KR102077941B1 - Hose clamp tension measuring device - Google Patents

Abstract

The present invention relates to a device for measuring the tension of a hose clamp and, more specifically, to a device for measuring the tension of a hose clamp, comprising: a main body having a control unit; a measuring means for testing tension; a display unit for displaying a test result; and an output unit for outputting the test result. According to the present invention, a hose clamp with uniform tension corresponding to an installation environment and a diameter is manufactured, thereby maintaining the fixing force of a hose for a long time.

Description

Hose clamp tension measuring device

The present invention relates to a hose clamp tension measuring device in more detail, the measuring means formed on the upper side of the box-shaped main body is provided with a control unit for controlling the measuring means, a display unit for displaying the test results and an output unit for outputting the test results The tension of the hose clamp is measured by measuring the deviation range between the total force of the hose clamp and the distribution of the force and component force, and the component force by the plurality of tension measuring units radially formed on the plate-shaped fixing plate and manually transferred along the LM rail. In addition, the present invention relates to a hose clamp tension measuring device capable of reducing the diameter of hose clamps having different diameters and manually moving each tension measuring unit uniformly.

In general, hose clamps are used to prevent fluids and gases from the brakes, air conditioning systems, power steering or engine rooms of automobiles or other industrial sites. Is to use.

These hose clamps are made of various materials such as carbon steel, stainless steel, and alloy steel, and each has a different tension depending on the purpose. However, when the hose clamps are not used, the hose clamps are loosened and the hose is separated.

Therefore, after manufacturing the hose clamp to test and measure the tension according to the specification and the use environment to produce the optimum hose clamp as an example of the conventional Patent No. 10-1588997 'hose clamp tension tester' has been presented.

The conventional 'hose clamp tension tester' is to insert a hose clamp to the split shaft that is divided into radially divided and the tension frame coupled to the split shaft through the drive unit is moved to the outside along the guide rail to move the distance to the tension sensor By measuring each tension frame is moved at the same time by the operation of the drive can be easily measured the force, but there was a problem that can not measure the component force.

As described above, the hose clamp is divided into three axes and simultaneously moved to solve the problem of limiting the problem of measuring the component force. The conventional Patent Registration No. 10-1631922, 'Hose clamp test apparatus' has been proposed.

Looking at this, a frame provided in a hexahedron shape, a test plate fixed to the plate state on the upper portion of the frame, and installed on the upper surface of the test plate to test the tightening torque of the hose clamp, when the clamping force is generated a hose clamp Measuring means for measuring how much load is generated at which position of the clamp body, and installed on the bottom of the test plate to collect the measured values of the measuring means so that the measured value can be visually confirmed through a display or an indicator. Characterized in that it comprises a control unit for displaying.

Therefore, it is possible to easily determine whether the hose clamp has been completed by mechanically testing whether the clamping torque is suitable for the design of the hose clamp or which part of the clamp body is weaker than the other parts in real time. .

However, in the case of the conventional hose clamp test apparatus, when the measuring block having a load cell has a rectangular shape that is longer than the horizontal length, the measuring means is inclined toward the center of the coupling tip, that is, when the measuring means is moved outward. there was.

In addition, in the initial operation of setting the load cell to zero, the clamping bolt of the measuring fixture is moved within the clamp body of the hose clamp by loosening the intermittent bolt and moving the adjusting bolt so that the adjusting plate can be moved by the adjusting bolt screwed to the supporting bracket. There is a problem that it takes a very long time for the preparation process by manually manipulating a number of adjustment plates to be connected to the neck and fixed.

The present invention devised to solve the above-mentioned conventional problems, by manually moving a plurality of radially arranged tension measuring units, respectively, can measure the force of the hose clamp as well as the component force, the load cell portion is longer in the horizontal direction than the height The purpose of this test is to reduce the rotation point of the rectangle to prevent deformation of the tension measuring part so that the reliability of the test can be improved with accurate results.

