KR101027014B1 - Float switch - Google Patents

Abstract

The present invention is to solve the problems of the prior art, the ball bearing is moved vertically while operating the limit switch to operate the pump, the ball bearing fixing groove formed in the lower float in the central axis in the lower position inside the body When the ball bearing is moved in the up and down direction, the ball bearing is moved to the up and down direction, and the angle adjustment of the ball bearing is made with the correct angle adjustment.The shangdong path of the ball bearing is a short path so that the accurate movement can be operated. The inner circumferential locking jaw formed on the inner circumferential surface of the main body allows the angle adjustment of the ball bearing to be made at the correct angle adjustment when the ball bearing is moved in the upper direction. Control cylinder plate It provides a switch.

Water level control, automatic control, plot switch

Description

Automatically Controlled Cylindrical Plot Switch for Water Level Control {FLOAT SWITCH}

The present invention relates to an automatic control plot switch for level control, and more particularly, to an automatic control plot switch for level control, in which a ball bearing moves vertically while operating a limit switch to operate a pump.

The present invention relates to a float switch for the water level controller, the float switch used for the water level regulator of the water tank or septic tank tank is installed in the water tank or septic tank tank, etc., one or two or more plots according to the water level to be controlled The twitch was fixed at the top of the water tank with a fixed weight and a rope to operate at the point to be controlled, and the water level control of the water tank was automatically controlled using the contact point of the float switch.

Conventional float switch is generally manufactured by inserting mercury S / W or micro S / W into hemispherical plastic body and finishing the opposite side by high frequency welding. However, mercury S / W is a pollutant, which is difficult to dispose and expensive. The micro S / W method is a combination of micro S / W and ball bearings in the plot to form micro S / W contacts according to the weight of the ball bearings.When the tilting of the plot proceeds slowly, the ball bearings do not press the micro S / W. There is a problem in that the contact does not change from OFF to ON when the mechanical phenomenon of the micro S / W cannot be exceeded because the phenomenon occurs. In addition, the micro S / W method may damage the micro S / W due to external shock, and if the high frequency welded part is submerged in water, the water may seep into the float switch, causing the switch not to work or sinking in the water. There was a problem.

The present invention is to solve the problems of the prior art, the ball bearing is moved vertically while operating the limit switch to operate the pump, the ball bearing fixing groove formed in the lower float in the central axis in the lower position inside the body When the ball bearing is moved in the up and down direction, the ball bearing is moved to the up and down direction, and the angle adjustment of the ball bearing is made with the correct angle adjustment.The shangdong path of the ball bearing is a short path so that the accurate movement can be operated. The inner circumferential locking jaw formed on the inner circumferential surface of the main body allows the angle adjustment of the ball bearing to be made at the correct angle adjustment when the ball bearing is moved in the upper direction. Control cylinder plate It provides a switch.

The present invention relates to an automatic control float switch for level adjustment, in which a ball bearing moves vertically and moves a limit switch to operate a pump.

According to the present invention, the ball bearing moves vertically while operating the limit switch to move the pump, and the ball bearing fixing groove formed in the lower float is formed at a position biased in one direction from the central axis to a lower position inside the main body. When moving in the up and down direction, the angle of the ball bearing is adjusted to the exact angle adjustment, and the movement path of the ball bearing is short and short, so that the accurate movement can be operated. In addition, the inner circumferential jaw formed in the upper part of the inner circumferential surface of the bearing insertion cylinder can allow the angle adjustment of the ball bearing to be made with the correct angle adjustment when the ball bearing moves in the upper direction. It is effective.

