KR20100034081A - A steel tape-line for measuring length between long distance - Google Patents

Abstract

PURPOSE: A remote measuring ruler is provided to allow a user to easily measure the length of an object located in a remote place or a place that is difficult to access using two laser measuring unit. CONSTITUTION: A remote measuring ruler includes laser measuring units which project lasers to measure the length of an object located at a distance. The laser measuring unit comprises a fixed laser emitting member(40) formed on one end of the ruler and a movable laser emitting member(30) which moves along the ruler body. The movable laser emitting member includes a guide member(31) which is attached to the upper and lower parts of the ruler body and moves along the ruler body, and a laser lamp installed in the center of the guide member.

Description

Tape measure for remote distance measurement {A steel tape-line for measuring length between long distance}

The present invention relates to a measuring device that can easily measure the length of an object in a remote distance or difficult to access, specifically, according to the present invention, difficult to access due to the length or obstacle of the measurement object in the distance It is related with the tape measure which can measure the length of the measurement object which is located in a part, and is easily equipped with two laser measuring units.

In order to perform seismic performance evaluation or structural health evaluation of facilities and equipment in a nuclear power plant or substation, actual site visits and surveys are conducted. During the field verification survey, design data is secured to obtain information such as specifications and weights of equipment and equipment.In many cases, the information presented in the design data and the construction situation are different according to the site conditions. If you can not too many. Therefore, the field survey information is acquired by measuring the interval between the specifications of the field apparatus or the basic fixing unit with a tape measure.

However, if the installation situation of the field equipment or equipment is not easily accessible for the actual measurement, the field survey information may be acquired by subjective judgment by the on-site investigator's guess at a distance, which may result in lack of objectivity and reliability of the information. There is.

Steel tape measure, which is widely used at present, is easy to carry, and is a tool that can easily measure the distance of objects. However, it is not easy to access the measuring equipment such as the equipment or equipment to be measured at a high location out of reach, or in a hazardous area such as a high-radiation or high-frequency leak zone where the human body is difficult to reach. If not, it is impossible to measure or rely on subjective judgment by investigator's guess.

On the other hand, the device for the measurement of long-range specifications using the reflection of ultrasonic waves and the speed of sound waves, etc. have been developed to use in measuring the specifications of the object in a specialized field, but the economical cost is high and the method of use is complicated, which makes it less popular. In addition, this device also has a problem that is not easy to measure in an environment or location that is not easily accessible.

The present invention has been made to solve the above-described problems, an object of the present invention to provide a tape measure that can easily measure the length of the target object from a remote location even without direct access to the target device. More specifically, by providing two laser measuring units in a conventional measuring device, such as a tape measure, to provide a very efficient remote measuring device at a low cost.

The present invention, in order to solve the above problems, in the tape measure for measuring the length by discharging the tape measure to the housing 10 and the outside of the housing to accommodate the tape measure, the tape measure is a laser output to the length of the remote measuring object It provides a tape measure for remote distance measurement, characterized in that further comprises a laser measuring unit (30, 40) for measuring.

In particular, the above-described laser measuring unit of the present invention is characterized by consisting of a fixed laser light emitting member 40 formed at the end of the tape measure and a movable laser light emitting member 30 formed to move the body of the tape measure. .

In addition, the movable laser light emitting member 30 of the present invention is provided in the center of the guide member 31 and the guide member which is fixed to the upper and lower portions of the body of the tape measure, the structure is movable along the body of the tape measure. It is preferable to further comprise a laser light emitting lamp (32).

In addition, the guide member 31 may be made of a transparent material.

In addition, the upper end of the guide member 31 of the present invention may further comprise a stopper member 33.

In addition, in a slightly different example from the above, the movable laser light emitting member 30 includes a guide member having one end fixed to the housing and having a light emitting lamp 32 emitting light from the front of the tape measure body. 31).

In addition, the movable laser light emitting member 30 of the present invention may be formed to be folded on the side end of the housing.

In addition, the guide member 31 may be formed in a sliding structure.

In addition, the above-described laser measuring unit of the present invention preferably further comprises a rechargeable battery unit for supplying power.

According to the present invention, it is possible to easily measure the measurement of the length of the measurement object located in the difficult to access part due to the length or obstacle of the measurement object at a distance with two laser measuring units.

In the present invention, when the site accessibility to the target device is inferior in order to measure the specifications of the measurement target, the laser pointer function is introduced to the tape measure to remotely instruct the target device at two places, and then read the scale between the pointers at this time. The basic idea is to allow indirect measurement of equipment specifications.

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation of the present invention.

1 is a conceptual diagram of the present invention, as shown in the present invention is a laser measuring unit (30, 40) for measuring the length of the measurement object at a distance by emitting a laser and a housing 10 for receiving a tape measure 20 It is made to include.

Referring to FIG. 2A, the above-described laser measuring unit includes a fixed laser light emitting member 40 formed at the end of the tape measure and a movable laser light emitting member 30 formed to move the body of the tape measure.

The fixed laser light emitting member 40 is preferably formed at the end of the tape measure. In addition, the fixed laser light emitting member 40 serves to display a reference point for measuring the length of the object by emitting a laser in front of the tape measure. One example is the use of laser pointers commonly used in presentations.

The movable laser light emitting member 30 is attached to the body of the tape measure 20, it is preferably formed in a structure that can move the upper portion of the tape measure body. The movable laser light emitting member 30 is fixed to the upper and lower portions of the body of the tape measure, the guide member 31 is formed in a structure capable of moving along the body of the tape measure and the laser light emitting lamp 32 provided in the center of the guide member In particular, the guide member is preferably formed of a transparent material (plastic, tempered glass, etc.) so as to check the dimensions of the tape measure body marked scale as shown.

