KR200477446Y1 - Rotary paddle level switch - Google Patents

Abstract

The rotary paddle level switch has a housing, a drive unit, two switches, an elastic member, a clutch, a transmission shaft, and a propeller. The elastic clip of the clutch holds the non-circular operating portion of the transmission shaft. When the drive unit drives and rotates the clutch, the transmission shaft and the propeller are driven by the clutch. When the propeller suddenly rotates rapidly due to excessive external force, the elastic clip keeps the electric shafts in elasticity. Therefore, the electric shafts rotating at a high speed are separated from the retainer of the elastic clips themselves and are not rotated Whereby the external force is not transmitted and the drive unit is not damaged. Since the clutch requires a clutch stand and an elastic clip simply to perform the above-described functions, the level switch is simple in structure and relatively inexpensive.

Description

Rotary Paddle Level Switch < RTI ID = 0.0 > {ROTARY PADDLE LEVEL SWITCH}

The present invention relates to level switches, and more particularly to a rotating paddle level switch adapted to detect raw material levels of a warehouse.

The level switch is applicable to the raw material management of the warehouse, and monitors the availability of raw materials in the warehouse or detects the level of raw materials stored in the warehouse. Raw materials in the warehouse can be any of a variety of commodities with a certain specific weight, such as feed, grain, peanut, malt, clay, sand, limestone, rock, sawdust, logging, Plastic pellets, regrinding plastics, coal, casting materials, and the like. The level switches can be classified into a rotating paddle level switch, a vibrating fork level switch, and a capacitive level switch according to the design concept of the level switch.

A conventional rotary paddle level switch has a housing, a drive unit, a first switch, a second switch, a torque spring, a transmission shaft, and a propeller. The drive unit is pivotally mounted in the housing and has a pressing rod mounted in an off-axis direction and extending in an eccentric direction. The two switches are mounted in the housing. One end of the torque spring is adjacent to the inner wall of the housing, and the other end of the torque spring presses the pressing rod so that the pressing rod is adjacent to the first switch. The electric shafts are driven by the drive unit and protrude out of the housing. The propeller is mounted on the outer end of the transmission shaft.

When a conventional rotary paddle level switch is mounted in a warehouse and operated, the drive unit drives the electric shafts and rotates the propeller. When the level of the stored raw material rises and reaches the propeller, the propeller and the electric shafts stop rotating due to the resistance caused by the raw materials, and the drive unit suppresses the torque springs to reverse the electric shafts. The compression rod of the drive unit is then apart from the first switch and adjacent to the second switch. After the compression rod is no longer adjacent to the first switch, the drive unit stops rotation of the transmission shaft. After such proximity, they send a signal that the raw material has accumulated to a specified level, thus achieving the purpose of monitoring the level of the raw materials stored in the warehouse.

However, the conventional rotary paddle level switch has the following problems.

First, while raw materials are being loaded into the warehouse, the raw material may hit the propeller at a certain angle, causing the propeller to suddenly rotate at high speed. When a part of the drive unit is rotated at a high speed as in the case of a power transmission shaft, it is likely to be damaged. Therefore, a clutch is mounted between the transmission shaft and the drive unit. When the propeller and the transmission shaft are subjected to an excessive external force, the clutch disconnects the connection between the transmission shaft and the drive unit to prevent damage to the drive unit. However, the conventional clutch is structurally complicated, and the manufacturing cost of the clutch is relatively high.

Second, if the propeller strikes the material that is piled up and becomes resistant, this resistance generates a torque indirectly applied to the torque spring. However, the sensitivity and accuracy of the torque springs are not as satisfactory as expected before and after deactivation of the drive unit.

The purpose of the present invention is to provide a structurally simple and inexpensive rotary paddle level switch.

To achieve the above object, a rotary paddle level switch has a housing, a circuit board, a first switch, a second switch, an elastic member, a clutch, a transmission shaft, and a propeller.

The circuit board is mounted inside the housing.

The drive unit is mounted inside the housing, and is electrically connected to the circuit board, and has a pressing member and an output member.

The compression member and the output member are not co-axial. The pressing member is mounted on the bottom of the driving unit. The output member is rotatably mounted on the drive unit and projects downward.

The first switch is mounted inside the housing and is electrically connected to the circuit board.

The second switch is mounted inside the housing and is electrically connected to the circuit board, and is separated from the first switch by a gap.

The elastic member is mounted in the housing, and the pressing unit of the driving unit pulls the driving unit so as to be adjacent to the first switch.

