JP3852008B2 - measuring device - Google Patents

Description

  The present invention relates to a measuring apparatus, and more particularly to a measuring apparatus that measures moisture on the surface of building finishing materials and underground structures.

When a building finishing material, for example, a sound absorbing plate used for a ceiling contains a lot of water due to water leakage, the effect of the adhesive is reduced, and there is a risk that a risk of falling will occur. In an underground structure, for example, an underground station, if a crack or the like occurs on a ceiling or a wall surface, water starts to leak, causing adverse effects on the structure or causing water leakage. Generally, when measuring moisture on the surface of an underground structure, an operator holds the moisture meter in his hand, but when measuring high places, the electrode is placed perpendicular to the measurement surface using a stepladder or ladder. To measure. However, such a measuring method has a problem that work efficiency is poor. In order to solve such a problem, there is known an apparatus in which a sensor of a moisture meter is attached to the tip of a telescopic rod and the direction of the sensor is adjusted by remote operation (see Patent Document 1).
JP-A-8-271459 (second page, FIGS. 1 and 4)

  However, in the conventional measuring apparatus, a sensor is attached to the tip of the telescopic rod, and the moisture meter is configured to measure through a connection cord extending from the rod.At the time of measurement, at least an operator operating the rod, There is a problem that a worker who measures the moisture meter is required. When moving the measurement position, not only the rod and moisture meter are carried, but also the connection cord that is inserted into the rod and extends from the lower end of the rod is moved while being routed. For this reason, there is a problem in that workability is poor because it is necessary to move while paying attention to the connection cord every time it moves. Further, since the connecting cord is inserted into the telescopic rod, the rod becomes large in diameter and becomes heavy, making it difficult to work. Furthermore, when the length of the telescopic rod itself is increased, the connection cord exposed to the outside becomes longer when used with a shorter length, which makes it difficult to move. In addition, when performing measurement continuously, the electrode pins of the sensor are gradually soiled and the measurement accuracy decreases, so the dirt on the electrode pins must be wiped off with a clean cloth every time multiple measurements are taken, resulting in poor workability. There is.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a measuring device that is easy to use and improves work efficiency during movement or work with a simple configuration.

Sensor measuring apparatus according to the present invention, the tip of the telescopic rod, a measuring device and measurement device sensor is mounted to be electrically connected, it is provided on the front end, together with the sensor is removably mounted The mounting part that can adjust the position of the lens, the holding part that is provided at the base part of the telescopic rod, the measuring instrument is held, and both ends are fixed to the tip and base part of the telescopic rod, respectively, between the sensor and the measuring instrument In a measuring apparatus provided with a connecting cord that can be stretched and connected, and provided with a support member for supporting the connecting cord along the telescopic rod, the connecting portion is detachably attached to the tip of the rod. The connecting cord is fixed at one end to the distal end of the telescopic rod and the other end to the base of the telescopic rod with a restraining tool, and the support member is sandwiched between the connecting cords. To be inserted with is the fixture and the opening of the fastener extendable rod is obtained constituted by an annular member wound around with play.

The measuring device according to the present invention is a measuring device in which a sensor electrically connected to a measuring instrument is attached to the tip of the telescopic rod, and the sensor is provided at the tip and is detachably attached to the sensor. The mounting part that can adjust the position of the lens, the holding part that is provided at the base part of the telescopic rod, the measuring instrument is held, and both ends are fixed to the tip and base part of the telescopic rod, respectively, between the sensor and the measuring instrument In a measuring apparatus provided with a connecting cord that can be stretched and connected, and provided with a support member for supporting the connecting cord along the telescopic rod, the connecting portion is detachably attached to the tip of the rod. The connecting cord is fixed to the distal end of the telescopic rod and the other end is fixed to the base of the telescopic rod with a restraining tool, and the support member is attached to the connecting cord. With the arrangements by a fixture attached seen an annular member wound around with play into the insertion is extendable rod in the opening of the fastener, when performing work, the tip of the connecting cord attached to the sensor to the mounting portion Connect to the side end, attach a measuring instrument to the holding part, connect to the base side end of the connection cord, and extend the telescopic rod according to the height of the surface to be measured. It extends along the telescopic rod according to the elongation of the rod. When the telescopic rod is retracted from the stretched state, the connecting cord contracts along the telescopic rod. Further, since the posture of the sensor can be freely adjusted according to the inclination of the surface to be measured, the sensor can be accurately applied to the measurement surface. When moving, just by carrying the telescopic rod, the connection cord and measuring instrument can be carried together with the telescopic rod, improving workability. Furthermore, since the connecting cord is arranged outside the telescopic rod, the telescopic rod can be made thinner to reduce the weight. Since the connection cord is always supported along the telescopic rod side, the workability is improved because it does not hinder the work even if it extends and contracts.