In addition, when the nominal diameter is changed, each tension measuring unit is manually and uniformly moved by the displacement measuring sensor so that the center point is kept constant and the initial position can be easily set in a short time, thereby reducing the time required for measurement. There is a purpose.

Hose clamp tension measuring apparatus of the present invention for achieving the above object, the box-shaped main body is provided with a control unit, provided on one side of the upper surface of the main body, the measuring means for testing the tension by inserting the hose clamp; In the hose clamp tension measuring device is provided spaced apart from the measuring means and including an output unit for outputting a test result and a display unit for displaying a test result, the measuring means is fixed to the plate-shaped fixed to one side of the upper surface of the main body It consists of a plate and a plurality of rails fixed radially on the top of the fixing plate, and a tension measuring unit formed with a guide block to move along the rail in the lower side, the tension measuring unit is fixed to the upper portion of the guide block and manual on one side A lower fixing plate to which the position moving means is coupled, and an upper portion of the lower fixing plate Is provided in characterized in that consisting of the upper fixing plate being one side is fixed the combined tip protrudes to the upper side is fixed to the upper load cell unit, and the load cell unit is a sensor formed at one side to make the tubing to an end.

At this time, one side of the lower fixing plate of the plurality of lower fixing plate is provided with a displacement measuring sensor unit for measuring the displacement of the tension measuring unit when the clamping of the hose clamp.

In addition, the displacement measuring sensor unit is composed of an input shaft and a displacement sensor for detecting a change in the position of the input shaft penetrated through the 'b' type coupling hole fixed to one side of the body of the lower fixing plate.

In addition, the manual position moving means is formed to include a rotary shaft for screwing the screw shaft is formed on one side of the lower fixing plate and a rotating tool for manually manipulating the rotary shaft to move the tension measuring unit.

At this time, one side of the rotating shaft is screwed to the lower fixing plate, the other side of the rotating plate is formed through the shaft fixing tool of the square plate body, the end of the rotating shaft is screwed perpendicularly to the rotating shaft and the end is The clamp lever is in close contact with the outer circumferential surface of the rotating shaft.

In addition, the outer side of the lower fixing plate is further provided with a reinforcing plate is formed in the lower rail through the rail so as to pass through the rail portion, both sides of the reinforcing plate is formed with a bolt hole communicating with the rail through groove, the bolt hole It is provided with a pressing fixture for pressing the rail portion from both sides by a bolt inserted into the bolt hole.

In addition, the load cell unit is provided with a load cell inside the load cell case, the load cell is formed in a rectangular shape longer than the height of the horizontal length.

According to the present invention, by moving the plurality of tension measuring units arranged in a radial direction to the outside to reduce the deviation range between the components by measuring the force as well as the component force to produce a hose clamp of a uniform tension according to the installation environment and diameter of the hose It is effective to maintain the fixing force for a long time.

In addition, due to the characteristic of the tension measuring unit where the force acts on the center, the shape of the load cell located at the center of the height of the tension measuring unit has a rectangular shape that is longer in the transverse direction than the height, thereby lowering the rotation point to prevent deformation by bending to the center. There is an effect to increase.

1 is a perspective view of a hose clamp tension measuring device according to the present invention.
Figure 2 is a perspective view of the measuring means of the hose clamp tension measuring device according to the invention.
Figure 3 is a plan view of the measuring means of the hose clamp tension measuring device according to the invention.
Figure 4 is a perspective view of one of the measuring means of the hose clamp tension measuring device according to the invention.
5 is an exploded view of one measuring means of the hose clamp tension measuring device according to the present invention.
6 to 8 is an operating state diagram of the hose clamp tension measuring device according to the invention.

Hereinafter, the features of the hose clamp tension measuring device (hereinafter, referred to as a tension measuring device) according to the present invention will be understood by the embodiments described in detail with reference to the accompanying drawings.

