KR101348246B1 - Device for isolation over load in power transmission apparatus - Google Patents

Abstract

An invention is disclosed for an overload cut-off of a power train. The overload cut-off device of the disclosed power train includes: a shear pin that couples the flange and the sprocket to each other so that the flange and the sprocket rotated by the operation of the power train, and a shear pin provided on the sprocket to sense the operating speed of the sprocket. And a control unit configured to display a driving speed of the sensing unit for detecting whether the front end of the sprocket is detected by the sensing unit, and to control the operation of the power transmission device according to whether the shear pin is sheared.

Description

Overload breaker of power train {DEVICE FOR ISOLATION OVER LOAD IN POWER TRANSMISSION APPARATUS}

The present invention relates to an overload cut-off of a power transmission device, and more particularly, to protect a power transmission device by an alarm and a power cut-off due to an overload, and to measure an operating speed of a power transmission device, which is advantageous for maintenance. An overload cutoff device is provided.

In general, the power transmission device of the output shaft of the power transmission portion or the power input shaft portion of the machine is provided with a device that can block the transmission of power in order to prevent damage to the machine when an overload occurs. Shea pins are widely used.

The shear pin is coupled to the flange rotated with the drive shaft and the sprocket for transmitting the rotational force of the flange is rotated with the flange, when the overload occurs, the shear pin is sheared to block the rotation force.

The flange is continuously rotated by the power train, and the lever formed on the flange comes into contact with the stationary sprocket to operate the limit switch to stop the power train.

On the other hand, Korean Patent Laid-Open No. 2003-0054381 (published: 2003.07.02) discloses an "overload blocking device for a rotating body".

In general, the power cutoff device operates every few months or years, so that the rotating part of the lever is not rotated due to corrosion or inflow of foreign matters, thereby causing a malfunction of the machine due to inoperability. In addition, there is a problem that detailed operation is difficult because the power is simply cut off and the breakage of the machine is stopped but the operating speed is not measured.

Therefore, there is a need to improve this.

The present invention has been created by the necessity as described above, it is possible to protect the power transmission device by the alarm and power cut off due to overload, and to measure and display the operating speed of the sprocket, which is advantageous in terms of maintenance and maintenance, enabling detailed operation. It is an object of the present invention to provide an overload cut-off of a power train.

The overload cut-off device of the power transmission apparatus according to the present invention includes: a shear pin which mutually couples the flange and the sprocket so that the flange and the sprocket rotated by the operation of the power transmission device, and are provided on the sprocket, A control unit for sensing the operating speed of the sensing unit for detecting the shear shear of the shear pin and the operating speed of the sprocket detected by the sensing unit, and the control unit to control the operation of the power transmission device according to the shear shear of the shear pin It includes.

The sensing unit may include a shaft member fixed to the sprocket, an encoder for detecting rotation of the shaft member and transmitting a detection value to the controller, and a fixing bracket for fixing the encoder.

In addition, the shaft member is characterized in that it comprises a split cover detachable to the sprocket.

In addition, the shaft member and the encoder is characterized in that connected by the shaft coupling member.

In addition, the fixing bracket is characterized in that the length is variable so that the height of the encoder is adjusted.

In addition, the controller is characterized in that it comprises a notification unit for displaying the operating speed of the sprocket detected by the encoder, and generates an alarm sound.

In the overload cutoff device of the power transmission device according to the present invention, when an overload occurs in the chain connected to the drive shaft or the sprocket, the rotation force is cut off at the front end of the shear pin, and the encoder detects this to turn off the operation of the power transfer device from the control unit. It has the effect of protecting the power train.

In addition, the present invention because the operating speed of the sprocket is sensed through the encoder, the detected operating speed is displayed, the maintenance is advantageous has the effect of enabling a fine operation.