In the present invention, the ball bearing fixing groove 120 is deflected in one direction from the center axis in the lower position inside the main body so that the ball bearing 30 can move in the vertical up and down direction while being deflected in one direction from the center axis, and the ball bearing is inserted. A lower plot 100 having a plurality of side locking grooves 106 formed on a side surface of the ball bearing fixing groove 120 so that the side locking protrusions 46 of the cylindrical hole 40 can be fixed; A locking groove 230 is formed at the bottom of the main body so as to be coupled to the upper locking protrusion 130 of the lower plot 100, and an upper float 200 having a wire passing hole 240 formed at the top of the main body. ; It is coupled to the upper position of the limit switch insertion cylinder 20 by bolts 50 and 50 ', and the wire connecting rings 14, 14' and 14 '' protrude from the upper surface, and the limit switch insertion cylinder is Limit switch 10 in which the compression spring protrusion 16 protrudes in the lower direction in the inner side of the 20; It is coupled to the upper cylindrical projection 48 of the ball bearing insertion cylinder 40, the fixing projections 22, 22 'are formed on the upper end of the main body so that the limit switch 10 can be coupled, the fixing projection 22 Limit switch insertion cylinder hole 20 is formed between the fixing groove 24, 22 '; It is coupled to the lower end of the limit switch insertion cylinder 20, the upper cylinder projection 48 is formed on the upper body so that the limit switch insertion cylinder 20 is coupled from the top, the limit switch insertion cylinder ( An outer circumferential engaging jaw 44 is formed on the outer circumferential side of the main body so that the 20 can be fixed in a coupled state at the top, and a crush stone on the lower outer circumferential surface of the main body so as to be coupled to the locking groove 106 of the lower float 100. Ball 46 is formed, the ball bearing insertion cylinder 40 is formed with an inner circumferential engaging jaw 42 is formed on the upper surface of the main body so that the angle adjustment of the ball bearing 30 to the upper direction can be made with an accurate angle adjustment ; Compress and separate the compression spring protrusion 16 of the limit switch 10 while vertically moving between the ball bearing fixing groove 120 of the lower float 100 from the inner circumferential locking jaw 42 of the ball bearing insertion cylinder 40. It consists of a ball bearing (30) built in the ball bearing fixing groove 120 of the lower float 100 so that the ON / OFF of the limit switch 10, the limit switch 10, the limit switch insertion cylinder (20), the ball bearing insertion cylinder (40) and the ball bearing 30 is built-in, the ball bearing 30 is vertical vertical movement according to the water level in the state in which the lower float 100 and the upper float 200 are combined While operating the compression spring protrusion 16 of the limit switch 10 and the ON / OFF of the limit switch 10 is operated according to the operating state of the compression spring protrusion 16. It's about the switch. In the automatic control float switch for adjusting the water level of the present invention, the float is characterized in that the material of the main body is made of ABS resin.

2 and 3, the ball bearing fixing groove 120 formed in the lower float 100 in the automatic control float switch for adjusting the water level of the present invention to a position biased in one direction from the central axis to the lower position inside the main body. Is formed so that when the ball bearing 30 moves in the vertical direction, the angle adjustment of the ball bearing 30 is made of the correct angle adjustment, so that the precise movement of the ball bearing 30 can be operated as a short path.

As shown in FIG. 6, the inner circumferential locking jaw 42 formed on the inner circumferential surface of the bearing insertion cylinder 40 in the automatic control float switch for level adjustment according to the present invention has a ball bearing 30 when the ball bearing 30 moves upward. The angle of the control can be made to the exact angle control and the precise movement can be operated as a short path of the shandong movement of the ball bearing (30).

In the float switch 400 of the present invention, the fixing weight 414 is suspended from the wire 300 of the float switch 400 and installed in the water tank 411. When the water level 413 rises as shown in FIG. 9, the float switch 400 is lifted up by the buoyancy and rises, and the ball bearing 30 is positioned at the inner circumferential jaw 42 of the ball bearing insertion cylinder 40. together

It moves in the lower direction of the ball bearing fixing groove 120 formed in the lower float 100.

As the ball bearing 30 moves as shown in FIG. 7, the compression spring protrusion 16 of the limit switch 10 moves in a clockwise direction while falling from the top of the compression spring protrusion 16 to stop the operation of the limit switch 10.

The electrical contact inside the limit switch 10 is variable to stop the operation of the pump.

In the present invention, when the water level rises as shown in FIG. 9 while the pump operates, the operation of the pump is stopped, and when the pump stops, the water level drops as shown in FIG. 10. When the water level is lowered as shown in FIG. 10, the float switch 400 descends to the bottom, and the ball bearing 30 in the ball bearing fixing groove 120 position of the lower float 100 is located at the ball bearing fixing groove 120 position. As shown in FIG. 8, the ball bearing 30 moves upwardly at the position of the inner circumferential locking jaw 42 of the ball bearing insertion cylinder 40, and is moved to the upper direction of the inner circumferential locking jaw 42 of the ball bearing insertion cylinder 40. Moves the compression spring protrusion 16 of the limit switch 10 counterclockwise. When the compression spring protrusion 16 of the limit switch 10 is moved counterclockwise, the compression spring protrusion 16 of the limit switch 10 moves in the upper counterclockwise direction, and the compression spring protrusion 16 is compressed. When the compression spring protrusion 16 operates the limit switch 10 to operate the limit switch 10 again, the electrical contact inside the limit switch 10 is changed to start operation of the pump.

In the automatic control float switch for adjusting the water level of the present invention, the float is preferably made of ABS resin.

1 is a perspective view showing an automatic control plot switch of the present invention.