  Further, in the measuring apparatus according to claim 2, the holding portion is constituted by a cylindrical body, and an elastic member for holding the measuring instrument is attached to the inside of the holding section, and the measuring instrument is dropped on the side of the cylindrical body. A holding plate for blocking is provided.

  In the measuring apparatus according to claim 2, the holding portion is formed of a cylindrical body, and an elastic member for holding the measuring instrument is attached to the inside of the holding section, and the measuring instrument is prevented from dropping out of the cylindrical body. Since the holding plate is provided, the measuring instrument is held by the elastic member even when the telescopic rod is turned upside down during work, so it will not fall off easily. Is relaxed and protected. In addition, even if an impact is received, the holding plate prevents the measuring device from dropping out, so that the equipment can be maintained. For this reason, even if the telescopic rod slides down from the hand, the measuring instrument is protected by the cylindrical body and the elastic member, and is not easily damaged.

Measuring apparatus according to claim 3, the instrument with a moisture meter for measuring the moisture sensor is intended was Unishi by Ru is constituted respectively by the moisture sensor having a pair of electrode pins projecting to the outside from the body.

Sensor measuring apparatus according to the present invention, the tip of the telescopic rod, a measuring device and measurement device sensor is mounted to be electrically connected, it is provided on the front end, together with the sensor is removably mounted The mounting part that can adjust the posture of the lens, the holding part that is provided at the base part of the telescopic rod, the measuring instrument is held, and both ends are fixed to the tip and base part of the telescopic rod, respectively, between the sensor and the measuring instrument In a measuring apparatus provided with a connecting cord that can be stretched and connected, and provided with a support member for supporting the connecting cord along the telescopic rod, the connecting portion is detachably attached to the tip of the rod. The connecting cord is fixed at one end to the distal end of the telescopic rod and the other end to the base of the telescopic rod with a restraining tool, and the support member is sandwiched between the connecting cords. Since it is configured by attaching be fixture and the annular member is inserted into the opening wound over with play in the telescopic rods of the fixture is possible to improve the workability during moving or when working with a simple configuration it can. Further, when not in use, the mounting portion can be removed from the tip tube and managed. Since the connection cord is always supported along the telescopic rod side, the workability is improved without sagging even if it expands and contracts.

  For the purpose of improving workability when moving or working, a sensor is attached to the tip of the telescopic rod, and a mounting part that can freely adjust its posture is provided, and a measuring instrument is placed at the base of the telescopic rod. And a support member that fixes both ends of the extendable connection cord connected to the sensor and the measuring instrument to the distal end and the base of the extension rod and is locked to the extension rod and the connection cord. This is achieved by supporting the connection cord along the telescopic rod.

  The present invention will be described below with reference to embodiments shown in the drawings. FIG. 1 is an overall view of a measuring apparatus according to an embodiment of the present invention. As shown in FIG. 1, the measuring device 2 according to the present embodiment includes a large-diameter circular tubular base 3, a small-diameter intermediate cylinder 4 and a distal-end cylinder 5 that are sequentially accommodated in the base 3 according to the diameter. The telescopic rod 6 having The telescopic rod 6 is housed in the intermediate tube 4 at the distal end tube 5 and inside the base 3, respectively. Fastening tools 7 and 7 are provided between the base 3 and the intermediate cylinder 4 and between the intermediate cylinder 4 and the tip cylinder 5, respectively. The telescopic rod 6 is loosened by loosening the fasteners 7 and 7, pulling out at least one of the distal end tube 5 and the intermediate tube 4 to the distal end side, and tightening the fasteners 7 and 7. Can be set to a desired length. The base 3 includes a tubular portion 3A and large-diameter grip portions 3B and 3C made of a synthetic resin foam formed on the outer periphery of the tubular portion 3A.

