around one side of the frame 10 while maintaining a predetermined distance from the lifting plate 100. The 300 may be vertically provided in various ways such as bolt fixing.

One side of the limit switch 410 may be axially coupled to the middle portion of the support plate member 300.

As shown in FIG. 2, the pinion 201 of the hydrologic winding 20 is rotated in a forward direction in a state where a foreign material 7 including a tree and the like is positioned in the lower direction of the sluice 5 and the pinion 201. When the engaged rack 202 is lowered, the sluice gate 5 connected to the lower side of the rack 202 together with the rack 202 is lowered,

The lower side of the descending sluice 5 comes into contact with the upper side of the foreign matter 7 including wood, etc. In this state, the pinion 201 of the sluice winding part 20 is further rotated in the forward direction so that the rack 202 When the water gate 5 is further lowered together, the pinion 201 rotating in the forward direction engaged with the rack 202 gradually moves upward in the upper direction of the rack 202.

At this time, the frame 10, the lifting plate 100 and the hydrological winding 20 is also gradually raised in the upper direction of the rack 202.

As shown in FIG. 4, the elevating plate 100 is gradually raised to come into contact with the lower side of the limit switch 410, and in this state, when the elevating plate 100 is further raised, the limit switch 410 is raised. The other side of the limit switch 410 is rotated to the upper direction of the limit switch 410 relative to one side of the), at the same time the limit switch 410 is the frame 10 is the horizontal plate (3) It is sensed that it has risen upward.

When the limit switch 410 detects that the frame 10 has risen in the upper direction of the horizontal plate 3, the pinion 201 of the hydrological winding unit 20 is controlled by a controller (not shown). ) Is repeatedly reversed and reversed by a predetermined number of times, thereby repeatedly lifting and lowering the sluice 5,

Foreign matters, including wood and the like, by relatively high flow rates passing through the narrow passage between the water gate 5 and the foreign matters 7 including trees and the like during the process of repeatedly moving the water gate 5 by a predetermined number of times. ) Is floated so that the foreign matter 7 including wood and the like in the lower direction of the water gate 5 disappears.

The sluice gate 5 is repeatedly lifted by a predetermined number of times and then completely lowered by the sluice winding unit 20 and the contact state between the elevating plate 100 and the limit switch 410 is released. Can be completely closed.

Alternatively, the sensing unit 40 may be formed of a bending plate member 400 and the limit switch 410 as shown in FIGS. 5 and 6.

The bending plate member 400 may be vertically provided in various ways such as bolt fixing to one side upper surface of the horizontal plate 3 to be positioned around one side of the frame 10.

The upper side of the bending plate member 400 may be formed horizontally bent in one direction of the frame 10.

The support plate member 300 on one side upper surface of the frame 10 to be located in one side outward direction of the fixing member 200 while maintaining a predetermined interval with the fixing member 200 in a variety of ways, such as bolt fixing It can be vertically equipped.

The other side of the limit switch 410 may be axially coupled to the middle portion of the support plate member 300.

The limit switch together with the frame 10 when the floodgate lifting unit 20 continuously lowers the floodgate 5 in a state in which the foreign matter 7 including wood and the like is located in the lower direction of the floodgate 5. As the 410 gradually rises, one side of the limit switch 410 is in contact with the upper lower surface of the bent plate member 400.

In this state, when the limit switch 410 is further raised, one side of the limit switch 410 is rotated downwardly based on the other side of the limit switch 410, and at the same time the limit switch ( 410 detects that the frame 10 has risen in an upward direction of the horizontal plate 3.

7 to 12 are cross-sectional views schematically showing another example of the sensing unit 40 consisting of a non-contact sensing unit.

Next, the sensing unit 40 may be formed as a touch sensing unit as described above, for example, but in the case of the touch sensing unit, there is a risk of malfunction as time passes due to wear or the like.

Preferably, as another example, the detection unit 40 may be made of a non-contact detection unit for detecting whether the lifting of the frame 10 in a state of not in contact with one side of the frame 10.

As another example, the sensing unit 40 may include a magnetic member 420 and a hall sensor 430 as shown in FIGS. 7 and 8.

The magnetic member 420 may be made of a magnet or the like.

The magnetic force member 420 may be provided on one side of the elevating plate 100 of the frame 10 in a state of maintaining a predetermined interval with the fixing member 200.

The hall sensor 430 may be provided on the upper side of the other side opposite to one side of the support plate member 300 provided on one side upper surface of the horizontal plate 3 to be positioned around one side of the frame 10.

The magnetic force member together with the frame 10 when the floodgate lifting unit 20 continuously lowers the floodgate 5 in a state where a foreign material 7 including a tree or the like is located in the lower direction of the floodgate 5. 420 is gradually increased, and when the Hall sensor 430 detects the magnetic force generated by the magnetic force member 420, the hall sensor 430 is raised. Will be detected.