In addition, the present invention is easy to install because the encoder for detecting the operating speed of the sprocket is connected by the shaft member and the shaft joint member, fixed by a variable length of the fixed bracket can be used in a variety of power transmission devices Have

1 is a perspective view of an overload blocking device of a power transmission device according to an embodiment of the present invention,
2 is a cross-sectional view of the overload blocking device of the power transmission device according to an embodiment of the present invention;
Figure 3 is an enlarged view of the main part of the overload blocking device of the power transmission device according to an embodiment of the present invention,
Figure 4 is an operating state diagram of the overload blocking device of the power transmission device according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of an overload blocking device of a power transmission device according to the present invention. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 to 4, the overload blocking device 100 of the power transmission device according to an embodiment of the present invention includes a shear pin 110, a sensing unit 120, and a controller 160.

A flange 30 is provided at the front end of the drive shaft 20 that transmits power of the power transmission device 10, and the flange 30 is rotated by the operation of the power transmission device 10. The sprocket 40 is rotatably fitted to the outside of the flange 30 so as not to be separated by the end plate, and the flange 30 and the sprocket 40 are fixed by the shear pin 110 and rotated together.

In this embodiment, although the sprocket 40 and the chain 45 are shown as a configuration for transmitting the rotation of the drive shaft 20, it is not limited thereto, and a pulley, a belt, a gear, etc. designed to transmit the rotation of the drive shaft 20 are designed. Changes are possible.

The shear pin 110 is fitted into and fixed to the through holes 30a and 40a formed to correspond to the flange 30 and the sprocket 40, respectively, as shown in FIG. The groove 115 is formed to achieve this.

The sensing unit 120 is provided in the sprocket 40 to detect the driving speed of the sprocket 40, for example, the rotation speed, to detect whether the shear pin 110 is sheared.

The sensing unit 120 detects the shaft member 130 fixed to the sprocket 40 and the encoder 140 and the encoder 140 which detect the rotation of the shaft member 130 and transmit the detected value to the controller 160. It includes a fixing bracket 150 for fixing.

The shaft member 130 includes a split cover 132 detachable from the sprocket 40. That is, the split cover 132 is integrally formed with the shaft member 130, and is in contact with the front surface of the sprocket 40 and is fixed by bolting. The shaft member 130 is rotated together with the sprocket 40.

In the present embodiment, the shaft member 130 is illustrated as being detached by bolting to the sprocket 40, but is not limited thereto, and various design changes are possible.

The encoder 140 is rotated along with the rotation of the shaft member 130 to sense the driving speed of the sprocket 40, and the inside of the encoder 140 emits light through a light emitting device (LED) and light of the light transmitting device. Receiving light receiving element, consisting of a rotating disk installed therebetween, is formed around the circle of the rotating disk many slots. As such, the axis of the rotating disk is connected to the shaft member 130 to be rotated, and pulses are output per unit time by light passing through the slot to detect the operating speed of the sprocket 40.

Therefore, the driving speed of the sprocket 40 can be sensed to determine whether the shear pin 110 is sheared.

At this time, the shaft member 130 and the encoder 140 is connected by the shaft coupling member 135. The shaft coupling member 135 may correspond to the diameter of the shaft member 130, and various encoders 140 may be applied.

The fixed bracket 150 is variable in length so that the height of the encoder 140 is adjusted. That is, since the encoder 140 should be matched with the center of the sprocket 40, it is easy to adjust it due to the variable length of the fixing bracket 150, and can be applied to various power transmission devices.

The fixed bracket 150 is composed of a support bracket 152 coupled to the power transmission device 10 and a variable bracket 155 to which the encoder 140 is fixed, and the variable bracket 155 slides on the support bracket 152. A slide groove 153 is formed to be drawn out, and a fixing screw 154 is provided to press and fix the variable bracket 155.

In this embodiment, the length adjustment of the fixing bracket 150 is divided into the support bracket 152 and the variable bracket 155, but the variable bracket 155 is shown as being drawn out from the slide groove 153, but is not limited thereto. Various modifications are possible.

The controller 160 controls the operation of the power transmission device 10 based on the detected value detected by the sensing unit 120. That is, the rotation speed and the driving speed of the sprocket 40 sensed by the encoder 140 are transmitted to the controller 160 to determine whether the shear pin 110 is sheared, and according to whether the power transmission device 10 is sheared. To intervene.