  A T-shaped mounting portion 8 is detachably provided on the top of the tip tube 5. As shown in FIG. 2, the mounting portion 8 includes a half-shaped portion 8A having a C-shaped cross section and a screw portion 8B extending downward from the lower surface of the half-shaped portion 8A. This threaded portion 8B is screwed into the screw hole 5A at the upper end of the distal end tube 5. The half-shaped part 8 </ b> A of the mounting part 8 is perpendicular to the axis of the telescopic rod 6. A moisture sensor (sensor) 9 of a moisture meter (measuring instrument) 10 (see FIG. 3) is detachably attached to the halved portion 8A. The moisture sensor 9 includes a pair of electrode pins 11A and 11B provided to protrude from the upper end surface of the main body. The lower part of the moisture sensor 9 is formed in a cylindrical shape. The cylindrical portion 12 is press-fitted into the half-shaped portion 8A. For this reason, when the moisture sensor 9 is attached to the half-shaped portion 8A and the moisture sensor 9 is pushed and turned, the posture can be changed by the pushed angle. That is, the moisture sensor 9 can maintain a state in which the moisture sensor 9 is inclined at a desired angle with the direction perpendicular to the axis of the telescopic rod 6 as the rotation center. One end of the cylindrical portion 12 of the moisture sensor 9 is formed in a hemispherical shape, and the other end is formed in a conical shape with a gradually decreasing diameter, and the connection terminal 13 extends from the conical portion.

  The upper end of the moisture sensor 9 is covered with a cleaning cover 14 made of a synthetic resin foam that adsorbs dirt. The cleaning cover 14 is formed with cleaning holes 15A and 15B into which the electrode pins 11A and 11B are inserted. When the cleaning cover 14 is put on the upper end of the moisture sensor 9, the electrode pins 11A and 11B are inserted into the cleaning holes 15A and 15B so as to adsorb dirt on the electrode pins 11A and 11B. As described above, since the dirt is removed only by attaching the cleaning cover 14 to the electrode pins 1A and 11B, the electrode pins 11A and 11 can always be kept in a good state. Further, when the cleaning cover 14 is put on the moisture sensor 9, a cap 16 that protects the electrode pins 11A and 11B is put on the moisture sensor 9. The cap 16 is made of a hard synthetic resin and is fitted on the upper part of the moisture sensor 9. As shown in FIG. 3, the moisture meter 10 is formed in a rectangular tube shape in which the upper portion 10 </ b> A is wide and the lower portion 10 </ b> B is narrow, and the display portion 10 </ b> C is formed on the upper surface. A connection terminal 10D connected to the moisture sensor 9 is provided on one side of the wide upper portion 10A.

  The base 3 of the telescopic rod 6 is provided with a holding unit 20 that houses the moisture meter 10 between the upper and lower grips 3B and 3C. The holding unit 20 holds the moisture meter 10 so as not to drop off. As shown in FIG. 4, the holding portion 20 includes L-shaped bent plates 22A and 22B attached to opposite side surfaces of the square box portion 21 fixed to the tubular portion 3A, and these bent plates 22A, And a transparent plate 23 made of synthetic resin attached between the bent ends of 22B. A circular hole 24 is formed in the transparent plate 23. The rectangular box portion 21, the bent plates 22A and 22B, and the transparent plate 23 constitute a cylindrical body that houses the moisture meter 10.

