KR20050118389A - Measure-material-setting jig allowing continuous measuring of mass molded products - Google Patents

Abstract

The present invention relates to a workpiece setting jig for continuously numerical measurement of a large quantity of molded products produced by cutting, polishing, or injection molding, and in particular, upper and lower setting blocks of different heights are respectively formed on the upper surface of the panel. By the lower setting block, one side of the lower end of the workpiece is mounted, and the upper setting block of one side of the upper end of the measurement by pressing fixed,

The upper and lower setting blocks not only secure the workpiece, but also make setting of the workpiece relatively simple and precise when setting for horizontal and concentricity of the workpiece.The new setting is possible through the preset upper and lower setting blocks. It is about the workpiece setting jig that can measure the object very quickly and precisely because it can clamp a large number of molded parts continuously without going through the process.

Description

Measure-material-setting jig allowing continuous measuring of mass molded products}

The present invention relates to a workpiece setting jig for continuously numerical measurement of a large amount of molded products produced by cutting, polishing, or injection molding, etc., to measure in a setting jig with preset concentricity, horizontal and vertical angle for the same workpiece. It is about a workpiece setting jig used for the purpose of quickly sorting large quantities of molded articles or removing defective parts by simply mounting an object to be measured quickly and accurately.

In general, precision molded products obtained from cutting, polishing, extrusion, injection molding, etc. are subjected to a process of screening or inspecting them because they may cause a defect or malfunction of the device if the molding value is out of an error range.

As a method of measuring the numerical value of such a molded article, each object is measured in a state of securing horizontality and concentricity by a two-point support method.

Separate setting blocks are placed under both ends of the molded product, and the dial gauge, height gauge, vernier caliper, micrometer, etc. are used while the horizontal and concentricity of the molded product is secured by raising and lowering the setting block. By measuring the molding value, squareness, parallelism and the like of the molded article.

At this time, the setting block is typically composed of a main body located on the upper surface of the surface plate and a screw pin exposed to the upper side of the main body, these setting blocks are the rotation of the screw pin described above. By lifting and lowering by to ensure the horizontal and concentricity of the object placed on the setting block.

However, the numerical measurement method and the setting block used therein are relatively easy to use in the case of a single article, but there is a very troublesome and irrational problem when a large quantity of molded articles must be measured continuously.

In other words, after measuring the numerical value using a block set for one molded article, it is cumbersome to set the horizontal and concentricity, etc., suitable for a new article again while another article is placed thereon. However, since the precision parts obtained by molding do not all have the same shape, it is inconvenient to readjust the setting block to suit each measurement object. In the case of a press-formed bending plate body, the elastic restoring force of the metal material It is more difficult because the angle of bending each article is not constant.

Particularly, in the case of a measuring object in which cylindrical or circular tubes having different diameters are continuously integrally formed, the measuring block cannot provide a stable holding force by the setting block. Even if the measurement is made, there is an unreasonable problem of obtaining a different measurement result every time.

The present invention has been devised to eliminate the problems as described above, the upper and lower setting blocks of different heights are formed on the bottom of the panel, respectively, by the lower setting block so that one side lower end of the measurement, The upper setting block is to press the top of one side of the workpiece by pressing fixed,

The upper and lower setting blocks not only secure the workpiece, but also make setting of the workpiece relatively simple and precise when setting for horizontal and concentricity of the workpiece.The new setting is possible through the preset upper and lower setting blocks. It is an object of the present invention to provide a workpiece setting jig that can be clamped in a large number of moldings without going through the process to measure the object very quickly and precisely.

Hereinafter, preferred embodiments of the present invention will be described.

1 is an overall perspective view of the setting jig of the present invention, Figure 2 is an overall side view of the setting jig of the present invention, Figure 3 is a cross-sectional overall view of the main portion of the setting jig of the present invention.

While forming the upper block 10 and the lower block 20 of different heights on the top of the bottom body 1 on the panel,

The upper block 10 is equipped with a known toggle clamp hinged to the fixed lever 13 and the rotary arm 14 from the bracket 12 at the tip of the support pillar 11, the rotation of the arm 14 At the end is a fixture 16 coupled to the vertical screw shaft 15 is coupled,

The lower block 20 is inserted into the support 23 having a vertical insertion hole 21 and a long hole 22 on one side, and an insertion hole 21 of the support 23 and protruding pins 24 on one side thereof. Consisting of the formed elevating screw rod (25), the spring 26 is inserted into the insertion hole (21) so that the elevating screw rod 25 of the upper side is supported,

The screw shaft 15 and the elevating screw rod 25 are positioned in the vertical concentricity, and the fixing nut 15 'and the stop nut 25' are attached to the screw shaft 15 and the elevating screw rod 25. It is made by screwing each.

In addition, the cradle 30 is formed on the front end of the elevating screw rod 25 in the 'Y' shape, but the lower end of the cradle 30 to form a spherical rotating part 31, elevating screw rod 25 To be inserted into the groove 27 formed at the tip of the, using a separate fixing cap 32 to combine the cradle 30 and the lifting screw rod 25, the cradle 30 is a spherical rotating part ( 31) to be rotatably coupled in the axial direction from the elevating screw rod (25),

It can also be configured to easily set or measure the measuring object consisting of a cylindrical or circular rod-shaped.