The transmission shaft is mounted in the housing and is formed at the top end of the transmission shaft and has a non-circular section. The bottom end of the transmission shaft projects downward out of the housing.

The clutch is mounted inside the housing, connected between the drive unit and the transmission shaft, driven by the drive unit to rotate, and has a clutch stand and an elastic clip.

The clutch stand is relatively non-relatively rotatably coupled to the output member of the drive unit and sleeves an actuation section of the transmission shaft.

The elastic clip is mounted inside the clutch stand and clips the operating portion of the transmission shaft and is selectively opened by the operating portion.

The propeller is mounted on the motor shaft and is located outside the housing.

The invention is based on the idea that when the elastic clips of the clutch hold the non-circular actuating portion of the transmission shaft and the drive unit drives and rotates the clutch during the regular operating state, the clutch is rotatable with the transmission shaft and the propeller, When the external force is suddenly driven by the external force to suddenly rotate the electric shafts, the electric shafts are rotated independently from the retaining force of the resilient clips without rotating the resilient clips, There is an advantage that the drive unit is not damaged because it is not transmitted. Since the clutch requires a clutch stand and an elastic clip simply to perform the above-described functions, the level switch is simple in structure and relatively inexpensive.

In addition, the elastic member is a tension spring having high sensitivity and high torque accuracy. Thus, the elastic spring allows the drive unit to store the torque and move the pressure member at the correct timing. The rotating paddle level switch further includes a light emitting unit connected to the housing and electrically connected to the circuit board. When the raw material is stacked up to the designated level, the second switch is triggered, and at the same time, the light emitting unit emits light for the user to see.

Other objects, advantages and novel features of the present invention will become apparent from the following detailed description with reference to the accompanying drawings.

1 is a perspective view of a rotatable paddle level switch.
Figure 2 is a partially exploded perspective view of the rotatable paddle level switch of Figure 1;
Figure 3 is another partially exploded perspective view of the rotatable paddle level switch of Figure 1;
Figure 4 is a partially enlarged perspective view of the assembled mounting desk and drive unit of Figure 2;
Figure 5 is a side view of a portion of the rotatable paddle level switch of Figure 1;
Figure 6 is a partially enlarged perspective view of the clutch and drive unit of Figure 2;
7 is an enlarged exploded view of the clutch of Fig.
8 is an operational top view of a portion of the clutch of FIG.
9 is an operational plan view of the drive unit of Fig.
10 is another operational top view of the drive unit of Fig.
11 is another operational top view of a portion of the clutch of Fig.

1 to 3, the rotary paddle level switch according to the present invention includes a housing 10, a circuit board 14, a drive unit 20, a first switch 31, a second switch 32, An elastic member 40, a light emitting unit 50, a clutch 60, a transmission shaft 70, and a propeller 80.

2 to 5, the housing 10 has a lower base 11, an upper cover 12, a supporting substrate 13, and a mounting desk 15. The lower base 11 and the upper cover 12 are coupled to define a chamber therein. A light-transmission portion 121 is mounted on the upper portion of the upper cover 1. The support substrate 13 is rigidly mounted inside the lower base 11 and has a first track hole 131. The first track hole 131 is a round hole formed through the support substrate 13. The mounting desk 15 is mounted on the upper portion of the supporting substrate 13 and has an insertion hole 151 and at least one wire track 152 and 153. The insertion hole 151 is formed on the upper surface of the mounting desk 15. At least one wire track (152, 153) is formed on the upper surface and the side surface of the mounting desk (15).

The circuit board 14 is mounted inside the housing 10 and mounted on the lower portion of the supporting board 13 and has a second track hole 141. [ The second track hole 141 is a curved hole formed through the support substrate 13. The second track hole 141 is located below the first track hole 131 of the support substrate 13. [

3 to 6, the drive unit 20 is rotatably mounted between the support board 13 and the mounting desk 15 and includes a plurality of electric wires 24, an output member 21, (22), and a plurality of spring holes (23). 4 and 5, the electric wire 24 is connected to the drive unit 20 and is connected to the circuit board 14 through the support substrate 13. [ The output member 21 is rotatably mounted on the drive unit 20 and projects downward. The output member 21 is mounted through the support substrate 13 and the circuit board 14. [ The drive unit 20 is mounted on a support substrate 13 and an output member 21 is rotatably mounted on the support substrate 13. [ A stop surface 211 is formed on the side surface of the output member 21. The press member 22 is mounted on the lower portion of the drive unit 20 and is mounted through the first track hole 131 of the support substrate 13 and the second track hole 141 of the circuit board 14 The first track hole 131, and the second track hole 141, as shown in FIG. The spring holes 23 are formed on the upper portion of the drive unit 20, and two adjacent spring holes 23 are aligned by being separated from each other by a gap. In this embodiment, the drive unit is a motor.