As the inventive concept allows for various changes and numerous embodiments, the embodiments will be described in detail in the text. However, this is not intended to limit the present invention to the specific form disclosed, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Box-shaped main body 10 is provided with a control unit 20, provided on one side of the upper surface of the main body 10, the measuring means 100 to test the tension by inserting the hose clamp 2, and the measurement In the hose clamp tension measuring device which is provided spaced apart from the means 100 and comprises a display unit 30 for displaying a test result and an output unit 40 for outputting a test result, the measuring means 100 is the main body A plate-shaped fixing plate 101 fixed to one side of the upper surface of the 10 and a plurality of rail portions 102 fixed radially to the upper portion of the fixing plate 101, along the rail portion 102 in the lower side The guide block 103 is formed of a tension measuring unit 110 is formed, but the tension measuring unit 110 is fixed to the upper portion of the guide block 103, the lower side of the manual position moving means 130 is coupled to one side The fixing plate 112 and the upper portion of the lower fixing plate 112 It is fixed to the load cell portion 113 and the upper portion of the load cell portion 113, the sensor is formed on one side and the coupling tip 116 protruding upward from one side is fixed so as to hang the hose clamp (2) at the end Characterized in that the upper fixing plate (114).

Hereinafter, each part of the tension measuring device 1 of the present invention will be described in detail.

The tension measuring device 1 of the present invention has a main body 10 having a control unit 20 for controlling the movement of the measuring means 100 and the output of the resultant value, as shown in FIG. 10 may be provided with a caster 11 that can be fixed and movable in the bottom in a substantially rectangular box shape.

In addition, the control unit 20 is formed of a PC provided inside the main body 10, and of course, an input means such as a keyboard, a mouse, etc. is provided on the upper part of the main body 10, and the result value is displayed in numerical values or graphs. In addition, the display unit 30 provided by the monitor and the like, and outputs the test results, etc. The output unit 40 provided by the printer is provided on the upper portion of the main body 10.

And, as shown in Figure 1, the measuring means 100 is provided on the upper portion of the main body 10 adjacent to the display unit 30 and the output unit 40, the measuring means 100 is a plate-like fixed plate 101 And a plurality of rail portions 102 fixed to the upper portion of the fixing plate 101 and a tension measuring portion 110 moved along the rail portion 102.

At this time, the plate-shaped fixing plate 101 is fixed to the upper portion of the main body 10 by a fixing bolt or the like, and the rail portion 102 is provided with an LM rail, and is provided below the tension measuring unit 110. The guide block 103 is formed of an LM block body so as to correspond to the rail portion 102.

That is, the tension measuring unit 110 is moved to the LM guide has an advantage that the clearance gap is extremely small.

In addition, the lower fixing plate 112 of the tension measuring unit 110 formed at the upper portion of the guide block 103 is coupled to the manual positioning means 130 on one side of each of the manual positioning means 130 The tension measuring unit 110 is moved along the rail unit 102.

Meanwhile, as shown in FIGS. 2 to 5, the lower fixing plate 112 has a substantially rectangular box shape, and a guide block 103 corresponding to the rail part 102 is fixed to the lower part by a bolt or the like.

In addition, a load cell part 113 having a load cell 113a is fixed to an upper portion of the lower fixing plate 112, and the load cell part 113 is a load cell case 113b having a load cell 113a therein. The load cell 113a may be provided as a strain gauge-based load cell 113a having high precision.

At this time, the load cell 113 may be provided in various forms, but the horizontal length is formed longer than the height to prevent the central portion of the measuring means 100 is inclined due to the characteristics of the tension measuring means 100 is applied to the central portion It is desirable to be.

That is, the load cell formed with a height longer than the conventional horizontal length has a high rotation point, and when the measuring means 100 moves to the outside, the phenomenon occurs that the inclination toward the center occurs, resulting in an error of the result value. It is possible to prevent deformation of the 100.