2B and 2C illustrate an embodiment of the above-described movable laser light emitting member.

2b is a side view of the movable laser light emitting member 30 according to the present invention. The guide member 31 is basically fixed to the body 20 of the tape measure so that the inside thereof is free to move from side to side along the body of the tape measure. It is formed into a structure in which the body of the tape measure can be inserted into this empty space. The guide member 31 is preferably made of a transparent material so that it is possible to check the scale of the tape measure, the laser light emitting lamp 32 is formed in the center of the guide member, the internal power supply battery ( 34) is preferred. The upper surface of the guide member is preferably provided with a stopper 33 using an elastic rubber material, as shown in Figure 2c to fix the movable laser light emitting member 30 moving on a tape measure In this case, it is pushed toward the body of the tape measure or fixed to the upper part of the tape body as shown in the figure so that the stable laser light emitting member can be fixed stably.

3 shows the back of the tape measure body to which the above-described laser light emitting unit is attached, a switch 50 is formed on the back surface of each laser light emitting member so that the flashing of the laser light emitting lamp can be realized.

Referring to Figure 4, Figure 4 is a state diagram showing the state of use of the tape measure for remote distance measurement according to the present invention.

As shown, when trying to measure the length of the measurement object (B) among the various objects in the remote, when it is difficult to close due to the obstacle (T), it is easy to measure using a tape measure according to the present invention It is possible. That is, the tape measure body of the tape measure according to the present invention is pulled, the fixed laser light emitting member 40 is first emitted, and the one side of the measurement object B is directed on the same principle as the laser pointer, and the movable laser light emitting member ( 30) to the right to point to the other end of the measurement object B, and then read the scale of the tape measure at the point where the movable laser light emitting member 30 stops at the position to measure the length of the measurement object B. It will be easy to measure.

In particular, when using such a tape measure housing  If the tape is curled inside, it is made of elastic steel. When the tape measure body is stretched for measurement, the tape is flattened. Radiated  This allows the tape to be perpendicular to the laser beam for accuracy in measuring the length of the remote object.

As described above, the movable laser light emitting member 30 is preferably formed in a structure capable of moving from side to side on the tape measure body. However, as a modified embodiment thereof, the movable laser light emitting member 30 may be formed in a foldable or sliding structure on the housing side. . That is, as shown in FIG. 5, the fixed laser light emitting member 40 is formed in the same manner, and the guide member 31 attached to the tape measure housing is extended toward the tape measure body in a state where the tape measure is long. In this case, the movable laser light emitting member 30 may be measured in a state in which one or a part of the movable laser light emitting member 30 is not fixed. It is also possible to form a structure that can be used only by removing the switch, it is also possible to form a switch on a predetermined portion of the housing body. In any of the cases described above, the power supplied to the laser light emitting member may be used by accommodating a very light and simple battery (battery), and of course, a rechargeable power supply may be possible.

Using the tape measure according to the present invention described above, there is an advantage that can provide a measuring device that can easily measure the specifications of the object in a remote location or difficult to measure at a very low price.

In the foregoing detailed description of the present invention, specific examples have been described. However, various modifications are possible within the scope of the present invention. The technical idea of the present invention should not be limited to the embodiments of the present invention but should be determined by the equivalents of the claims and the claims.

1 is a conceptual diagram showing the main portion of the tape measure according to the present invention.

2a to 2c show the configuration of the laser light emitting unit according to the present invention.

Figure 3 shows the back of the tape measure according to the present invention.

Figure 4 is a state diagram using the tape measure according to the present invention.

5 and 6 show another embodiment of a tape measure according to the present invention.

Claims (9)

In the tape measure for measuring the length by discharging the tape measure to the outside of the housing 10 and the housing containing the tape measure, The tape measure is a remote distance measuring tape measure, characterized in that further comprising a laser measuring unit (30, 40) for measuring the length of the measurement object in the distance by emitting a laser. The method according to claim 1, The laser measuring unit, Tape measure for remote distance measurement, comprising a fixed laser light emitting member 40 formed at the end of the tape measure and a movable laser light emitting member 30 formed to move the body of the tape measure. The method according to claim 2, The movable laser light emitting member 30, Guide member 31 is fixed to the upper and lower parts of the body of the tape measure is formed of a structure that can move along the body of the tape measure Tape measure for remote distance measurement, characterized in that further comprises a laser light emitting lamp 32 provided in the center of the guide member. The method according to claim 3, The guide member 31 is a tape measure for remote distance measurement, characterized in that made of a transparent material. The method according to claim 3, Tape measure for remote distance measurement, characterized in that the upper end of the guide member 31 further comprises a stopper member 33. The method according to claim 2, The movable laser light emitting member 30, A tape measure for remote distance measurement, characterized in that the one end is fixed to the housing and formed with a guide member 31 having a light emitting lamp 32 for emitting a laser from the front of the tape measure body. The method according to claim 6, The movable laser light emitting member 30, Tape measure for remote distance measurement, characterized in that the folding on the side end of the housing. The method according to claim 6, The guide member 31 is a tape measure for remote distance measurement, characterized in that the sliding structure. The method according to any one of claims 1 to 8, Tape measure for remote distance measurement, characterized in that the laser measuring unit further comprises a rechargeable battery unit for supplying power.

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