3, 5 and 6, the first switch 31 and the second switch 32 are mounted on the lower portion of the circuit board 10, are separated from each other by a gap, As shown in Fig. The first switch 31 and the second switch 32 have a first actuating part 311 and a second actuating part 321, respectively. The first actuating part 311 and the second actuating part 312 are mounted on the side surface of the first switch 31 and the side surface of the second switch 31 which are opposed to each other. When the first actuating part 311 and the second actuating part 312 are pressed, the second switch 31 and the second switch 32 are turned on. In this embodiment, the second switch 31 and the second switch 32 are double pole double throw (DPDT) switches. Depending on the conditions, the first switch 31 and the second switch 32 may also be optical switches, micro switches, Hall sensors, inductive sensors, and the like.

2 to 4, the elastic member 20 is mounted inside the housing 10, and is connected between the mounting desk 15 and the drive unit 20.

One end of the elastic member 40 is inserted into the insertion hole 151 of the mounting desk 15 and the other end of the elastic member 40 is inserted into one of the spring holes 23 on the drive unit 20, The member 40 can pull the drive unit 20 mounted on the support substrate 13 to be adjacent to the first actuating part 311 of the first switch 31 so that the first switch 31 31) are turned on. The spring hole 23 of the drive unit 20 is provided for selectively inserting the elastic member 40 into the spring hole in accordance with a desired pulling force of the elastic member 40 pulling the drive unit 20 . In this embodiment, the elastic member 40 is a tension spring. Given sensitivity and torque accuracy, the tension spring can accurately store in torque and the compression member can move at the correct time.

2 to 5, the light emitting unit 50 is mounted on the center of the upper surface of the mounting desk 15, and is located below the transparent portion 121 of the upper cover. The light emitting unit 50 has a plurality of electric wires 51 which are arranged on the upper surface and the side surface of the mounting desk 15 and on at least one of the wire tracks 152, 153 to be connected to the circuit board 14 in order. The light emitting unit 50 is connected to the second switch 32 through the electric wire 51 and the circuit board 14. Since at least one of the wire tracks 152 and 153 is mounted through the mounting desk 15, the electric wire 51 can be effectively fixed without moving to the periphery.

2 and 5 to 8, the clutch 60 is mounted on the lower base 11 of the housing 10 and is connected to the drive unit 20 and is driven by the drive unit 20 . The clutch 60 has a connecting member 61, a threaded member 62, a clutch stand 63, and an elastic clip 64. The connecting member 61 slides the output member 21 of the driving unit 20. The threaded member 62 is mounted to the connecting member 61 via a screw connection and is adjacent the upper surface 211 of the output member 21 so that the output member 21 drives the connecting member 61 And rotates together with the member (61). The clutch stand 63 partially sleeves the connecting member 61 and has a transmission recess 632, a limit hole 633, and a clip opening 631. A transmission recess 632 is formed on the lower surface of the clutch stand 63. The limit hole 633 is formed through the edge of the clutch stand 63 and is in the form of an elongated hole. The clip opening 631 is formed through the edge of the clutch stand 63 and the inner wall of the transmission recess 632 and communicates with the limit hole 633 and the transmission recess 632. The resilient clip 64 is made by bending a metal wire and is inserted into the transmission recess 632 through the clip opening 631 and has a curved portion 641, two clipping portions 642, limiting portion 643. The curved portion 641 has an arc shape. The two clipping portions 642 extend from the two ends of the curved portion 641, respectively, and are parallel to each other. The two limiting portions 643 extend vertically from the two outer ends of the clipping portion 642 and are parallel to each other and inserted into the limiting hole 633 so that the elastic member 64 is engaged with the edge portion 633 of the clutch stand 63. [ To prevent it from slipping easily.