And, the upper fixing plate 114 is fixed to the upper portion of the load cell portion 113, such as bolts are fixed to the coupling tip 116 to insert the hose clamp (2) at the end, one end of the coupling tip 116 and A triangular coupling portion 114a is formed to be fixed.

In addition, the opposite side of the coupling portion (114a) is formed in a rectangular box body to be fixed to correspond to the upper surface of the load cell portion 113 is formed integrally with the coupling portion (114a).

In addition, the coupling tip 116 is formed so that the end is protruded upward to hang the hose clamp (2) and is formed by dividing the stepped cylindrical radially.

At this time, the coupling tip 116 can be measured more accurately the more the component of the hose clamp (2) is formed in more axes, preferably divided into 8 to 12 axes.

2 to 4, one side of the lower fixing plate 112 of the plurality of lower fixing plates 112 has a tension measuring unit 110 at the time of clamping the hose clamp 2. Displacement measuring sensor 120 for measuring the displacement is provided.

The displacement measuring sensor unit 120 has a moving distance of the tension measuring unit 110, that is, the outer diameter of the coupling tip 116 in a state where the coupling tip 116 of each tension measuring unit 110 is in close contact with the central portion. To move each tension measuring unit 110 by 1/2 the length of the inner diameter of the hose clamp (2) to be measured so that the center point is always constant.

For example, when the outer diameter of the coupling tip 116 is 10 mm and the inner diameter of the hose clamp 2 to be measured is 20 mm in a state where the coupling tip 116 of the tension measuring unit 110 is in close contact with the center portion, each tension measuring unit The distance that the 110 moves outward is set to 5 mm.

Hereinafter, a detailed operation process will be described later.

In addition, the displacement measuring sensor unit 120 is the position change of the input shaft 122a and the input shaft 122a penetrated through the coupling hole 121 of the 'b' type is fixed to one side of the body of the lower fixing plate 112 Characterized in that consisting of a displacement sensor 122 for detecting.

Therefore, the displacement sensor 122 detects the movement distance of the tension measuring unit 110 by the movement of the lower fixing plate 112, so that the plurality of tension measuring unit 110 described above manual position moving means 130 It becomes possible to move uniformly.

In this case, the displacement sensor 122 is fixed to the sensor fixing part 122b fixed to the upper surface of the fixing plate 101, and the input shaft 122a is fixed to the coupler 121.

At this time, the nut 123 is coupled and fixed to the input shaft 122a passing through the coupler 121.

In addition, the manual position movement means 130 moves the tension measuring unit 110 by manually manipulating the rotating shaft 131 and the rotating shaft 131 having a screw thread to be screwed to one side of the lower fixing plate 112. It is formed to include a rotary sphere 134.

At this time, one side of the rotating shaft 131 is screwed to the lower fixing plate 112, the other side is passed through the shaft fixing tool 133 of the square plate body the rotating sphere 134 is formed at the end, the shaft The fixture 133 is provided with a clamp lever 132 that is screwed vertically with the rotary shaft 131 and the end is in close contact with the outer peripheral surface of the rotary shaft 131.

In addition, it is preferable that the outer circumferential surface is knurled to facilitate rotation by holding the rotary ball 134 in a substantially cylindrical shape, and the clamp lever 132 is screwed vertically at the upper portion of the shaft fastener 133 and tightened and released. The upper end is formed in a vertically bent shape so that the end can press and release the rotating shaft 131.

The clamp lever 132 prevents the rotation shaft 131 from rotating by rotating the rotary ball 134 arbitrarily in the state where the tension measuring unit 110 is moved by the set position.

Of course, the rotary ball 134 may be applied to any known method that can rotate the rotary shaft 131.

In addition, the outer side of the lower fixing plate 112 is further provided with a reinforcing plate 115 is formed with a rail through groove 115b at the lower portion so that the rail portion 102 penetrates, of the reinforcing plate 115 Bolting holes 115c communicating with the rail through grooves 115b are formed at both sides, and both sides of the rail portions 102 are formed by bolts 115a inserted into the bolt holes 115c at the bolt holes 115c. It is characterized in that the pressing fixture (115d) is provided to pressurize in.