Alternatively, as another example, the sensing unit 40 is made of the magnetic member 420 and the Hall sensor 430, as shown in Figure 9 and 10,

The magnetic member 420 may be provided at the lower side of the other side of the horizontal plate 3, and the hall sensor 430 may be provided at the lower side surface of the frame 10 in which the lifting plate 100 is not provided. have.

The hall sensor together with the frame 10 when the floodgate lifting unit 20 continuously lowers the floodgate 5 in a state where a foreign matter 7 including a tree or the like is located in the lower direction of the floodgate 5. 430 gradually increases, and when the hall sensor 430 gradually detects the magnetic force generated by the magnetic member 420, the hall sensor 430 indicates that the frame 10 has risen. Will be detected.

Alternatively, as another example, the detector 40 may include a light emitting sensor 440 and a light receiving sensor 450 as shown in FIGS. 11 and 12.

The light emitting sensor 440 is provided on one side of the lower surface of the frame 10 in which the lifting plate 100 is not provided in a state where the light emitting sensor 440 is maintained at a predetermined distance from the fixing member 200. Light can be irradiated outward.

The light receiving sensor 450 is provided on the lower side of the other side of the support plate member 300 provided on one side upper surface of the horizontal plate 3 so as to be positioned around one side of the frame 10. I can receive light to irradiate.

The light emitting sensor together with the frame 10 when the floodgate winding 20 continuously lowers the floodgate 5 in a state where a foreign material 7 including a tree or the like is located in the lower direction of the floodgate 5. When the light receiving sensor 450 receives the light emitted by the light emitting sensor 440 that gradually increases, the light receiving sensor 450 indicates that the frame 10 is raised. Will be detected.

On the contrary, the light emitting sensor 440 may be provided on the lower side of the other side of the support plate member 330, and the light receiving sensor 450 may be provided on the lower side of the frame 10.

Next, as shown in FIGS. 1 and 2, an opening meter 50 indicating an opening degree of the hydrological gate 5 to which the hydrological winding unit 20 moves up and down is provided at an upper portion of the hydrological winding unit 20. May be

When the descending of the water gate 5 stops when the scale of the open meter 50 is not marked, for example, 0 mm, it is determined that a foreign material 7 including a tree is located in the lower direction of the water gate 5. The hydrological winding unit 20 repeatedly raises and lowers the gate 5.

When the scale of the open meter 50 becomes 0 mm, the foreign material 7 including the tree floats off due to the high flow rate, and the hydrological winding part without the foreign material 7 in the lower direction of the water gate 5 20, the sluice 5 is completely lowered.

According to the present invention configured as described above, the frame is lifted in accordance with the presence or absence of foreign matter 7 such as a tree in the lower direction of the sluice 5 during the process of lowering the sluice 5. 10) more easily detect and remove foreign substances 7 in the lower direction of the sluice 5 through the sensing unit 40 for detecting whether the elevator is lifted and lowered the sluice 5 completely to completely close the waterway. There is an advantage to this.

10; Frame, 20; Hydrology,
30; Elastic portion 40; Detector.

Claims (9)

