KR101631922B1 - Hose clamp test device - Google Patents

Abstract

The present invention enables the amount of the product to be judged by determining whether the hose clamp generates a torque according to the set value, and the state of the load distributed in the hose clamp can be confirmed, so that a new hose clamp So as to produce hose clamps of excellent quality.
A test plate which is provided on the upper surface of the test plate to test the tightening torque of the hose clamp and which clamps the hose clamp when the clamping force is generated, Measuring means for measuring the amount of load at a certain position of the body, measuring means provided on the bottom surface of the test plate for measuring the measured value through a display or an indicator, And a control unit for controlling the operation of the apparatus.

Description

[0001] HOSE CLAMP TEST DEVICE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hose clamp test apparatus, and more particularly, to a hose clamp test apparatus for testing a hose clamp for interrupting a hose connected to a connecting member, To the provision of a test apparatus.

Normally, hose clamps are used to control the brake of an automobile, the air conditioning system, the power steering or a hose used to distribute fluid or gas to the engine room, or a hose to be connected to the flow of fluid or gas at other industrial sites It is used to prevent the separation phenomenon.

A variety of clamps for hoses have been used in the past, and a clamp having a correcting function for preventing the clamping force from being lost by correcting the diameter of the hose due to aging due to use for a long period of time It is a fact that it is used.

Various types of hose clamps have been developed and used as described above. The construction of the most common hose clamp among the hose clamps will be described with reference to FIG.

A conventional hose clamp 100 includes a clamp body 101 having a circular plate member made of stainless steel and having elasticity and bending the plate member in a circular shape and a fastening housing 102 fixed to one end of the clamp body 101 And the fastening means 105, to which the fastening screw 104 is coupled, is engaged with the head 103.

The clamping body 104 is coupled with the clamping screw 104 in the inner side from the other end of the clamping body 101 to allow the diameter of the clamping body 101 to be reduced or enlarged by forward and reverse rotation of the clamping screw 104. [ (107) for preventing the hose from being damaged by damaging the hose in the process of interrupting the hose by the widthwise edge of the piercing hole (106) or the clamping body (101) .

And a correcting means 108 integrally formed with the clamp body 101 and capable of tightly tightening the hose by elasticity so as to be reduced when the diameter of the hose is reduced by long-term use.

none.

none.

It is a well-known fact that the hose and the connecting member are interrupted by reducing the diameter of the hose clamp by using the fastening means after positioning the various types of connecting members of the hose clamp on the outer circumferences of both ends of the hose.

However, since the hose clamp does not currently have a mechanical or mechanical testing device to determine whether it is a normal product or a defective product that can not be used after the hose clamp is manufactured, most of the tests and tests are performed manually by the manpower In fact.

For example, the operator visually confirms whether or not the completed hose clamp is defective and firstly checks whether the hose clamp is in a normal state or a defective state to check the appearance. When the appearance inspection is completed, the operator operates the fastening means, A secondary inspection is performed to confirm whether the diameter of the body is reduced or increased.

As described above, after the first and second inspection are completed, most of the products are recognized as normal products. Therefore, in actual use of the hose clamp in the field, the force of interrupting the hose does not reach the designed value, The hose can not be tightly interlocked, resulting in a failure to prevent leakage of the fluid through the hose.

Thus, in the past, since the hose clamp is normal and the test for securing the clamping force in the designed state is relied on the senses, the quality of the finished hose clamp can not be guaranteed, and even if it is strictly selected, And it is impossible to secure uniformity.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a hose clamp for a hose clamp, which comprises a frame having a hexahedron shape, Measuring means for measuring a torque at a position of the clamping body constituting the hose clamp when the clamping force is generated and measuring a load on the clamping body; And a controller for displaying the measured values through a display or an indicator to visually confirm the measured values;

It is possible to check the amount of the product or not to judge whether the hose clamp generates the torque according to the set value, and the state of the load distributed in the hose clamp can be confirmed. Considering the load distribution when designing a new hose clamp It is possible to achieve a purpose of producing a hose clamp of excellent quality.