  Inside this cylindrical holding part 20, an elastic member 25 made of a synthetic resin foam is attached to the square box part 21 and the bent plates 22A, 22B, and when the moisture meter 10 is housed inside, it elastically deforms. And keep it from falling off. A holding plate 26 is attached to the upper end of the upper opening of the holding part 20 on the side of the square box part 21 in an inclined manner. The pressing plate 26 is bent by an external force so that the moisture meter 10 does not easily fall off even when the telescopic rod 6 receives an impact. The moisture meter 10 is taken into and out of the holding portion 20 from the upper opening. When the moisture meter 10 is stored in the holding unit 20, an operator operating the telescopic rod 6 can simultaneously read the measurement value of the moisture meter 10 while pressing the moisture sensor 9 against the measurement site.

  As shown in FIG. 1, one end of a connection cord 30 formed in a spiral shape that connects the moisture sensor 9 and the moisture meter 10 is formed at the upper portion of the tip tube 5, and the holding portion 20 of the base 3 is disposed at the upper portion of the holding tube 20. The vicinity of the other end of the connection cord 30 is fixed by the restraining tools 31 and 32, respectively. Since the connection cord 30 is formed in a spiral shape, the connection cord 30 can be expanded and contracted. Further, the terminal tube 5 side terminal of the connection cord 30 is connected to the terminal 13 of the moisture sensor 9, and the base 3 side terminal of the connection cord 30 is connected to the terminal 10D of the moisture meter 10, respectively.

  As shown in FIG. 1, a plurality of support members 33 are attached to the telescopic rod 6 at a predetermined interval. That is, each support member 33 is connected to each rod portion of the base 3, the intermediate tube 4, and the tip tube 5 and the connection cord when the telescopic rod is fully extended so that the connection cord 30 does not loosen regardless of the expansion / contraction state of the connection cord 30. 30 and is arranged to be locked. As shown in FIG. 5, the support member 33 includes a fixture 34 that is sandwiched between the connection cords 30 and an annular member that is inserted through the opening 35 of the fixture 34 and is hung around the telescopic rod 6 with play. 36. Since the support member 33 is attached between the expansion / contraction rod 6 and the connection cord 30, even if the connection cord 30 expands / contracts according to the expansion / contraction of the expansion / contraction rod 6, the support member 33 always attaches the connection cord 30 to the expansion / contraction rod. Since it is supported along the 6 side, the connection cord 30 does not hang down and interfere with the measurement operation.

  Next, the operation of the measuring apparatus 2 according to the above embodiment will be described. For example, when the measuring device 2 performs a work on a structure such as a wall surface of an underground station, first, the moisture sensor 9 covered with the cleaning cover 14 and the cap 16 is attached to the mounting portion 8. Attachment is performed by pushing the cylindrical portion 12 of the moisture sensor 9 into the half-shaped portion 8A. Next, the terminal 13 of the moisture sensor 9 is connected to the terminal tube 5 side terminal of the connection cord 30. Next, the telescopic rod 6 is extended according to the height of the surface to be measured, and the tightening tool 7 is tightened. When the surface to be measured is tilted, the posture is maintained when the moisture sensor 9 is pushed and tilted according to the tilt angle. Next, the moisture meter 10 is attached to the holding unit 20, the base 3 side terminal of the connection cord 30 is connected to the terminal 10D of the moisture meter 10, and the cleaning cover 14 and the cap 16 are removed to perform measurement. The measurement is performed by pressing both electrode pins 11A and 11B of the moisture sensor 9 against the surface to be measured.

  At the time of measurement, when the telescopic rod 6 is expanded and contracted according to the height of the surface to be measured, the connection cord 30 expands and contracts according to the expansion and contraction of the telescopic rod 6. Moreover, since the connection cord 30 is restrained to the telescopic rod 6 side by the support member 33, it does not hang down. Further, since the moisture sensor 9 can freely adjust its posture according to the inclination of the surface to be measured, the moisture sensor 9 can be accurately applied to the measurement surface. Furthermore, at the time of measurement, the operator who operates the telescopic rod 6 holds the base 3 by hand and can simultaneously read the measurement value of the moisture meter 10 while pressing the moisture sensor 9 against the measurement site. In addition, the measurement can be performed efficiently. Since the connecting cord 30 and the moisture meter 10 can be carried together with the telescopic rod 6 simply by carrying the telescopic rod 6 when moving, workability is improved. Furthermore, since the connection cord 30 is arranged outside the telescopic rod 6, the telescopic rod 6 can be reduced in diameter to reduce the weight, and worker fatigue can be reduced.

