KR102422511B1 - Device for length measuring of round sling - Google Patents

Abstract

Provided is a round sling length measurement apparatus for measuring a length of a round sling used for handling a large heavy object. The round sling length measurement apparatus according to an embodiment of the present invention comprises: a bracket unit provided with a pair of brackets respectively installed at one inner end and the other inner end of the round sling; a laser transmitter coupled to a first bracket installed on one inner end of the round sling; and a laser receiver coupled to a second bracket installed at the other inner end of the round sling, receiving a laser beam from the laser transmitter, and measuring an inner distance of the round sling. Accordingly, a more reliable length measurement result of the round sling is obtained by utilizing the laser distance measurement element and the exclusive brackets to contribute to verification of stability of the round sling.

Description

Device for length measuring of round sling

The present invention relates to a round sling length measuring device, and more particularly, to a round sling length measuring device for measuring the length of a round sling used when handling large heavy objects.

In general, round slings, which have high strength and flexibility, are safe and relatively light, are used a lot when handling large heavy objects.

In order to determine whether these round slings exceed the disposal standards, the length of the round sling must be measured before using the lifting equipment compared to the initial length measured at the time of purchase and when planning the inspection of the lifting equipment. There is a problem in that a dedicated tool is not provided, so the length is measured in a fist-gugugu way at the work site, and the reliability of the measurement result is lowered.

Therefore, it is required to find a way to measure the length of the round sling in a reliable way.

The present invention has been devised to solve the above problems, and an object of the present invention is to systematically measure the horizontal and/or vertical length of a round sling by using a laser distance measuring means and a dedicated bracket. To provide a round sling length measuring device.

According to an embodiment of the present invention for achieving the above object, an apparatus for measuring the length of a round sling includes: a bracket portion provided with a pair of brackets respectively installed on the inner end and the other inner end of the round sling; a laser transmitter coupled to the first bracket installed on the inner end of the round sling; and a laser receiver coupled to the second bracket installed on the other inner end of the round sling to receive a laser beam from the laser transmitter and measure the inner distance of the round sling.

And according to an embodiment of the present invention, the round sling length measuring device includes a chain block connected to one side of the first bracket; mobile equipment used to measure elongation of round slings; and a tension measurement unit provided between the chain block and the moving equipment to measure the tension of the round sling.

In addition, the laser receiving unit, through the moving equipment and the chain block, when a tension of a size in which a predetermined weight value is added to the own weight of the round sling is applied to the round sling along the horizontal direction so that the round sling is stretched along the horizontal direction, The inner length of the elongated round sling can be measured.

And the first bracket and the second bracket, each of the bracket slots for coupling the laser transmitter and the laser receiver to the upper surface; includes, the laser transmitter and the laser receiver, respectively, provided at the lower end to be inserted into each bracket slot Magnetic; may include.

In addition, in the first bracket and the second bracket, the length of each bracket slot is greater than the length of each magnet so that the laser transmitter and the laser receiver move to the left or right while the laser receiver and the laser receiver are inserted into each bracket slot to adjust the position. can be formed.

In addition, the laser transmitter may further include a laser pointer that outputs laser light toward the laser receiver in order to visually confirm whether the laser transmitter is positioned on a straight line in a horizontal or vertical direction with the laser receiver.

On the other hand, according to another embodiment of the present invention, a round sling length measuring device includes: a bracket portion provided with a pair of brackets respectively installed on the inner upper end and inner lower end of the round sling; a laser transmitter coupled to a third bracket installed on the lower inner side of the round sling; and a laser receiver coupled to the fourth bracket installed on the inner upper end of the round sling, receiving a laser beam from the laser transmitter, and measuring the inner distance of the round sling.

And according to an embodiment of the present invention, the round sling length measuring device, the lifting equipment connected to the upper side of the fourth bracket; and a weight connected to the lower side of the third bracket; may further include.

In addition, the laser receiving unit, when the fourth bracket installed on the inner upper end of the round sling is lifted by the lifting equipment, the weight of the weight is applied to the round sling so that the round sling is extended in the vertical direction, The inner length can be measured.