Figure 2 is an exploded perspective view showing a state in which the ball bearing fixing groove 120 of the lower float 100 is deflected in the front and rear directions in the automatic control plot switch of the present invention.

Figure 3 is an exploded perspective view showing a state in which the ball bearing fixing groove 120 of the lower float 100 is deflected in the left and right directions in the automatic control plot switch of the present invention.

4 is an exploded perspective view showing a state in which the limit switch 10 is separated from the limit switch insertion cylinder 20.

5 is an exploded perspective view showing a state in which the limit switch 10 is separated from the limit switch insertion cylinder 20.

Figure 6 is a perspective view showing a ball bearing insertion cylinder 40 in the automatic control plot switch of the present invention.

7 is a cross-sectional view showing a state in which the limit switch and ball bearings operate in the lower plot in the automatic control plot switch of the present invention.

8 is a cross-sectional view showing a state in which the limit switch and ball bearings operate in the lower plot in the automatic control plot switch of the present invention.

9 is a perspective view showing a state in which the automatic control plot switch of the present invention is installed.

10 is a perspective view showing a state in which the automatic control plot switch of the present invention is installed.

Description of the Related Art

10: limit switch 12, 12 ': fixed through hole

14, 14 ', 14' ': Wire hook 16: Compression spring protrusion

20: limit switch insertion cylinder 22, 22 ': limit switch fixing projection

24: Limit switch fixing groove 30: Ball bearing

40: ball bearing insertion cylinder 42: inner peripheral jaw

44: outer jaw jaw 46: side locking projection

48: Upper cylinder protrusion 50, 50 ': Bolt

100: lower plot 106: locking groove

120: ball bearing fixing groove 130: top jamming

200: upper plot 230: locking groove

240: wire passing hole 300: wire

400: Float switch

411: water tank body 413: water level

414: fixed weight 420: inlet

430: drain

Claims (2)

A ball bearing fixing groove 120 deflected in one direction from the center axis is formed at a lower position inside the main body so that the ball bearing 30 can move in a direction deflected in one direction from the center axis, and the side surface of the ball bearing insertion cylinder 40 is formed. A lower plot 100 in which a plurality of side locking grooves 106 are formed on the side surfaces of the ball bearing fixing grooves 120 so that the locking protrusions 46 can be fixed; A locking groove 230 is formed at the bottom of the main body so as to be coupled to the upper locking protrusion 130 of the lower plot 100, and an upper float 200 having a wire passing hole 240 formed at the top of the main body. ; It is coupled to the upper position of the limit switch insertion cylinder 20 by bolts 50 and 50 ', and the wire connecting rings 14, 14' and 14 '' protrude from the upper surface, and the limit switch insertion cylinder is Limit switch 10 in which the compression spring protrusion 16 protrudes in the lower direction in the inner side of the 20; It is coupled to the upper cylindrical projection 48 of the ball bearing insertion cylinder 40, the fixing projections 22, 22 'are formed on the upper end of the main body so that the limit switch 10 can be coupled, the fixing projection 22 Limit switch insertion cylinder hole 20 is formed between the fixing groove 24, 22 '; It is coupled to the lower end of the limit switch insertion cylinder 20, the upper cylinder projection 48 is formed on the upper body so that the limit switch insertion cylinder 20 is coupled from the top, the limit switch insertion cylinder ( An outer circumferential engaging jaw 44 is formed on the outer circumferential side of the main body so that the 20 can be fixed in a coupled state at the top, and a crush stone on the lower outer circumferential surface of the main body so as to be coupled to the locking groove 106 of the lower float 100. Ball 46 is formed, the ball bearing insertion cylinder 40 is formed with an inner circumferential engaging jaw 42 is formed on the upper surface of the main body so that the angle adjustment of the ball bearing 30 to the upper direction can be made with an accurate angle adjustment ; The compression spring protrusion 16 of the limit switch 10 is compressed and separated while moving between the ball bearing fixing groove 120 of the lower float 100 from the inner circumferential locking jaw 42 of the ball bearing insertion cylinder port 40. It consists of a ball bearing 30 is built in the ball bearing fixing groove 120 of the lower float 100 so that the ON / OFF of (10) can be operated, the limit switch 10, the limit switch insertion cylinder (20) ), The ball bearing insertion cylinder (40) and the ball bearing (30) is built in the lower float 100 and the upper float (200) in the state in which the ball bearing 30 moves in accordance with the water level limit switch ( 10) to operate the compression spring projection 16 and the ON / OFF of the limit switch 10 in accordance with the operating state of the compression spring projection 16, the body material for water level control, characterized in that made of ABS resin Automatically controlled cylindrical float switch. delete

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