KR20090090099A - Device for measuring flexibility - Google Patents

Abstract

A flexibility measure system is provided to control a holding point of a bottom plate or a pressing point of a top plate in order to correspond to the various locations or types of the target. A flexibility measure system comprises a bottom plate(110), an top plate(130), fixed strings(150,152), a pressure meter(170), and a driving member(190). The bottom plate is connected with a fixing stand and is installed on a workshop bottom. The bottom plate supports a measurement target(106) bent to U shape. The top plate is located on the upper part of the bottom plate. The top plate pressurizes the measurement target. The fixed string fixes both ends of the measurement target to the bottom plate and top plate. The pressure meter is combined in one side of the top plate. The pressure meter measures the pressure applied in the top plate with the measurement target. The top plate and the pressure meter are reciprocated from top and bottom by the driving member.

Description

Device for measuring flexibility

The present invention relates to an apparatus for measuring flexibility, and more particularly, to an apparatus for measuring the flexibility of linear products such as cables, hoses, tubes and the like.

Currently, linear products such as cables, hoses, tubes, etc. are being applied throughout the industry. In general, the cable is used as the passage of the current or light containing information, the hose and the tube is used as the passage of the fluid.

Since the linear products vary the required flexibility according to the installation location or the intended use, the manufactured linear products are sold after the flexibility test after production. Hereinafter, a method for inspecting flexibility of a linear product according to the prior art will be described with reference to FIG. 1. 1 is a front view showing a linear product for explaining a conventional method of checking the flexibility.

Conventionally, there is no separate device for measuring the flexibility of the linear product (10). Therefore, as shown in FIG. 1, both ends of the linearly twisted linear product 10 were pulled with a constant force, and then the flexibility of the linear product 10 was measured by measuring the diameter of the annular shape. At this time, the better the flexibility of the linear product 10, the smaller the diameter of the annular form.

However, according to the above-described method, since the flexibility of the linear product 10 is simply measured by using the diameter of the annular shape, there is a problem that the quantitative measurement of the linear product 10 flexibility cannot be accurately made.

In addition, since the linear product 10 rotates while the linear product 10 is rotated using a straight line connecting the action points of the forces acting on both ends of the linear product 10 during the flexibility measurement, the flexibility in measuring the flexibility is difficult. Or have a very troublesome problem.

The present invention is to solve the problems described above, it is an object of the present invention to measure the flexibility of the linear product to be measured more accurately than in the prior art, and to provide a flexible measuring device that can be measured more easily than in the prior art I'm taking it.

In order to achieve the object as described above, the present invention, the lower plate is coupled to the fixed base installed on the floor of the workplace, and supports the measurement object bent in the 'U' shape; An upper plate positioned above the lower plate to pressurize the measurement object; A fixing strap for fixing both ends of the measurement object to the lower plate and the upper plate; A pressure gauge coupled to one side of the top plate to measure a pressure applied to the top plate by the measurement object; And a driving means for vertically reciprocating the upper plate and the pressure gauge.

Preferably, one side surface of the lower plate and one side surface of the upper plate facing one side surface of the lower plate is formed along the longitudinal direction of the lower plate and the upper plate for mounting the measurement object. In this case, the measurement object can be stably seated on the upper and lower plates.

Preferably, at both ends of the upper plate in the longitudinal direction, a prevention plate is provided to prevent the measurement object from being separated from the upper plate and the lower plate due to its elastic restoring force. The measurement object is fixed to the upper plate and the lower plate by the fixing strap, but even in this case, the measuring object may slide between the fixing strap and the upper plate or between the fixing strap and the lower plate. In this case, since the measurement object is bounced off the upper plate and the lower plate by the elastic restoring force, it is necessary to prevent this, and the prevention plate performs such a function.

Preferably, the position of the portion of the upper plate to which the pressure gauge is coupled may be adjusted along the longitudinal direction of the upper plate, and the position of the portion of the lower plate to which the fixing bar is coupled to the longitudinal direction of the lower plate. Can be adjusted accordingly. In this case, the pressing point of the upper plate and the supporting point of the lower plate may be adjusted according to the type of the measurement object or the position of the measurement object.

According to the present invention, since the pressure measuring device capable of accurate quantitative measurement of the pressure is used, the effect of measuring the flexibility of the linear product, which is the measuring object, can be measured more accurately than in the related art.

