KR20010000314U - Sluice for stopper - Google Patents

Abstract

The present invention relates to a stopper for a sluice, and in particular, one of the stoppers fixed to the sluice and the sluice frame is configured as a roller to minimize frictional resistance.

The present invention as described above is usually composed of a pressing plate having an inclined surface and a roller in a conventional stopper which is fixed to the gate and the door frame so that the gate stops from being lowered from the bottom to the bottom anymore. In the case of consisting of two pressing plates in the past, the surface contact was to make a line contact to improve the performance of the stopper.

Description

Sluice for stopper}

The present invention relates to a stopper for a sluice, and in particular, one of the stoppers fixed to the sluice and the sluice frame is configured as a roller to minimize frictional resistance.

In general, a sluice gate can be divided into a movable gate that regulates the flow rate by the amount of movement of the body and a dilution gate that controls the flow rate by opening or closing the body. It is widely used for water purification plants, sewage treatment plants, agricultural waterways and river waterways.

In addition, the body of the sluice is in close contact with the main body of the sluice, and the movable source method for adjusting the flow rate according to the opening and closing amount, and unlike the movable source method, the sluice gate is the same as that of the operating source, but in operation, it is completely It only works.

It does not matter if watertightness is not maintained when fully opened, but it should be able to maintain watertightness tightly when completely closed.

Conventional water gates for use in such applications are shown in FIGS.

FIG. 1 is a front view showing a sluice stopper, FIG. 2 is a sectional view taken along line AA of FIG. 1, and FIG. 3 is a sectional view taken along line BB of FIG. 2. When 1A) or the handle 1B is driven, the discharge hole S formed in the door frame 7 is opened / closed while the shaft 3 is raised and lowered and the water gate 5 is lifted upwards or downwards. It is supposed to be.

In addition, the guide device (9) for guiding the water gate (5) in close contact with the discharge hole (S) is fixed to the door frame (7) with a bolt, and the inner side and the water gate of the guide device (9) having mutually inclined surface The 1st and 2nd press plates 5a and 7a are fixed, and the inclination angle of the inclined surface becomes the inclined surface by which the water gate 5 can be raised upwards.

The first and second pressing plates 5a and 7a serve as stoppers, and the water gate 5, which is lifted upward, is guided by the guide device 9 to be lowered to block the discharge hole S. When the second pressing plate (7a) is fixed to the door frame (7) is fixed, the first pressing plate (5a) fixed to the water gate (5) comes in close contact with the lower side, in the close state When it comes down further, while being squeezed by the inclined surface (T), the water gate 5 is fixed to the water gate 5 while acting as a stopper so that it is no longer pushed to the lower end.

Thus, the first and second compression plates are installed three to four according to the size and were installed with a step to each other for smooth movement.

However, in the conventional hydrological stopper having the above structure, the first and second press plates mainly use STS304 having a low wear rate, but since the press plates come into contact with the surface, the wear rate due to friction is high, and the press plate is damaged when the press plate is pressed. It is defective.

The present invention is designed to solve the above-mentioned defects, so that one of the press plates of the hydrological stopper is configured as a roller to perform the stopper's task by line contact rather than surface contact.

In addition, the present invention is always in contact with the surface when the inclined surface of the stopper is in contact with the conventional surface contact, after a certain amount of wear occurs, the stopper should be replaced, but the present design is the same part when the line contact is made by the roller and stopped It is characterized by the fact that the stop is made in other parts, so that the amount of wear is reduced, and consequently, the life of the stopper can be extended.

This invention can solve the defects brought by the conventional material neatly and can significantly reduce the noise when opening and closing the door can perform the correct operation.

Hereinafter, the configuration and operation of the present invention,

1 is a front view showing a conventional water stopper.

Figure 2 is a cross-sectional view taken along the line A-A showing the coupling state of the water stopper of Figure 1;

3 is a longitudinal sectional view showing the B-B line of FIG.

Figure 4 is a front view showing the stopper for the present invention.

Figure 5 is a cross-sectional view taken along the line A-A showing the coupling state of the water stopper of Figure 3;

FIG. 6 is a longitudinal sectional view showing the B-B line of FIG. 3; FIG.

<Explanation of symbols for main parts of drawing>

51A: Drive motor 51B: Handle

53: axis 55: sluice

57: door frame 59: guide device

60: inclined surface 61: pressing plate

63: roller 64: fixed piece

100: stopper

The water gate of the present invention for use in the above is shown in Figures 4-6.

Figure 4 is a front view showing the sluice stopper, Figure 5 is a cross-sectional view of the AA line showing the coupling state of the sluice stopper of Figure 1, Figure 6 is a cross-sectional view showing the configuration of the BB line of the present invention, referring to the driving mou When the rotor 51A or the handle 51B is driven, the discharge hole S formed in the door frame 57 is opened while the shaft 53 is raised and lowered and the water gate 55 is lifted upward or downward. It is supposed to be closed.

In addition, the guide device 59 for guiding the water gate 55 to be in close contact with the discharge hole (S) is fixed to the door frame 57 by a bolt, and the stopper 100 to the inside and the water gate of the guide device (59) Is fixedly installed.

The stopper 100 is fixedly installed on the sluice 55 and the door frame 57, and the pressing plate 61 having the inclined surface 60 is fixedly installed at any one of the sluice 55 or the door frame 57, and the other In one place, the roller 63 is fixedly fixed to the hinge piece 65 by the fixing piece 64, and in the drawing, the roller 63 is illustrated in a configuration in which the roller 63 is fixedly installed.

In addition, the stoppers 100 are installed at the left and right sides of the door, and at least two upper and lower four are respectively installed.

When explaining the working state of the subject innovation constituted as described above,

When the driving motor 51A or the handle 51B is driven, the discharge hole S in the door frame 57 is opened while the shaft 53 moves up and down to lift the water gate 55 upwards or downwards. It is supposed to be closed.

The normal water gate 55 operated as described above does not matter when opening the door, but when the door is closed, the door should stop so that the door no longer descends in the closed state. While rotating, the door is stopped while being pressed to the inclined surface 60 of the pressing plate 61 fixed to the door frame 57.

In particular, the present invention is that because the roller is rotated, the contact position of the roller to be stopped is changed to extend the life of the stopper.

The present invention as described above is usually fixed to the door and the door frame is configured to serve to stop the water gate no longer lowered in the conventional stopper one is composed of a pressing plate having an inclined surface and the other is composed of a roller Thus, when the conventional two pressing plates were made to be in line contact with the surface contact to improve the performance of the stopper.

Claims (1)

When the driving motor 51A or the handle 51B is driven, the discharge hole S formed in the door frame 57 while the shaft 53 is raised and lowered and the water gate 55 is lifted upward or downward. And a guide device 59 for guiding the water gate 55 to be in close contact with the discharge hole S is fixed to the door frame 57 by a bolt, and is provided on the inside and the water gate of the guide device 59. In the normal water gate in which the stopper 100 is fixedly installed, The stopper 100 is fixedly installed on the sluice 55 and the door frame 57, and the pressing plate 61 having the inclined surface 60 is fixedly installed at any one of the sluice 55 or the door frame 57, and the other Water roller stopper, characterized in that the roller 63 is fixed to the fixing piece 64 by a hinge (65).