KR20210043269A - Apparatus for measuring movement length of chain - Google Patents

Abstract

The present invention relates to a device for measuring moving length of a chain. More specifically, one embodiment of the present invention, the device comprises: a body unit; a lifting chain provided to be movable to the body unit; and a measurement unit capable of measuring moving length of the lifting chain inside the body unit.

Description

Chain movement length measuring device{APPARATUS FOR MEASURING MOVEMENT LENGTH OF CHAIN}

The present invention relates to an apparatus for measuring the travel length of a chain.

In general, a chain block is an equipment used to lift small and medium-sized heavy objects that are heavy to be lifted by the operator in a working condition where it is difficult to use a large lifting device such as a crane. Install a separate support and hang the main body of the chain block on the support for use.

In addition, the chain block is used for work requiring fine adjustment of the length because it can be arbitrarily adjusted, unlike wires with a fixed length. In particular, when lifting blocks having multiple stages with different heights of the lifting points, a chain block may be used.

However, when a part with a different height of the lifting point is lifted with a chain block, the length of the chain from the main body of the chain block to the lifting point is accurately measured and the block cannot be lifted, and the work is frequently performed depending on the feeling of the operator. Occurred. In this way, when the work is done depending on the operator's sense, the block is tilted and lifted when the block is lifted. To prevent this, the operator performs the work by finely adjusting the length of the chain.

Accordingly, there is a need for a device capable of accurately measuring the length of the chain moved from the main body of the chain block to the lifting point of the object to be lifted by the sense of the operator.

Embodiments of the present invention, as invented in the background as described above, are intended to provide a chain movement length measuring device capable of accurately measuring the length of a chain moved from the main body of the chain block to the lifting point of an object to be lifted.

According to an aspect of the present invention, the body portion; A lifting chain provided to be movable with respect to the body portion; And a measuring unit capable of measuring the moving length of the lifting chain within the body portion, a moving length measuring device of the chain may be provided.

In addition, the body portion includes a guide unit capable of guiding the movement of the lifting chain, and the measurement portion includes a count button provided in the guide unit and capable of being pressed by the lifting chain when the lifting chain moves. , A device for measuring the moving length of the chain may be provided.

In addition, the lifting chain includes a first chain ring and a second chain ring disposed to extend in a misaligned direction and alternately connected to each other, and the count button is, when the lifting chain moves, by the first chain ring A first count button that can be pressed; And a second count button that can be pressed by the second chain ring when the lifting chain moves.

In addition, the guide unit includes a first guide part for guiding the movement of the first chain ring and a second guide part for guiding the movement of the second chain ring, and the first count button on the first guide part The moving length measuring device of the chain may be provided, in which a first guide groove that is movable is formed, and a second guide groove through which the second count button is movable is formed in the second guide part.

In addition, the measurement unit, the detection unit for generating a pressing signal by detecting the pressing of the count button by the movement of the lifting chain; And a control unit for calculating the moving length of the lifting chain through the number of times of the pressing signal generated from the sensing unit and the length per ring of the lifting chain.

According to an embodiment of the present invention, it is possible to accurately measure the length of the chain that has moved from the main body of the chain block to the lifting point of the object to be lifted.

1 is a perspective view of an apparatus for measuring a moving length of a chain according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of an apparatus for measuring a moving length of a chain cut along A-A' of FIG. 1.
3 is an enlarged view of B of FIG. 2
4 is an enlarged view when the second count button is moved
5 is a front view of the device for measuring the moving length of the chain of FIG. 1.

Hereinafter, specific embodiments for implementing the spirit of the present invention will be described in detail with reference to the drawings.

In addition, in describing the present invention, when it is determined that a detailed description of a related known configuration or function may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

In addition, in the present specification, expressions such as the upper side, the lower side, and the side are described with reference to the drawings in the drawings, and it should be noted in advance that if the direction of the corresponding object is changed, it may be expressed differently. Meanwhile, in the present specification, the vertical direction may be the vertical direction of FIGS. 2 to 4. In addition, the left-right direction may be the left-right direction of FIGS. 2 to 4.