A frame 10 seated on a horizontal plate 3 positioned in an upper direction of the sluice 5;
A sluice winding part 20 provided on an upper portion of the frame 10 to elevate the sluice 5 in a pinion rack manner;
One side of the frame 10 and the other side of the frame 10 in the state in which the upper side of the fixing member 200 is fixed to the horizontal plate 3 is inserted into the horizontal plate 3 in the state accommodated in the frame ( An elastic part 30 which elastically presses one side of the frame 10 and the other side of the frame 10 in the direction of the horizontal plate 3;
The detection unit for detecting whether the lifting and lowering of the frame 10 in accordance with the presence or absence of foreign matter (7) in the lower direction of the sluice (5) during the process of lowering the sluice (5) ( 40); including,
The sensing unit 40 is provided on the horizontal plate 3 so as to be positioned around one side of the frame 10, and the hydrological winding unit 20 lowers the water gate 5 during the process of lowering the water gate 5. Water gate, characterized in that consisting of a limit switch 410 for detecting whether the lifting of the frame 10 in accordance with whether the contact with one side of the frame 10 to move in accordance with the presence or absence of foreign matter (7) in the lower direction Foreign material detection device for winch.
A frame 10 seated on a horizontal plate 3 positioned in an upper direction of the sluice 5;
A sluice winding part 20 provided on an upper portion of the frame 10 to elevate the sluice 5 in a pinion rack manner;
One side of the frame 10 and the other side of the frame 10 in the state in which the upper side of the fixing member 200 is fixed to the horizontal plate 3 is inserted into the horizontal plate 3 in the state accommodated in the frame ( An elastic part 30 which elastically presses one side of the frame 10 and the other side of the frame 10 in the direction of the horizontal plate 3;
The detection unit for detecting whether the lifting and lowering of the frame 10 in accordance with the presence or absence of foreign matter (7) in the lower direction of the sluice (5) during the process of lowering the sluice (5) ( 40); including,
The sensing unit 40 is provided on the horizontal plate (3) so as to be located around one side of the frame 10, the upper side of the bending plate member 400 is horizontally bent in one direction of the frame (10);
It is provided on one side of the frame 10 in a state of maintaining a fixed interval with the fixing member 200, the lower portion of the sluice (5) during the process of lowering the sluice (5) by the sluice winding unit 20 A limit switch 410 for detecting whether the frame 10 is raised or lowered according to whether the frame 10 is in contact with the bent plate member 400 when the frame 10 is raised or lowered according to the presence or absence of foreign matter 7 in a direction; A foreign material detection device for a hydrostatic winker characterized in that.
A frame 10 seated on a horizontal plate 3 positioned in an upper direction of the sluice 5;
A sluice winding part 20 provided on an upper portion of the frame 10 to elevate the sluice 5 in a pinion rack manner;
One side of the frame 10 and the other side of the frame 10 in the state in which the upper side of the fixing member 200 is fixed to the horizontal plate 3 is inserted into the horizontal plate 3 in the state accommodated in the frame ( An elastic part 30 which elastically presses one side of the frame 10 and the other side of the frame 10 in the direction of the horizontal plate 3;
The detection unit for detecting whether the lifting and lowering of the frame 10 in accordance with the presence or absence of foreign matter (7) in the lower direction of the sluice (5) during the process of lowering the sluice (5) ( 40); including,
The sensing unit 40 is a magnetic force member 420 provided on one side of the frame 10 in a state of maintaining a predetermined interval with the fixing member 200;
It is provided on the horizontal plate (3) so as to be located around one side of the frame (10) foreign matter in the lower direction of the water gate (5) during the process of lowering the water gate (5) Hall sensor 430 that detects whether the frame 10 is raised or lowered according to whether the magnetic force member 420 is generated when the frame 10 is raised or lowered according to the presence or absence; Foreign object detection device for hydrostatic winches.
A frame 10 seated on a horizontal plate 3 positioned in an upper direction of the sluice 5;
A sluice winding part 20 provided on an upper portion of the frame 10 to elevate the sluice 5 in a pinion rack manner;
One side of the frame 10 and the other side of the frame 10 in the state in which the upper side of the fixing member 200 is fixed to the horizontal plate 3 is inserted into the horizontal plate 3 in the state accommodated in the frame ( An elastic part 30 which elastically presses one side of the frame 10 and the other side of the frame 10 in the direction of the horizontal plate 3;
The detection unit for detecting whether the lifting and lowering of the frame 10 in accordance with the presence or absence of foreign matter (7) in the lower direction of the sluice (5) during the process of lowering the sluice (5) ( 40); including,
The sensing unit 40 includes a magnetic member 420 provided on an upper side of the plate member 441 provided in the horizontal plate (3) so as to be located around one side of the frame (10);
It is provided on one side of the frame 10 in a state of maintaining a fixed interval with the fixing member 200, the lower portion of the sluice (5) during the process of lowering the sluice (5) by the sluice winding unit 20 Hall sensor 430 for detecting whether the lifting of the frame 10 in accordance with whether or not the magnetic force generated by the magnetic member 420 when the frame 10 in accordance with the presence or absence of foreign matter (7) in the direction; Foreign material detection device for a hydrostatic winker, characterized in that made.
A frame 10 seated on a horizontal plate 3 positioned in an upper direction of the sluice 5;
A sluice winding part 20 provided on an upper portion of the frame 10 to elevate the sluice 5 in a pinion rack manner;
One side of the frame 10 and the other side of the frame 10 in the state in which the upper side of the fixing member 200 is fixed to the horizontal plate 3 is inserted into the horizontal plate 3 in the state accommodated in the frame ( An elastic part 30 which elastically presses one side of the frame 10 and the other side of the frame 10 in the direction of the horizontal plate 3;
The detection unit for detecting whether the lifting and lowering of the frame 10 in accordance with the presence or absence of foreign matter (7) in the lower direction of the sluice (5) during the process of lowering the sluice (5) ( 40); including,
The detection unit 40 is provided on one side of the frame 10 in a state of maintaining a predetermined interval with the fixing member 200, the light emitting sensor 440 to irradiate light toward one side of the frame 10 to the outside. Wow;
It is provided on the horizontal plate (3) so as to be located around one side of the frame (10) foreign matter in the lower direction of the water gate (5) during the process of lowering the water gate (5) And a light receiving sensor 450 which detects whether the frame 10 is raised or lowered according to whether the light emitted by the light emitting sensor 440 is received when the frame 10 is raised or lowered. Foreign body detection device for hydrostatic winch.
6. The method according to any one of claims 1 to 5,
The foreign material detection device for a hydrologic winch is provided with an opening meter (50) indicating the opening degree of the water gate (5) to be raised and lowered. delete delete delete

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