The pressing fixture 115d is provided with a soft material to prevent the rail portion 102 from being damaged due to friction with the rail portion 102, and the tension measuring portion 110 is clamped when clamping due to the play of the LM rail. The flow of the portion 102 is prevented from flowing.

In other words, after manually moving the tension measuring unit 110 to the set position, tighten the bolt 115a so that the pressure fixing tool 115d presses both sides of the rail unit 102 to prevent shaking of the tension measuring unit 110. do.

In addition, the load cell 113 is provided with a load cell 113a inside the load cell case 113b, and the load cell 113a is formed in a rectangular shape having a length greater than a height.

Therefore, the rotation point is lowered so that there is no deformation of the tension measuring unit 110 until the target load, and the force moves in the horizontal direction when measuring the load.

The operation of the tension measuring device 1 will be described with reference to FIGS. 6 to 8.

First, as shown in FIGS. 6 to 8, the number plate 114a is provided on the upper fixing plate 114 of each tension measuring unit 110 of the measuring means 110 according to the present invention.

In this case, the displacement measuring sensor unit 120 is formed in the second tension measuring unit (110).

First, as shown in FIG. 6, the coupling tip 116 of each tension measuring unit 110 is in close contact with the center portion, and the length of the hose clamp 2 to be measured at the outer diameter of the coupling tip 116 is equal to 2 1/2 of the inner diameter thereof. The tension measuring unit 110 is moved.

At this time, the exact moving distance of the second tension measuring unit 110 is measured by the displacement measuring sensor 120 can be confirmed through the display unit 30.

In addition, the coupling tip 116 is coupled to the reference ring 3 having the same diameter as the hose clamp 2 so that one side of the inner circumferential surface of the reference ring 3 is the coupling tip 116 of the tension measurement unit 110. In close contact with the outer surface of the

Thereafter, as shown in FIGS. 7 to 8, the second tension measuring unit 110 and the remaining tension measuring unit 110 are rotated along the rotating shaft 131 by rotating the rotary holes 134 of the respective manual positioning means 130. The tenth tension measuring unit 110 is moved uniformly. Preferably, the tenth tension measuring unit 110, the tenth tension measuring unit 110 and the eleventh which are located opposite to the second tension measuring unit 110. , 5 times the tension measuring unit 110 is moved sequentially so that the reference ring (3) is fixed at the center point.

Then, the remaining tension measuring unit 110 is manually moved in the same manner, the reference ring 3 is removed, and the hose clamp 2 is fitted to measure the tension.

On the other hand, when the tension measuring unit 110 is moved to the set position by rotating the clamp lever 132 of the manual position shifting means 130 so as not to move arbitrarily to fix the rotating shaft 131 is not rotated, reinforcement plate ( Tightening bolts 115a on both sides of the 115 to pressurize the fixture 115d to press both sides of the rail portion 102 to prevent the tension measuring unit 110 from shaking in the rail portion 102 during clamping.

In addition, in order to measure the tension of the hose clamps (2) having different diameters, the hose to be measured after detecting and moving the tension measuring unit (110) through the displacement measuring sensor unit (120) as much as the first set position in the same manner as above. After the reference ring 3 having the same diameter as the clamp 2 is inserted into the coupling tip 116, the above process is repeated and the tension of the hose clamp 2 is measured.

According to the tension measuring device (1) according to the present invention by reducing the deviation range between the components by measuring the force as well as the component force to produce a hose clamp (2) of uniform tension in accordance with the installation environment and diameter for a long time the fixing force of the hose It is effective to maintain.

In addition, the shape of the load measuring unit 110 located in the height center of the tension measuring unit 110 in the characteristic of the tension measuring unit 110 acts as a force in the center of the horizontal direction longer than the height of the rotation point is provided By lowering the deflection to the center, it is possible to increase the reliability of the tension measurement.