Hereinafter, a specific configuration of the apparatus 1 for measuring the moving length of a chain according to an embodiment of the present invention will be described with reference to the drawings.

Hereinafter, referring to FIG. 1, the apparatus 1 for measuring a moving length of a chain according to an exemplary embodiment of the present invention may measure a length of a lifting chain 200, which will be described later, moved with respect to the body portion 100. In other words, the moving length of the lifting chain 200 that has moved from the body portion 100 to the lifting point may be measured. The device 1 for measuring the moving length of the chain may include a body part 100, a lifting chain 200, a measuring part 300, a pulling chain 400, and a shaft part 500.

The body part 100 may support the lifting chain 200, the measuring part 300, the pulling chain 400, and the shaft part 500. The body part 100 may include a body part body 110, a separation preventing member 120, a guide unit 130, and a body ring 140.

The body portion body 110 may support the lifting chain 200, the measuring portion 300, the pulling chain 400, and the shaft portion 500. In addition, the body portion body 110 may provide a space in which the guide unit 130 and the measurement unit 300 are accommodated.

The separation preventing member 120 may prevent the pulling chain 400 from being separated from the rotating member 510. In other words, by disposing the pulling chain 400 in the space between the separation preventing member 120 and the body portion 110, the separation preventing member 120 is separated from the pulling chain 400 from the rotating member 510 Can be prevented. This separation preventing member 120 may be connected to the body portion body 110, it may be connected to one end of the interlocking shaft (520). Referring to FIG. 5, a display 121 may be provided on one side of the departure preventing member 120. The display 121 may display the moving length of the lifting chain 200 calculated by the control unit 340 of the measurement unit 300 to be described later. In other words, when the lifting chain 200 is caught on the lifting point, the display 121 may display the length of the lifting chain 200 moved to the lifting point.

2 to 4, the guide unit 130 may guide the movement of the lifting chain 200 from the inside of the body part 110. In addition, the guide unit 130 may guide the movement of the count button 310. The guide unit 130 may be formed to protrude to the inside of the body body 110. In addition, the guide unit 130 may include a first guide part 131 and a second guide part 132.

The first guide part 131 may guide the movement of the first chain ring 210 to be described later from the inside of the body part 110. In addition, the first guide part 131 may guide the movement of the first count button 311 in a direction that deviates from a direction guiding the movement of the first chain ring 210. For example, the first guide part 131 may guide the movement of the first count button 311 in a direction perpendicular to the movement direction of the first chain ring 210. The first guide part 131 may protrude from one surface of the body part 110. In addition, among the circumferential surfaces of the first guide part 131, surfaces disposed in a path through which the first chain ring 210 passes may be formed to have a different length from the other surfaces. In other words, the remaining surfaces of the first guide part 131 are formed longer than the surfaces disposed in the path through which the first chain ring 210 passes, so that the movement of the first chain ring 210 can be guided from both sides. have.

In addition, a first guide groove 131a may be formed in the first guide part 131 to provide a space in which the first count button 311 and the first elastic member 321 may be disposed. The first count button 311 may move within the first guide groove 131a. Also. The first guide groove 131a may be retracted into the first guide part 131.

The second guide part 132 may guide the movement of the second chain ring 220 to be described later from the inside of the body part 110. In addition, the second guide part 132 may guide the movement of the second count button 312 in a direction that deviates from a direction guiding the movement of the second chain ring 220. For example, the second guide part 132 may guide the movement of the second count button 312 in a direction perpendicular to the movement direction of the second chain ring 220. The second guide part 132 may protrude from one surface of the body part 110. In addition, among the circumferential surfaces of the second guide 132, surfaces disposed in the path through which the second chain ring 220 passes may be formed to have a different length from the other surfaces. In other words, the remaining surfaces of the second guide part 132 are formed longer than the surfaces disposed in the path through which the second chain ring 220 passes, so that the movement of the second chain ring 220 can be guided from both sides. have.