In addition, according to the present invention, since it is stably seated and fixed to the upper plate and the lower plate which is the measurement target, the flexibility measurement operation of the measurement target occurs more easily than in the related art.

In addition, according to the present invention, since the pressing point of the upper plate and the supporting point of the lower plate can be adjusted, the effect of appropriately corresponding to various kinds and positions of the measurement object is generated.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Figure 2 is a configuration diagram showing an embodiment of the flexibility measuring apparatus according to the present invention, Figure 3 is a partially exploded perspective view for explaining the coupling relationship between the top plate and the pressure gauge of the flexibility measuring apparatus shown in Figure 2, 4 is a cross-sectional view taken along line AA ′ of FIG. 3.

Flexibility measuring apparatus according to the present invention includes a lower plate 110, the upper plate 130, fixing straps (150, 152), pressure measuring device 170 and the driving means 190.

The lower plate 110 is formed in a thin plate shape whose width is relatively smaller than the length, and is coupled to the fixing table 104 installed on the floor of the workplace 102. In addition, the lower plate 110 supports the measurement object 106 bent in the 'U' shape.

The upper plate 130 is formed in a thin plate shape whose width is relatively smaller than the length. In addition, the upper plate 130 is provided on the lower plate 110 so as to perform a linear reciprocating motion in the vertical direction, so that the upper plate 130 pressurizes the measurement object 106, or The pressing force applied to the measurement object 106 can be released.

The measurement object 106 is positioned between the lower plate 110 and the upper plate 130 configured as described above as shown in FIG. 2. One end and the other end of the measurement object 106 is fixed to the lower plate 110 and the upper plate 130 by the fixing straps 150 and 152, respectively. As described above, even though both ends of the measurement object 106 are fixed to the lower plate 110 and the upper plate 130 by the fixing strings 150 and 152, the measurement object 106 is fixed to the fixing string 152. It may slide between the upper plate 130 or between the fixing strap 150 and the lower plate 110. In this case, the measurement object 106 may be thrown out of the upper plate 130 and the lower plate 110 by the elastic restoring force, it is necessary to prevent this. Therefore, prevention plates 132 and 134 are installed at both ends in the longitudinal direction of the upper plate 130 to prevent the measurement object 106 from being separated from the upper plate 130 and the lower plate 110 due to its elastic restoring force. It is desirable to be.

On the other hand, it is preferable that a mounting groove 131 for stably seating the measurement object 106 is formed at a portion of the upper plate 130 that is in contact with the measurement object 106. Specifically, the mounting groove 131 is formed in a 'V' shape as shown in Figure 4 so that the measurement object 106 having a diameter of various sizes can be seated, the longitudinal direction of the top plate 130 It is formed to extend along. Although only the case in which the seating groove 131 is formed in the upper plate 130 is illustrated in FIG. 4, the seating groove 131 is formed in the lower plate 110 in the same shape.

The pressure measuring unit 170 is combined with the upper plate 130 to measure the pressure applied to the upper plate 130 by the measuring object 106 due to its elastic restoring force and outputs it as an electrical signal. The signal output from the pressure gauge 170 is converted into information in a form that can be recognized by the user through an interface such as a computer 172 and then provided to the user.

The driving means 190 is an upper and lower sides of the upper plate 130 and the pressure gauge 170 so that the upper plate 130 pressurizes the measurement object 106 or releases the pressing force applied to the measurement object 106. Causes linear reciprocation To this end, the driving stage 190 includes a driving motor 192, a connecting shaft 194 connecting the driving motor 192 and the pressure gauge 170. When the driving motor 192 is driven, the rotational motion of the driving motor 192 is converted into a linear up and down linear reciprocating motion by the connecting shaft 194 and is transmitted to the pressure measuring unit 170 and the upper plate 130.

On the other hand, the position of the portion (pressure point of the upper plate 130) of the portion of the upper plate 130 is coupled to the pressure measuring unit 170 may be adjusted along the longitudinal direction of the upper plate 130, the lower plate ( It is preferable that the position of the portion (support point of the lower plate 110) to which the fixing base 104 is coupled among the portions of the 110 can be adjusted along the longitudinal direction of the lower plate 110. In this case, the pressing point of the upper plate 130 and the supporting point of the lower plate 110 may be adjusted according to the type of the measurement object 106 or the position of the measurement object 106. Hereinafter, a configuration for adjusting the pressing point of the upper plate 130 and the supporting point of the lower plate 110 will be described in detail, but the configuration for adjusting the supporting point of the lower plate 110 is the pressing point of the upper plate 130. Since it is the same as the configuration for adjusting the configuration only the configuration for adjusting the pressing point of the upper plate 130 will be described with reference to FIG.