As described above, according to embodiments of the present invention, a more reliable round sling length measurement result can be obtained by using a laser distance measuring means and a dedicated bracket, thereby contributing to the verification of the stability of the round sling.

1 is a view provided for the description of a round sling length measuring device according to a first embodiment of the present invention;
2 is a view provided for a detailed description of the bracket unit according to the first embodiment of the present invention;
3 is a view provided for a detailed description of the laser transmitter according to the first embodiment of the present invention;
4 is a view provided for explanation of a laser pointer according to a first embodiment of the present invention;
5 is a view provided for the description of a round sling length measuring device according to a second embodiment of the present invention, and
6 is a view provided for explanation of a laser pointer according to a second embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a view provided for explanation of a round sling length measuring device according to a first embodiment of the present invention.

The round sling length measuring device according to the first embodiment of the present invention is provided to systematically measure the horizontal length of the round sling.

To this end, this round sling length measuring device includes a bracket unit 100, a laser transmitter 200, a laser receiver 300, a chain block 400, a mobile device 500, an H-beam 600, and a tension. A measurement unit 700 may be included.

The bracket unit 100 may be provided with a pair of brackets respectively installed on the inner end and the inner end of the round sling.

The laser transmitter 200 and the laser receiver 300 are laser distance measuring means installed and operated on a pair of brackets 110 and 120, respectively.

Specifically, the laser transmitter 200 may be coupled to the first bracket 110 installed on the inner end of the round sling, and output a laser beam toward the laser receiver 300 .

The laser receiver 300 is coupled to the second bracket 120 installed at the other end of the round sling, receives the laser beam from the laser transmitter 200, and measures the inner distance of the round sling along the horizontal direction. can

For example, the laser receiver 300, through the mobile device 500 and the chain block 400, a tension of a size in which a predetermined weight value is added to the own weight of the round sling is applied to the round sling along the horizontal direction. When the round sling is stretched along the horizontal direction, the inner length of the stretched round sling can be measured.

The chain block 400 may be connected to one side of the first bracket 110 , and the H-beam 600 may be connected to one side of the second bracket 120 .

The mobile device 500 may be used to measure the elongation of the round sling. Here, elongation refers to an amount of change in length within an object due to an external force.

The tension measuring unit 700 is provided between the chain block 400 and the mobile device 500 to measure the tension of the round sling.

Specifically, the tension measuring unit 700, through the mobile device 500 and the chain block 400, a tension of a size in which a predetermined weight value is added to the own weight of the round sling is applied to the round sling along the horizontal direction. can make it go away Here, the preset weight value may be 10 kgf.

That is, this round sling length measuring device, through the moving equipment 500 and the chain block 400, a tension of a size in which a predetermined weight value is added to the own weight of the round sling is applied to the round sling along the horizontal direction to round the round sling. When the sling is extended in the horizontal direction, the inner length of the extended round sling may be measured using the laser transmitter 200 and the laser receiver 300 .

2 is a view provided for a detailed description of the bracket unit 100 according to the first embodiment of the present invention, and FIG. 3 is provided for a detailed description of the laser transmitter 200 according to the first embodiment of the present invention. 4 is a view provided for explanation of the laser pointer 220 according to the first embodiment of the present invention.

The bracket part 100 according to the present embodiment may include a first bracket 110 installed on the inner end of the round sling and a second bracket 120 installed on the other end of the round sling as described above. .

At this time, the first bracket 110 and the second bracket 120 are provided with first and second connecting rings 111 and 121 on one side, respectively, and a laser transmitter 200 and a laser receiver on the upper surface, respectively. The first and second bracket slots 112 and 122 to which the 300 are coupled may be provided separately.

And the laser transmitter 200 and the laser receiver 300 are provided at the bottom, respectively, the first magnetic 210 and the second magnetic to be inserted into each bracket slot (112, 122) may be provided separately.