In addition, a second guide groove 132a providing a space in which the second count button 312 and the first elastic member 321 may be disposed may be formed in the second guide part 132. The second count button 312 may move within the second guide groove 132a. Also. The second guide groove 132a may be formed to be inserted into the second guide portion 132.

The body ring 140 may support the body portion body 110 with a locking device (not shown). In other words, when the object is lifted through the lifting chain 200, the body ring 140 may support the body part 110 by being caught by the locking device. For example, the body ring 140 may be provided in a hook shape.

The lifting chain 200 may receive power from the interlocking shaft 520 of the shaft portion 500 to be described later to lift the object. The lifting chain 200 may be wound around the interlocking shaft 520 and may be moved by rotation of the interlocking shaft 520. In addition, the length per ring of the lifting chain 200 may be stored in the control unit 340 to be described later. Here, the length per ring of the lifting chain 200 may be any one of the first chain ring 210 and the second chain ring 220. The lifting chain 200 may include a first chain ring 210 and a second chain ring 220.

The first chain ring 210 and the second chain ring 220 may be alternately connected to each other to form the lifting chain 200. In addition, the first chain ring 210 and the second chain ring 220 may be disposed to extend in a direction that deviates from each other. The first chain ring 210 and the second chain ring 220 may have a cyclic shape, and may have the same shape as each other. For example, the first chain ring 210 and the second chain ring 220 may be connected so that the same rings are arranged vertically to each other so as to alternate with each other. In addition, the length of the first chain ring 210 and the length of the second chain ring 220 may be provided differently from each other.

The hook 230 may connect the lifting chain 200 and the lifting body. In other words, the hook 230 may be connected to the lifting body or caught on the lifting body in order to lift the lifting body through the lifting chain 200. In addition, one end of the hook 230 may be connected to any one of the first chain ring 210 and the second chain ring 220. When the hook 230 is caught by the lifting body, the lifting chain 200 may lift the lifting body by moving the hook 230 in one direction.

The measurement unit 300 may measure the length of the lifting chain 200 moved from the inside of the body unit 100. Here, the length of the lifting chain 200 moved from the inside of the body part 100 may be a distance that the lifting chain 200 has moved from the body part 100 to the lifting body in order to lift the lifting body. The measurement unit 300 may include a count button 310, an elastic unit 320, a sensing unit 330, and a control unit 340.

2 to 4, the count button 310 may be pressed by the lifting chain 200. In other words, the count button 310 may be pressed in the inner direction of the guide unit 130 by the movement of the first chain ring 210 and the second chain ring 220. When the pressure of the count button 310 pressed by the lifting chain 200 is released, it may be returned to its original position by an elastic part 320 which will be described later. In addition, in order to be pressed by the movement of the lifting chain 200, the shape of one end of the count button 310 may have a partial inclination or a round shape. For example, a part of one end of the count button 310 may have a semi-cylindrical or triangular column shape. The count button 310 may include a first count button 311 and a second count button 312.

The first count button 311 may be pressed by the first chain ring 210 when the lifting chain 200 moves. The first count button 311 may move in a direction that deviates from a direction in which the first chain ring 210 moves. For example, in FIG. 3, the first count button 311 is pressed by the first chain ring 210, so that the first count button 311 may be moved upward in FIG. 3. In addition, one end of the first count button 311 may be connected to a first elastic member 321 to be described later. In other words, when the first count button 311 is moved upward by being pressed by the first chain ring 210, the first count button 311 has an elastic force in the downward direction by the first elastic member 321. Can work. In addition, when the pressure applied to the first count button 311 moved upward by the first chain ring 210 is released, the first count button 311 is moved downward by the first elastic member 321 ( 1) can be moved to the position before being pressed by the chain ring 210.

The first count button 311 may be disposed inside the first guide groove 131a and may move vertically from the inside of the first guide groove 131a. The movement of the first count button 311 may be guided in the vertical direction by the first guide part 131.