  In addition, since the elastic member 25 and the pressing plate 26 are attached to the holding unit 20, the moisture meter 10 does not easily fall outside even when receiving an impact, and the impact can be reduced. Moreover, since the dirt of the electrode pins 11A and 11B can be removed by simply attaching and removing the cleaning cover 14 to the electrode pins 11A and 11B of the moisture sensor 9 at every appropriate number of measurements, the measurement accuracy can be maintained with a simple operation. it can. If the cap 16 is attached to the moisture sensor 9 during movement, damage can be prevented even if the moisture sensor 9 hits the structure.

  In the above embodiment, the mounting portion 8 is formed in a T-shape, and the moisture sensor 9 can change its posture with the direction perpendicular to the axis of the telescopic rod 6 as the center of rotation. However, the present invention is not limited to this, and the threaded portion 8B can be inclined with respect to the half-shaped portion 8A, the half-shaped portion 8A is inclined with respect to the axis of the telescopic rod 6, and the posture can be set at any angle. It may be possible to adjust. Further, the holding unit 20 may be formed in accordance with the shape of various commercially available moisture meters, and is not limited to a cylindrical body, and may be any device that holds the moisture meter on the base 3. Further, the support member 33 is not limited to the above embodiment, and is attached to the telescopic rod 6 and the helical connection cord 30, and the connection cord 30 is related to the expansion and contraction regardless of the expansion and contraction of the rod 6 and the cord 30. Needless to say, it is only necessary to always support the telescopic rod 6 along the side. Further, the threaded portion 8B of the mounting portion 8 is screwed into the screw hole 5A at the upper end of the distal end tube 5. However, when not in use, the mounting portion 8 is removed from the distal end tube 5 for management, and a screw having a circular head is used. The screw hole 5A may be screwed.

1 is an overall view showing a measuring apparatus according to an embodiment of the present invention. (Example 1) It is explanatory drawing which shows the attachment state of the moisture sensor of the measuring apparatus of FIG. It is a perspective view which shows the moisture meter of the measuring apparatus of FIG. It is a perspective view which shows the holding | maintenance part of the measuring apparatus of FIG. It is explanatory drawing which shows the supporting member of the measuring apparatus of FIG.

Explanation of symbols

2 Measuring device 3 Base 5 Tip tube (tip)
6 Telescopic rod 8 Mounting part 9 Moisture sensor (sensor)
10 Moisture meter (measuring instrument)
20 Holding part 30 Connection cord 30A, 30B Connection cord both ends

Claims (3)

A measuring device in which a sensor that is electrically connected to a measuring instrument is attached to the tip of a telescopic rod, and a mounting part that is provided at the tip and that can be detachably attached and adjust the orientation of the sensor And a holding part that is provided at the base of the telescopic rod and holds the measuring instrument, and a telescopic connecting cord that is fixed to the tip and base of the telescopic rod at both ends and connects between the sensor and the measuring instrument. And a support member for supporting the connection cord along the telescopic rod, and in a measuring device in which the mounting portion is detachably attached to the tip of the rod , the connection cord is formed in a spiral shape, and one end of the connection cord Is fixed to the distal end of the telescopic rod and the other end is fixed to the base of the telescopic rod by a restraining tool, and the support member is fixed to the connecting cord and the fixing tool. Measuring device characterized by being configured to inserted through telescopic rod into the opening of the Teigu by an annular member wound around with play.   The holding part is composed of a cylindrical body, and an elastic member for holding the measuring instrument is attached to the inside thereof, and a holding plate for preventing the measuring instrument from dropping off is provided on the side of the cylindrical body. The measuring apparatus according to claim 1.   The measuring apparatus according to claim 1 or 2, wherein the measuring device is constituted by a moisture meter for measuring moisture, and the sensor is constituted by a moisture sensor provided with a pair of electrode pins protruding outward from the main body.

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