The first and second bracket slots 112 and 122 are formed to have a length greater than the length of the first magnetic 210 and the second magnetic, so that the laser transmitter 200 and the laser receiver 300 are each bracket slot. The position may be adjusted by moving left or right in the state inserted in the .

In addition, the laser transmitter 200 further includes a laser pointer 220 for outputting laser light toward the laser receiver 300 in order to visually confirm whether it is positioned on a straight line in the horizontal direction with the laser receiver 300 . can do.

At this time, the first bracket 110, a third bracket 130 slot for coupling the laser pointer 220 to the upper surface may be formed, and the third bracket slot is second than the first bracket slot 112. It can be placed at a short distance from the bracket.

Specifically, the laser pointer 220, a third magnetic 220a to be inserted into the third bracket slot is provided at the bottom, coupled to the upper surface of the first bracket 110, toward the laser receiver 300 By outputting the laser light, it is possible to visually confirm whether the operator is positioned on a straight line in the horizontal direction with the laser receiver 300 .

5 is a view provided for explanation of a round sling length measuring device according to a second embodiment of the present invention.

The round sling length measuring device according to the second embodiment of the present invention is provided to systematically measure the length of the round sling in the vertical direction.

To this end, the round sling length measuring device may include a bracket unit 100 , a laser transmitter 200 , a laser receiver 300 , a lifting device 800 , and a weight 900 .

The bracket part 100 may be provided with a pair of brackets 130 and 140 respectively installed on the inner upper end and inner lower end of the round sling.

The laser transmitter 200 may be coupled to the third bracket 130 installed at the inner lower end of the round sling.

The laser receiver 300 is coupled to the fourth bracket 140 installed on the inner upper end of the round sling, receives the laser beam from the laser transmitter 200, and measures the inner distance of the round sling along the vertical direction. can

Specifically, the laser receiver 300 is, when the fourth bracket 140 installed on the inner upper end of the round sling is lifted by the lifting equipment 800, the weight of the weight 900 is applied to the round sling so that the round sling is lifted. When stretched along this vertical direction, the inner length of the stretched round sling can be measured.

The lifting equipment 800 may be implemented as a crane or the like, and may be connected to the upper side of the fourth bracket 140 .

The weight 900 may be connected to the lower side of the third bracket 130 and may have a weight of 10 kg.

In this round sling length measuring device, the laser transmitter 200 and the laser receiver 300 are coupled to the third bracket 130 and the fourth bracket 140 , and the third bracket 130 and the fourth bracket 140 are combined. ) is installed on the inner upper end and inner lower end of the round sling, respectively, with the weight 900 connected to the lower side of the third bracket 130 , the lifting equipment 800 is connected to the upper side of the fourth bracket 140 . When done, the fourth bracket 140 may be lifted so that the round sling may be extended in the vertical direction.

Thereafter, the round sling length measuring device may measure the inner length of the elongated round sling in the vertical direction by using the laser transmitter 200 and the laser receiver 300 .

6 is a view provided for explanation of the laser pointer 220 according to the second embodiment of the present invention.

The fourth bracket 140 may be provided with a fourth connection ring to be connected to the crane on the upper side, and a fourth bracket slot for coupling the laser receiver 300 to the side thereof may be formed.

The third bracket 130 may be provided with a third connecting ring to be connected to the weight through a chain or the like on the lower side, and a fifth bracket slot for coupling the laser transmitter 200 to the side thereof may be formed.

And the laser transmitter 200 and the laser receiver 300 are provided on the side, respectively, the first magnetic 210 and the second magnetic to be inserted into each bracket slot may be provided separately.

Each bracket slot provided in the third bracket 130 and the fourth bracket 140, respectively, has a length greater than the length of the magnets provided on the sides of the laser transmitter 200 and the laser receiver 300, respectively. The laser transmitter 200 and the laser receiver 300 move upward or downward while being inserted into each bracket slot, and position adjustment may be possible.