The second count button 312 may be pressed by the second chain ring 220 when the lifting chain 200 moves. The second count button 312 may move in a direction that deviates from the direction in which the second chain ring 220 moves. For example, the second count button 312 in FIG. 3 may be moved to the left side of FIG. 4 by being pressed by the second chain ring 220. In addition, one end of the second count button 312 may be connected to a second elastic member 322 to be described later. In other words, when the second count button 312 moves to the left by being pressed by the second chain ring 220, the second count button 312 has an elastic force in the right direction by the second elastic member 322. Can work. In addition, when the pressure applied to the second count button 312 moved to the left by the second chain ring 220 is released, the second count button 312 is moved to the right by the second elastic member 322 ( 2) can be moved to the position before being pressed by the chain ring 220.

The second count button 312 may be disposed inside the second guide groove 132a and may move vertically from the inside of the second guide groove 132a. The movement of the second count button 312 may be guided in the left and right directions by the second guide unit 132.

The elastic part 320 may apply an elastic force to the count button 310. In other words, when the count button 310 is pressed by the movement of the lifting chain 200, the elastic part 320 may apply an elastic force to the count button 310 in a direction opposite to the pressing direction. The elastic part 320 may include a first elastic member 321 and a second elastic member 322.

The first elastic member 321 may apply an elastic force to the first count button 311. In other words, when the first count button 311 is pressed in the upward direction by the movement of the first chain ring 210, the first elastic member 321 may apply an elastic force to the first count button 311 in the downward direction. I can. One side of the first elastic member 321 may be connected to the first count button 311, and the other side of the first elastic member 321 may be supported by the first guide part 131. In addition, a sensor unit 330 may be provided on the other side of the first elastic member 321. The first elastic member 321 may expand and contract inside the first guide groove 131a.

The second elastic member 322 may apply an elastic force to the second count button 312. In other words, when the second count button 312 is pressed in the left direction by the movement of the second chain ring 220, the second elastic member 322 may apply an elastic force to the second count button 312 in the right direction. I can. One side of the second elastic member 322 may be connected to the second count button 312, and the other side of the second elastic member 322 may be supported by the second guide part 132. In addition, a sensor unit 330 may be provided on the other side of the second elastic member 322. The second elastic member 322 may expand and contract inside the second guide groove 132a.

The detection unit 330 may detect the pressing of the count button 310 due to the movement of the lifting chain 200 and generate a pressing signal. In other words, when the count button 310 is pressed, the sensing unit 330 may sense a pressure applied to the elastic unit 320 and generate a pressing signal. For example, the sensing unit 330 may be a pressure sensor. In addition, the pressing signal generated by the detection unit 330 may be transmitted to the control unit 340 to be described later. A plurality of such sensing units 330 may be provided, and may be provided on one side of the first elastic member 321 and one side of the second elastic member 322.

The control unit 340 may measure the length of the lifting chain 200 moved to be connected to the lifting body. Here, the length of the lifting chain 200 moved to be connected to the lifting body is the same as the length of the lifting chain 200 to be moved inside the body portion 100. The length of each ring of the lifting chain 200, that is, the lengths of the first chain ring 210 and the second chain ring 220, may be stored in the control unit 340, respectively.

In addition, the control unit 340 may receive a pressing signal from the detection unit 330. The control unit 340 may calculate the moving length of the lifting chain 200 by multiplying the length per ring of the lifting chain 200 by the number of pressing signals transmitted from the sensing unit 330. Here, the number of times of the pressing signal may be the same as the number of times the count button 310 is pressed, and the number of the first chain rings 210 that have passed through the first guide unit 131 and the second guide unit 132 ) May be equal to the sum of the number of second chain rings 220 that have passed through. The moving length of the lifting chain 200 calculated by the control unit 340 may be converted into a digital signal and transmitted to the display 121.

Such a control unit 340 may be implemented by a memory device and a computing device including a microprocessor, a measuring device such as a sensor, and the like, and the implementation method is obvious to those skilled in the art, and thus further detailed description thereof will be omitted.