The present invention makes it possible to mechanically test whether a clamping torque is appropriate to the design of the hose clamp or a portion of the clamping body that is weaker than other parts and to check the clamping force in real time so as to facilitate the determination of the completion of the hose clamp Of course, it is an invention having various effects such as contributing to improvement of quality and durability of hose clamp while enhancing external competitiveness by making it possible to uniformly maintain excellent quality by reflecting on design and quality control based on test results.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a general view showing a hose clamp test apparatus to which the technique of the present invention is applied. FIG.
2 is a sectional view taken along line A-A of the hose clamp test apparatus to which the technique of the present invention is applied.
3 is a perspective view illustrating a hose fastening portion of a hose clamp test apparatus to which the technique of the present invention is applied.
4 is a perspective view showing a load cell portion of a hose clamp test apparatus to which the technique of the present invention is applied.
5 is a configuration diagram showing a control unit of a hose clamp test apparatus to which the technique of the present invention is applied.
Fig. 6 is an exemplary view showing a use state of a hose clamp test apparatus to which the technique of the present invention is applied; Fig.
7 is an exemplary configuration view of a hose clamp shown to illustrate the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view taken along line A-A of the hose clamp test apparatus to which the technique of the present invention is applied. Fig. 3 is a cross-sectional view of the hose clamp test apparatus according to the present invention FIG. 4 is a perspective view illustrating a load cell section of a hose clamp test apparatus to which the technique of the present invention is applied, and FIG. 5 is a perspective view showing a hose clamp test apparatus of the hose clamp test apparatus according to the present invention. FIG. 6 is an exemplary view showing the use state of the hose clamp test apparatus to which the technique of the present invention is applied, and FIG. 7 is an exemplary configuration of the hose clamp shown to explain the present invention Explain it together on the road.

The hose clamp 100 testing apparatus 110 according to the present invention is provided with a hexahedron shaped frame 111 made of a material such as a metal plate or an aluminum profile, The test plate 112 is fixed.

The tightening torque of the hose clamp 100 is tested on the upper surface of the test plate 112 and when a clamping force is generated, a load is applied to a certain position of the clamp body 101 constituting the hose clamp 100 (120) for measuring the ground level.

The measured value of the measuring means 120 is combined with the bottom of the test plate 112 and the measured value is visually measured through the display 116 or the indicator 117 provided on either side of the measuring means 120 or above And a control unit 150 for displaying the data to be confirmed.

The measuring unit 120 fixes a circular base 121 having a central passage on an upper surface of the test plate 112 and a load 121 A plurality of hexahedron measuring blocks 123 having a load cell 122 are arranged radially so as to measure the force (force).

The number of the measurement blocks 123 is set to the number to be checked in the hose clamp 100 to be tested. For example, when it is desired to check the load distribution in six places of the hose clamp 100, It is a matter of course that the number of the twelve hose clamps 100 may be varied depending on the size and the use of the hose clamp 100 since the twelve hose clamps 100 are required to have 12 load distribution distributions.

)형상으로 구성되는 서포팅브라켓(126)을 고정한다.The upper surface of the measurement block 123 is provided with a fixing plate 124 closely contacting the upper surface and the front surface (central direction) of the measurement block 123 and a support plate 125 protruding upward from the rear of the fixing plate 124, (

) Of the support bracket 126 is fixed.

The upper surface of the supporting bracket 126 is closely contacted with the adjustment plate 130 by the vertical plate 127 and the horizontal plate 128 and then tightly fixed to the supporting bracket 126 by the interlocking bolt 131 And the vertical plate 127 standing on the rear side of the horizontal plate 128 is connected to the adjustment bolt 133 coupled with the screw hole 132 formed in the support plate 125 so that the adjustment bolt 133 To move the control plate 130 in the forward and backward directions of the measurement block 123 with respect to the support bracket 126. [

A pair of long holes 134 to which the intermittent bolts 131 are coupled are formed in parallel to the horizontal plate 128 of the adjustment plate 130 so that the adjustment plate 130 is rotated in a direction corresponding to the diameter of the hose clamp 100 , So that it does not interfere with rearward movement.

The adjustment plate 130 has a wide width at the outer side and a narrow width at the inner side so that even if the number of the adjustment plates 130 is large, It would be natural to do.

A measuring jig 135 for holding the inner diameter portion of the clamp body 101 constituting the hose clamp 100 to be tested is coupled to the inner end of the adjusting plate 130.

The measuring jig 135 has a plate-shaped jig 136 formed with a fixing hole 138 to be closely fitted to a coupling jaw 136 formed at an inner end of the adjusting plate 130 and coupled by a fixing means 137 such as a bolt, And a coupling tip 140 protruding upward so as to engage with an inner diameter portion of the hose clamp 100 to be tested is integrally formed at the front (center) of the jig body 139 do.

The coupling tip 140 may be formed in one or more than one multi-stages. If more than one coupling tip 140 is formed, the coupling tip 140 may correspond to various diameters of the hose clamp 100, If the difference is large, it can be replaced with a new measuring fixture 135.

The bottom surface of the measuring jig 135 is provided at a central position of the test plate 112 on which the measuring jig 135 is located so as to prevent the measuring jig 135 from being sagged in a downward direction, Thereby further securing the pedestal 145 that can support it.

The control unit 150 includes a receiving unit 151 for receiving a sensing value of the load cell 122 through an electrical connection and a receiving unit 151 for comparing receiving information of the receiving unit 151 with a setting value or a design value A comparison unit 152 for determining whether the hose clamp 100 is normal or defective, a storage unit 153 for storing input values and correction values of the set values of the hose clamp 100, The measured value is displayed on the indicator 154 such as the seventh segment as it is, and the set value and the measured value are simultaneously displayed through the display 116 so that the user can easily visually judge And an operation unit 155.