In addition, the laser transmitter 200 further includes a laser pointer 220 for outputting laser light toward the laser receiver 300 in order to visually confirm whether it is positioned on a straight line in a vertical direction with the laser receiver 300 . can do.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications are possible by those having the knowledge of, of course, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

10: round sling 100: bracket part
110: first bracket 111: first connection ring
112: first bracket slot 120: second bracket
121: second connection ring 122: second bracket slot
130: third bracket 140: fourth bracket
200: laser transmitter 210: first magnetic
220: laser pointer 220a: third magnetic
300: laser receiver 400: chain block
500: mobile equipment 600: H-beam
700: tension measuring unit 800: lifting equipment
900: weight

Claims (9)

a bracket portion provided with a pair of brackets respectively installed on the inner end and the inner end of the round sling;
a laser transmitter coupled to the first bracket installed on the inner end of the round sling; and
A laser receiver coupled to the second bracket installed on the other end of the round sling to receive a laser beam from the laser transmitter to measure the inner distance of the round sling; includes,
a chain block connected to one side of the first bracket;
mobile equipment used to measure elongation of round slings; and
It is provided between the chain block and the moving equipment, and a tension measuring unit for measuring the tension of the round sling; further comprising,
laser receiver,
When the round sling is stretched in the horizontal direction by applying a tension of a size in which a preset weight value is added to the weight of the round sling through the moving equipment and the chain block in the horizontal direction, the inner side of the extended round sling measure the length,
The first bracket and the second bracket,
Includes; bracket slots for coupling the laser transmitter and the laser receiver to the upper surface, respectively;
The laser transmitter and the laser receiver,
Provided at the bottom of each, magnetic to be inserted into each bracket slot; including,
The first bracket and the second bracket,
The length of each bracket slot is larger than the length of each magnet so that the laser transmitter and the laser receiver can move left or right while being inserted into each bracket slot and adjust the position.
laser transmitter,
In order to visually confirm whether the laser receiver and the laser receiver are positioned on a straight line in a horizontal or vertical direction, a laser pointer for outputting a laser light toward the laser receiver; further comprising,
The first bracket is
A third bracket slot for coupling the laser pointer is formed on the upper surface,
The third bracket slot is
It is disposed at a distance closer to the second bracket than the first bracket slot that allows the laser transmitter to be coupled,
laser pointer,
In a state coupled to the upper surface of the first bracket, in order to output the laser light toward the laser receiver, a third magnetic to be inserted into the third bracket slot is provided at the bottom of the round sling length measuring device.
delete delete delete delete delete a bracket portion provided with a pair of brackets respectively installed on the inner upper end and inner lower end of the round sling;
a laser transmitter coupled to a third bracket installed on the lower inner side of the round sling; and
It is coupled to the fourth bracket installed on the inner upper end of the round sling, receives a laser beam from the laser transmitter, a laser receiver for measuring the inner distance of the round sling; includes,
Lifting equipment connected to the upper side of the fourth bracket; and
A weight connected to the lower side of the third bracket; further comprising,
laser receiver,
When the fourth bracket installed on the inner top of the round sling is lifted by the lifting equipment, the weight of the weight is applied to the round sling and the round sling is stretched in the vertical direction, measure the inner length of the extended round sling,
The third bracket is
A third connecting ring to be connected to the weight through a chain is provided on the lower side, and a fifth bracket slot for coupling the laser transmitter to the side is formed,
4th bracket,
A fourth connection ring to be connected to the crane is provided on the upper side, and a fourth bracket slot for coupling the laser receiver to the side is formed,
The laser transmitter and the laser receiver,
A first magnetic and a second magnetic provided on each side to be inserted into each bracket slot are separately provided,
Each bracket slot provided in the third bracket and the fourth bracket, respectively,
The length of the laser transmitter and the laser receiver is formed to be greater than the length of the magnets provided on the sides of the laser transmitter and the laser receiver, respectively, so that the position can be adjusted while moving upward or downward in the state that the laser receiver and the laser receiver are inserted into each bracket slot,
laser transmitter,
Round sling length measuring device, characterized in that it further comprises a laser pointer for outputting a laser light toward the laser receiver in order to visually confirm whether it is located on a straight line in the vertical direction with the laser receiver.
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