The pulling chain 400 may receive power from the outside and transmit power to the rotating member 510 of the shaft part 500 to be described later. This pulling chain 400 may be wound around the rotating member 510 and may be gripped by a user. For example, the pulling chain 400 may be pulled by a user, thereby rotating the rotating member 510.

The shaft part 500 may receive power from the pulling chain 400 and transmit power to the lifting chain 200. The shaft part 500 may include a rotating member 510 and an interlocking shaft 520.

The rotating member 510 may wrap the interlocking shaft 520 and may receive power from the pulling chain 400 and transmit it to the interlocking shaft 520. In other words, the rotating member 510 may rotate by the movement of the pulling chain 400, thereby rotating the interlocking shaft 520.

The interlocking shaft 520 may move the lifting chain 200 by rotating by rotation of the rotating member 510. The interlocking shaft 520 may be rotatably connected to the inner side of the body part 100.

Hereinafter, the operation and effect of the apparatus 1 for measuring the moving length of the chain having the above-described configuration will be described.

The user may support the body part 100 on the fixing device in order to lift the lifting body. When the body portion 100 is supported, the lifting chain 200 can be moved to the periphery of the lifting body. The count button 310 may be pressed by the movement of the lifting chain 200, and the lifting chain 200 is moved through the length per ring of the lifting chain 200 and the number of times the count button 310 is pressed. You can measure the length. The moving length of the lifting chain 200 measured by the control unit 340 can be displayed on the display 121, and the user adjusts the length of the lifting chain 200 through the numerical value displayed on the display 121 You can hang the hook 230 on the lifting point of.

It is possible to accurately measure the length of the lifting chain 200 moved from the body portion 100 to the lifting point of the object to be lifted.

On the other hand, although the embodiments of the present invention have been described as specific embodiments, this is only an example, and the present invention is not limited thereto, and should be construed as having the widest scope according to the basic idea disclosed in the present specification. A person skilled in the art may combine/substitute the disclosed embodiments to implement a pattern of a shape that is not indicated, but this also does not depart from the scope of the present invention. In addition, those skilled in the art can easily change or modify the disclosed embodiments based on the present specification, and it is clear that such changes or modifications also belong to the scope of the present invention.

1: chain movement length measuring device 100: body
110: body part body 120: separation prevention member
121: display 130: guide unit
131: first guide part 131a: first guide groove
132: second guide part 132a: second guide groove
140: body ring 200: lifting chain
210: first chain ring 220: second chain ring
230: hook 300: measuring unit
310: count button 311: first count button
312: second count button 320: elastic portion
321: first elastic member 322: second elastic member
330: detection unit 340: control unit
400: pulling chain 500: shaft
510: rotating member 520: interlocking shaft

Claims (5)

Body part;
A lifting chain provided to be movable relative to the body portion; And
Including a measuring unit capable of measuring the movement length of the lifting chain in the body portion, the movement length measuring device of the chain. The method of claim 1,
The body portion includes a guide unit capable of guiding the movement of the lifting chain,
The measuring unit is provided in the guide unit and includes a count button that can be pressed by the lifting chain when the lifting chain moves. The method of claim 2,
The lifting chain includes a first chain ring and a second chain ring disposed to extend in a misaligned direction and alternately connected to each other,
The count button,
A first count button that can be pressed by the first chain ring when the lifting chain is moving; And
And a second count button that can be pressed by the second chain ring when the lifting chain is moving. The method of claim 3,
The guide unit,
A first guide portion for guiding the movement of the first chain ring and a second guide portion for guiding the movement of the second chain ring,
A first guide groove through which the first count button can move is formed in the first guide part,
The second guide portion is formed with a second guide groove through which the second count button can move, the movement length measuring device of the chain. The method of claim 2,
The measuring unit,
A detection unit for generating a pressing signal by detecting the pressing of the count button due to the movement of the lifting chain; And
And a control unit for calculating the moving length of the lifting chain through the number of times of the pressing signal generated from the sensing unit and the length per ring of the lifting chain.

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