The transmission shaft 70 is mounted on the lower base 11 of the housing 10 and is connected to the clutch 60 and has an operating portion 71. The operating portion 71 is formed at the upper end of the transmission shaft 70 and has a non-circular section. In this embodiment, the operating portion 71 has two abutment surfaces 711. [ The two abutting surfaces 711 are formed radially opposite to each other in the vicinity of the actuating portion 71. The operating portion 71 is mounted through the transmission recess 632 of the clutch stand 63 of the clutch 60 and the two abutting surfaces 711 of the operating portion 71 are mounted on the two And are held by elastic portions 642, respectively. The lower end of the transmission shaft (70) projects downward out of the housing (10).

1 and 2, a propeller 80 is mounted on the lower end of the transmission shaft 70, and is located outside the housing 10. As shown in FIG.

In use, the rotary paddle level switch is fixed in the warehouse and is electrically connected to the control system.

2, 8 and 9, if the level of the raw material stored in the warehouse does not reach the propeller 80 of the rotary paddle level switch, the output 21 of the drive unit 20 is driven by the clutch The coupling member 61 drives the clutch stand 63 and the clutch stand 63 is engaged with the elastic clip 64 mounted on the inner side of the clutch stand 63 The elastic clip 64 drives the propeller 80 mounted on the lower end of the transmission shaft 70 and the transmission shaft 70 held by the elastic clip 64 to rotate .

When the raw material is piled up to block the rotation of the propeller 80, the raw material becomes a resistance that prevents the propeller 80 and the transmission shaft from rotating. The higher the level of the stored raw material and accordingly the greater the area where the propeller 80 contacts, the greater the resistance. Finally, the transmission shaft 70 becomes unable to rotate as the resistance increases. 6, 8, and 10, as the resistance increases, the transmission shaft 70 is still held by the elastic clip 64, and the elastic clip 64 causes the elastic clip 64 ). Therefore, the transmission shaft 70, the clutch 60, and the output member 21 of the drive unit 20 do not move. On the other hand, since the drive unit 20 is still in a turned-on state, the output member 21 of the drive unit 20 must rotate in a direction opposite to the rotation direction of the drive unit 20, And is rotated from the first switch 21 to the second operation portion 312 of the second switch 32 so that the drive unit 20 is turned off and a signal indicating that the level of the raw material has reached the designated height To the control system. 1, 2, and 6, when the second operation portion 321 of the second switch is turned on, the light emitting unit 50 can also be turned on. The light emitted from the light emitting unit 50 is transmitted through the light transmitting portion of the housing 10 to be visible to the user.

The above description relates to the periodic operation of the rotating paddle level switch. 1, 2, and 11, when the raw material hits the propeller at a specific angle, and the propeller suddenly rotates at high speed together with the transmission shaft 70, the abrupt high-speed rotation speed of the transmission shaft 70 The retaining of the resilient clip 64 will be released so that the transmission shaft 70 does not drive the resilient clip 64 and rotates independently without rotating. Therefore, the sudden high speed is not transmitted to the drive unit 20, so that the drive unit 20 is not damaged and the object of providing the clutch 60 is achieved.

In order to achieve the above-described effect only with the clutch stand 63 and the elastic clip 64, the clutch 60 is simple in structure and inexpensive.

While the foregoing has described various features and advantages of the present invention with the detailed description of the structure and function of the present invention, the description is only illustrative. Modifications may be made within the spirit of the present invention so that the terms represented in the appended utility model registration claims generally have broad meanings, and in particular, modifications may be made in relation to the shape, size, have.

Claims (11)