The connection between the load cell 122 and the receiver 151 may be achieved by electrical connection as described above. However, when the measurement position and the controller 150 or the display 116 can maintain a considerable distance, It will be obvious that popularized communication means such as communication can be used.

Hereinafter, a process of testing the hose clamp 100 using the hose clamp test apparatus 110 according to the present invention will be described.

The measuring jig 135 corresponding to the diameter of the hose clamp 100 to be tested is fixed to the inner end of the adjusting plate 130 and the adjusting plate 130 is fitted to the inside diameter of the clamp body 100 of the hose clamp 100 Move forward and backward to adjust.

The adjusting bolt 133 is moved in a state where the adjusting bolt 133 is moved by the adjusting bolt 133 screwed to the supporting bracket 126 by moving the adjusting bolt 131, The control bolt 131 is tightened so that the adjustment plate 130 does not move while the coupling tip 140 of the hose clamp 100 is connected to the inner diameter of the clamp body 100 of the hose clamp 100.

The clamping force of the hose clamp 100 is applied to the coupling tip 140 and the clamping force of the hose clamp 100 is applied to the clamping force of the hose clamp 100. In this state, The load cell 122 is transmitted to the control unit 150 through the control plate 130, the support bracket 126 and the measurement block 123. The load cell 122 is connected to the load cell 122,

The load index of each load cell 122 associated with the combining team 140 is applied to the receiving unit 151 constituting the control unit 150 and the applied information is transmitted to the storage unit 153 to the operating unit 155. [0064]

It will be appreciated that not only the respective load indices measured and received at the same time are stored in the storage unit 153, but also the values determined by the comparison determination unit 152 are also stored in the storage unit 153.

The operation unit 155 displays the load index applied from the load cell 122 directly through the indicator 117 so that the loading state at the position where the coupling tip 140 of the hose clamp 100 under test is located can be grasped in real time And displays the set value, the measured value, and the comparison value through the display 116 so that the set value, the measured value, and the comparative value can be confirmed in real time by letters, numbers, graphs, or graphics.

In the present invention as described above, it is possible to determine the amount of the product and the state of the load distributed in the hose clamp, by checking whether the hose clamp 100 generates a torque according to the set value, It is possible to produce high quality hose clamp by reflecting the load distribution in designing the clamp.

100; Hose clamp 110; Hose Clamp Test System
111; Frame 112; Test plate
116; Display 117; Indicator
120; Measuring means 122; Load cell
123; Measurement block 126; Supporting bracket
130; An adjustment plate 135; Measuring jig
139; Jig body 140; Coupling tip
145; Pedestal 150; The control unit
151; A receiving unit 152; The comparison /
153; Storage 155; Operating part

Claims (6)

A frame 111 provided in a hexahedron shape;
A test plate 112 fixed on the frame 111 in a plate form;
The tightening torque of the hose clamp 100 is tested and the test plate 112 is tested so as to measure how much load is generated in the clamp body 101 constituting the hose clamp 100 when the clamping force is generated Measuring means (120) provided on the upper surface;
And a control unit 150 installed on the bottom surface of the test plate 112 to integrate the measured values of the measuring unit 120 and display the measurement values visually through the display 116 or the indicator 117 and;
The measuring unit 120 includes a load cell 122 for measuring the load applied to the hose clamp 100 on the upper surface of the base 121 on the upper surface of the test plate 112, A plurality of measurement blocks (123) arranged and disposed;
A fixing plate 124 closely contacting the upper surface and the front surface of the measurement block 123 and a supporting plate 125 protruding upward from the rear of the fixing plate 124,

A supporting bracket 126 fixed to the upper surface of the measurement block 123;
A control plate 130 formed of a vertical plate 127 and a horizontal plate 128 and fixed to the supporting bracket 126 with an intermittent bolt 131;
The vertical plate 127 standing on the rear side of the horizontal plate 128 is connected to the adjustment bolt 133 coupled with the screw hole 132 formed in the support plate 125 and is fixed to the adjustment plate 133 by the adjustment bolt 133 130 in the forward and backward directions of the measurement block 123 with respect to the support bracket 126 so as to correspond to the hose clamp 100;
And a measuring jig (135) coupled to an inner end of the adjusting plate (130) for holding the inner diameter of the hose clamp (100) to be tested. delete delete The method of claim 1, further comprising:
The measuring jig 135 includes a jig body 139 which is in close contact with an engaging jaw 136 formed at an inner end of the regulating plate 130 and is coupled to the fixing unit 137;
And a coupling tip (140) protruding upward from the jig body (139) so as to engage with an inner diameter portion of the hose clamp (100) to be tested. delete 5. The method of claim 4,
A pedestal 145 for supporting the bottom surface of the measuring jig 135 is further fixed to the center of the test plate 112 on which the measuring jig 135 is located so as to prevent the measuring jig 135, Wherein the hose clamp device is a hose clamp device.

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