A T-shaped slot 136 extending in the longitudinal direction of the top plate 130 is formed on an upper surface of the top plate 130, and a T-type nut 138 is inserted into the T-shaped slot 136. The T-shaped nut 138 is rotated 90 degrees after being inserted into the T-shaped slot 136 in the form shown in FIG. 3, wherein the protrusion 139 of the T-shaped nut 138 is the T-shaped slot ( It is inserted into the receiving groove 137 of 136.

When the insertion of the T-shaped nut 138 is completed, the T-shaped nut 138 is moved along the T-shaped slot 136 to the fixed position of the T-shaped nut 138 and then the T-shaped nut 138. The washer 140 is positioned on the upper surface of the (). At this time, when the diameter of the washer 140 is smaller than the width (W) of the T-shaped slot 136, the T-shaped nut 138 cannot be fixed to the top plate 130 of the washer 140 The diameter is larger than the width W of the T-shaped slot 136. The fixing nut 142 for fixing the position of the T-shaped nut 138 is located on the upper surface of the washer 140. The hollow portion formed in the fixing nut 142 and the washer 140 and the insertion hole formed in the T-shaped nut 138 are inserted into a threaded portion of the coupling rod 144.

In this state, when the coupling rod 144 is rotated, the coupling rod 144 is engaged with the T-shaped nut 138. Then, when the fixing nut 142 is rotated, the fixing nut 142 is rotated. Pressurizes the washer 140 and the washer 140 presses the upper surface of the upper plate 130, so that the T-shaped nut 138 is firmly fixed to the upper plate 130. On the other hand, a portion located on the opposite side of the portion of the coupling rod 144 is formed of the coupling rod 144 is coupled to the pressure gauge (170).

Hereinafter, an operation process of the flexibility measuring device will be described.

Initially, the pressing point of the upper plate 130 and the supporting point of the lower plate 110 are set at appropriate positions to correspond to each other, and the upper plate 130 is positioned to be spaced apart from the lower plate 110 by a predetermined interval.

In this state, the measurement object 106 is positioned between the upper plate 130 and the lower plate 110, and the measurement object 106 is connected to the lower plate 110 and the upper plate using the fixing straps 150 and 152. It is fixed to (130). When the measurement object 106 is fixed, the driving motor 192 is operated until the measurement object 106 is bent to a predetermined bending diameter. In this process, the pressure applied to the upper plate 130 by the elastic restoring force of the measurement object 106 is periodically measured by the pressure gauge 170 and transmitted to the computer 172, and the computer 172. The information sent to the operator is provided to the operator and stored at the same time.

1 is a front view showing a linear product for explaining a conventional method of checking the flexibility.

Figure 2 is a block diagram showing an embodiment of a flexibility measuring apparatus according to the present invention.

FIG. 3 is a partially exploded perspective view for explaining a coupling relationship between a top plate and a pressure gauge of the flexibility measuring apparatus shown in FIG. 2.

 4 is a cross-sectional view taken along line AA ′ of FIG. 3.

Claims (4)

A lower plate coupled to a fixed base installed on the floor of the workshop and supporting a measurement object bent in a 'U' shape; An upper plate positioned above the lower plate to pressurize the measurement object; A fixing strap for fixing both ends of the measurement object to the lower plate and the upper plate; A pressure gauge coupled to one side of the top plate to measure a pressure applied to the top plate by the measurement object; And And a driving means for vertically reciprocating the upper plate and the pressure gauge. The method of claim 1, One side of the lower plate and one side of the upper plate facing one side of the lower plate is a flexible measuring device, characterized in that the seating groove for forming the measurement object is formed along the longitudinal direction of the lower plate and the upper plate. The method of claim 1, A flexible measuring device is installed at both ends of the upper plate in a longitudinal direction to prevent the measurement object from being separated from the upper plate and the lower plate due to its elastic restoring force. The method of claim 1, The position of the portion of the upper plate to which the pressure gauge is coupled may be adjusted along the longitudinal direction of the upper plate, and the position of the portion of the lower plate to which the fixing bar is coupled is adjusted along the longitudinal direction of the lower plate. Flexibility measuring device, characterized in that.

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