As described above, the above-described embodiment is described with reference to the most preferred example of the present invention, but is not limited to the above-described embodiment, and it is apparent to those skilled in the art that various modifications are possible without departing from the technical spirit of the present invention. .

1: tension measuring device 2: hose clamp
3: reference ring 10: main body
11: caster 20: control unit
30: display unit 40: output unit
100: measuring means 101: fixed plate
102: rail portion 103: guide block
110: tension measuring unit 112: lower fixing plate
113: load cell portion 114: upper fixing plate
115: fixing plate 116: coupling tip
120: displacement measuring sensor unit 121: coupling sphere
122: displacement sensor 123: nut
130: manual position moving means 131: rotation axis
132: clamp lever 133: shaft fixture
134: rotary ball

Claims (7)

Box-shaped main body 10 is provided with a control unit 20, provided on one side of the upper surface of the main body 10, the measuring means 100 to test the tension by inserting the hose clamp 2, and the measurement In the hose clamp tension measuring device provided spaced apart from the means 100 and comprises a display unit 30 for displaying the test results and an output unit 40 for outputting the test results,
The measuring means 100 is a plate-shaped fixing plate 101 fixed to one side of the upper surface of the main body 10 and a plurality of rail portions 102 fixed radially to the upper portion of the fixing plate 101, the lower side It consists of a tension measuring unit 110 is formed with a guide block 103 to be moved along the rail 102, the tension measuring unit 110 is fixed to the upper portion of the guide block 103 and a manual position on one side The lower fixing plate 112 to which the moving means 130 is coupled, and is provided on an upper portion of the lower fixing plate 112 and fixed to an upper portion of the load cell unit 113 and the load cell unit 113 having a sensor formed on one side thereof. And an upper fixing plate 114 on which one end of the coupling tip 116 protrudes upward to fix the hose clamp 2 to the end, and the manual positioning means 130 is the lower fixing plate ( A screw thread formed to be screwed to one side of 112) The rotating shaft 131 and the rotating shaft 131 by manually manipulating the rotating sphere 134 to move the tension measuring unit 110 is formed, one side of the rotating shaft 131 is the lower fixing plate 112 Screwed to the other side, the rotating hole 134 is formed at the end through the shaft fixing tool 133 of the rectangular plate body, the shaft fixing tool 133 is screwed perpendicularly to the rotating shaft 131 end Hose clamp tension measuring device is characterized in that the clamp lever 132 is in close contact with the outer peripheral surface of the rotary shaft (131).
The method of claim 1,
One side of the lower fixing plate 112 of the plurality of lower fixing plate 112, the displacement measuring sensor unit 120 for measuring the displacement of the tension measuring unit 110 during the clamping of the hose clamp (2) Hose clamp tension measuring device characterized in that it is provided.
The method of claim 2,
The displacement measuring sensor unit 120 detects a change in the position of the input shaft 122a and the input shaft 122a penetrated by the 'b' shaped coupling sphere 121 fixed to one side of the body of the lower fixing plate 112. Hose clamp tension measurement device, characterized in that consisting of a displacement sensor (122).
delete delete The method of claim 1,
The outer side of the lower fixing plate 112 is further provided with a reinforcing plate 115 is formed with a rail through groove (115b) in the lower portion so that the rail portion 102 penetrates, both sides of the reinforcing plate 115 A bolt hole 115c communicating with the rail through groove 115b is formed, and the bolt hole 115c pressurizes the rail portion 102 from both sides by a bolt 115a inserted into the bolt hole 115c. Hose clamp tension measuring device characterized in that the pressing fixture (115d) is provided.
The method of claim 1,
The load cell part 113 is provided with a load cell (113a) inside the load cell case (113b), the load cell 113a is a hose clamp tension measuring apparatus, characterized in that formed in a rectangular shape longer than the height.

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