In the rotary paddle level switch,
housing;
A circuit board mounted on the inside of the housing;
A driving unit rotatably mounted inside the housing and electrically connected to the circuit board and having a pressing member and an output member, wherein the pressing member and the output member are not co-axial, Wherein the pressing member is mounted on a bottom of the driving unit, the output member is rotatably mounted on the driving unit and projects downward;
A first switch mounted inside the housing and electrically connected to the circuit board;
A second switch mounted inside the housing and electrically connected to the circuit board, the second switch being separated from the first switch by a gap;
An elastic member mounted in the housing, the elastic member pulling the driving unit such that the pressing member of the driving unit is adjacent to the first switch;
A lower end of the transmission shaft is mounted on the housing, the lower end of the transmission shaft is fixed to the housing, Said transmission shaft projecting downwardly outward;
A clutch mounted on the inside of the housing and connected between the driving unit and the driving shaft and driven by the driving unit to rotate; And
A propeller mounted on the transmission shaft and located on the outside of the housing,
/ RTI >
The clutch
A clutch stand rotatably coupled to an output member of the drive unit in a relatively non-relative manner and sleeving an operating portion of the transmission shaft; And
And an elastic clip mounted inside the clutch stand and clipping an operating portion of the transmission shaft and being selectively opened by the operating portion,
The clutch stand includes:
A transmission recess formed on a bottom surface of the clutch stand; And
A clip opening formed to penetrate an edge of the clutch stand and an inner wall of the transmission recess, the clip opening communicating with the transmission recess,
Lt; / RTI >
The elastic clip of the clutch is mounted on the transmission recess of the clutch stand,
And an operating portion of the transmission shaft is mounted through the transmission recess of the clutch stand. The method according to claim 1,
The elastic clip is manufactured by bending a metal wire,
A curved-portion in the form of an arc; And
Two clipping portions each extending from two ends of the curved portion and parallel to each other,
And a paddle-type switch. 3. The method of claim 2,
Wherein the resilient clip has two limiting portions extending perpendicularly from two outer ends of the clipping portion and parallel to each other.
delete delete The method of claim 3,
The clutch stand includes:
A transmission recess formed on a lower surface of the clutch stand;
A clip opening formed through an edge of the clutch stand and an inner wall of the transmission recess, the clip opening communicating with the transmission recess; And
A limit hole formed vertically through the edge of the clutch stand,
Lt; / RTI >
Wherein an elastic clip of the clutch is mounted on a transmission recess of the clutch stand, two limbs of the elastic clip are inserted in the limit hole,
Wherein an operating portion of the transmission shaft is mounted through a transmission recess of the clutch stand. The method according to any one of claims 1, 2, 3, and 6,
Wherein the operating portion of the transmission shaft has two adjacent surfaces formed radially opposite to the periphery of the operating portion. The method according to any one of claims 1, 2, 3, and 6,
The housing includes:
A support substrate mounted on the inside of the housing; And
A mounting desk mounted on the inside of the housing and mounted on an upper portion of the supporting board;
Lt; / RTI >
Wherein the drive unit is pivotally mounted between the support substrate and the mounting desk,
And the two ends of the elastic member are respectively connected to the mounting desk and the drive unit. 9. The method of claim 8,
Wherein the support substrate comprises: a first track hole formed through the support substrate;
Wherein the circuit board is mounted on a lower portion of the support substrate and has a second track hole formed through the circuit board,
Wherein the first switch and the second switch are mounted on a lower portion of the circuit board,
Wherein the compression member of the drive unit is mounted through the first track hole of the support substrate and the second track hole of the circuit board. The method according to any one of claims 1, 2, 3, and 6,
A light emitting unit connected to the housing and electrically connected to the circuit board,
Further comprising a paddle-type switch.
In the rotary paddle level switch,
housing;
A circuit board mounted on the inside of the housing;
A driving unit rotatably mounted inside the housing and electrically connected to the circuit board and having a pressing member and an output member, wherein the pressing member and the output member are not co-axial, Wherein the pressing member is mounted on a bottom of the driving unit, the output member is rotatably mounted on the driving unit and projects downward;
A first switch mounted inside the housing and electrically connected to the circuit board;
A second switch mounted inside the housing and electrically connected to the circuit board, the second switch being separated from the first switch by a gap;
An elastic member mounted in the housing, the elastic member pulling the driving unit such that the pressing member of the driving unit is adjacent to the first switch;
A lower end of the transmission shaft is mounted on the housing, the lower end of the transmission shaft is fixed to the housing, Said transmission shaft projecting downwardly outward;
A clutch mounted on the inside of the housing and connected between the driving unit and the driving shaft and driven by the driving unit to rotate; And
A propeller mounted on the transmission shaft and located outside the housing,
The clutch
A clutch stand rotatably coupled to an output member of the drive unit in a relatively non-relative manner and sleeving an operating portion of the transmission shaft; And
And an elastic clip mounted inside the clutch stand and clipping an operating portion of the transmission shaft and being selectively opened by the operating portion,
The elastic clip is manufactured by bending a metal wire,
A curved-portion in the form of an arc; And
And two clipping portions each extending from two ends of the curved portion and parallel to each other,
The clutch stand includes:
A transmission recess formed on a lower surface of the clutch stand; And
A clip opening formed through an edge of the clutch stand and an inner wall of the transmission recess, the clip opening communicating with the transmission recess,
The elastic clip of the clutch is mounted on the transmission recess of the clutch stand,
And an operating portion of the transmission shaft is mounted through the transmission recess of the clutch stand.

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