The controller 160 includes a notification unit 165 that displays the rotation speed of the sprocket 40 sensed by the encoder 140 and generates a warning sound.

This control unit 160 can protect the power transmission device 10 by the alarm and power cut off by the overload of the sprocket 40, the maintenance unit is advantageous by the operation speed measurement by the alarm unit 165.

Looking at the operation of the overload blocking device of the power transmission device according to an embodiment of the present invention having the above structure as follows.

First, when transmitting a rotational force through the drive shaft 20 by the operation of the power transmission device 10, the flange 30 and the sprocket 40 of the drive shaft 20 is rotated together by the shear pin 110, wherein The encoder 140 detects the rotation speed and the driving speed of the sprocket 40.

The rotation of the sprocket 40 is detected by the encoder 140, and the detection signal is displayed through the notification unit 165 of the controller 160.

When an overload occurs in the chain 45 connected to the drive shaft 20 or the sprocket 40, since the shear force 110 inserted through the sprocket 40 and the flange 30 is sheared and the rotation force is cut off, the flange 30 ) Rotates continuously, and the sprocket 40 does not rotate.

If the sprocket 40 is not rotated, it is detected by the encoder 140, this detection signal is transmitted to the control unit 160, the control unit 160 generates an alarm sound by the alarm unit 165 and At the same time, the operation of the power train 10 is turned off.

Therefore, the alarm by overload can be notified quickly, and the power transmission device 10 can be protected by a power interruption.

By the notification unit 165 can display the operating speed of the sprocket 40 can be operated more precisely the site situation has a favorable maintenance effect.

In addition, the shaft member 130 for transmitting the rotational force of the sprocket 40 to the encoder 140 is provided with a split cover 132 bolted to the front of the sprocket 40 is provided with an encoder ( 140 is easy to install, and the shaft member 130 and the encoder 140 are connected by the shaft coupling member 135 so that they can correspond to the diameter of the shaft member 130, the encoder 140 of various standards Applicable to improve compatibility.

In addition, the fixing bracket 150 for fixing the encoder 140 is adjustable in length to facilitate installation in a variety of power transmission device 10, there is no need to separately manufacture a variety of fixing bracket for fixing the encoder 140 Has an effect.

As described above, according to the present embodiment, the power transmission device can be protected by the alarm and the power cut off due to the overload, and the operation speed can be measured, so maintenance is advantageous.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Accordingly, the true scope of protection of the present invention should be defined by the claims.

10: power transmission device 20: drive shaft
30: flange 40: sprocket
100: overload breaker 110: shear pin
115: groove portion 120: sensing portion
130: shaft member 132: split cover
135: shaft joint member 140: encoder
150: fixing bracket 152: support bracket
153: slide groove 154: fixing screw
155: variable bracket 160: control unit
165: notification unit

Claims (6)

Shear pins for mutually coupling the flange and the sprocket so that the flange and the sprocket rotated by the operation of the power transmission device;
A sensing unit provided in the sprocket for sensing an operation speed of the sprocket and detecting whether the shear pin is sheared; And
A control unit configured to display an operation speed of the sprocket sensed by the sensing unit and to control the operation of the power transmission device according to whether the shear pin is sheared;
The sensing unit is a shaft member fixed to the sprocket;
An encoder for detecting rotation of the shaft member and transmitting a detected value to the controller; And
A fixing bracket for fixing the encoder;
The shaft member and the encoder are connected by a shaft joint member;
The fixed bracket is variable in length so that the height of the encoder is adjusted;
The fixing bracket is a support bracket coupled to the power transmission device;
The encoder is fixed, overload blocking device of the power transmission device, characterized in that it comprises a variable bracket which is slidably moved from the support bracket, the position is fixed by a fixing screw.
delete The method of claim 1,
The shaft member is an overload blocking device of the power transmission device, characterized in that it comprises a split cover detachable to the sprocket.
delete delete The method of claim 1,
The control unit is an overload cut-off of the power transmission device, characterized in that for displaying the operation speed of the sprocket detected by the encoder, including a notification unit for generating an alarm sound.

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