In the figure, reference numeral 40 is a surface plate, and 41 is a measurement object.

When described in more detail by the accompanying drawings the action of the workpiece setting jig to enable continuous measurement of the mass molded article of the present invention as described above.

As shown in the drawing, the setting block of the present invention is for continuously measuring mass-produced workpieces, and does not support only the lower side of the workpiece as in the prior art, and simultaneously supports and fixes the upper and lower sides of the workpiece, thus making more accurate and easier measurement In addition to making it possible, the same article can be clamped continuously using a set jig without a separate setting process, which allows the workpiece to be processed more quickly.

That is, the setting block of the present invention is composed of the upper block 10 and the lower block 20 spaced apart from the bottom surface 1 of the panel mounted on the smooth surface having the same surface as the surface plate 40,

The upper block 10 is mounted with a toggle clamp spaced apart from the bottom body 1 by the support column 11, the toggle clamp is hinged fixed to the bracket 12, as known in the fixed lever 13 And the rotating arm 14, the rotating arm 14 of one side is rotated in the vertical or horizontal direction in accordance with the rotation of the fixed lever (13).

An end of the rotary arm 14 has a separate fastener 16 is coupled to the fastener 16, a separate screw shaft 15 is screwed in the vertical direction, and the screw shaft 15 As the other fixing nut 15 'is screwed, the screw shaft 15 is moved up and down in accordance with the rotation of the screw shaft 15, and is fixed to the screw shaft 15. When the nut 15 'is brought into close contact with the fixture 16, the rotation of the screw shaft 15 is suppressed, so that the screw shaft 15 is lifted or lowered in one direction.

In addition, the lower block 20 includes a support 23 having a vertical insertion hole 21 formed at a center thereof and a long hole 22 formed at one side thereof, and an insertion hole 21 of the support 23. It is made of a lifting screw rod 25 inserted in the vertical direction, the spring 26 is inserted into the insertion hole 21 so that the lifting screw rod 25 of the tip is elastically positioned, Protruding pin 24 formed on one side of the elevating screw rod 25 is located in the long hole 22 of the support 23, so that the elevating screw rod 25 is elevated only in the up and down directions without being rotated. It has a structure.

Looking at the process of setting the measurement object using this setting block,

As shown in FIG. 4A, when the measurement object 41 to be measured is mounted on the lifting screw rod 25 of the spaced lower block 20 while the two setting blocks are spaced apart from the upper side of the surface plate 40. The lifting screw rod 25 is slightly lowered by the load of the measurement object 41 by the elasticity of the spring 26 and is elastically positioned.

In this state, as shown in FIG. 4B, when the fixed lever 13, which is a toggle clamp on the upper block 10, is rotated together with the rotating arm 14, the screw shaft 15 at the end of the rotating arm 14 is rotated. The upper end surface of the measurement object 41 is pressed.

At this time, the protruding length of the screw shaft 41 is roughly set by the operator before setting the workpiece in consideration of the thickness of the object, and thus, the workpiece 41 is fixed downward by the screw shaft 15. When the width is pushed down, the lifting screw rod 25 is lowered by the spring 26 and the workpiece is positioned between the lifting screw rod 25 and the screw shaft 15.

As shown in FIG. 4c, the fixing nut 15 ′ coupled to the screw shaft 15 of the upper block 10 is fixed to the upper surface of the fixture 16 in such a manner that the upper block 10 is rotated. ,

When the stop nut 25 'coupled to the lifting screw rod 25 of the lower block 20 is fixed to the upper surface of the support 23, the lower end of the screw shaft 15 and the lifting screw rod are fixed. A constant distance is always secured at the top of (25).

At this time, if the horizontal and concentricity of the clamped measurement object 41 is not secured before the fixing nut 15 'and the stop nut 25' are fastened, the screw shaft of the upper block 10 is Since the accurate measurement of the article will be made only by lifting (15) to ensure accurate level and concentricity,

In this case, the screw shaft 15 of the upper block 10 is rotated so that one side of the measurement object 41 is lowered or the other end is raised to obtain an accurate horizontal level. When the fixing nut 15 'and the stop nut 25' are rotated and fixed, a uniform gap is formed between the screw shaft 15 and the lifting screw rod 25, so that a new measuring object 41 can be measured. In this case, when the above-mentioned toggle clamp is opened, the workpiece 41 is placed on the lower block 20, and both ends of the workpiece 41 are clamped and fixed by the upper block 10 at the upper and lower sides. It is set to the same position.

Therefore, the measuring object 41 of the same shape can be set more quickly, and uniform and stable measurement results can be obtained.

In addition, as described above, in order to measure the measuring object 41 in a cylindrical or circular tube in addition to the measuring object, as shown in FIG. 5, a separate holder 30 is provided at the tip of the lifting screw rod 25 of the lower block 20. ) Is used to make it easier to mount and support,

The cradle 30 is separated from the elevating screw rod 25 in a 'Y' shape, the lower end of the cradle 30 is formed with a spherical rotary part 31, the tip of the elevating screw rod 25 The spherical recess 27 is formed in the rotary part 31, and the holder 30 can be easily axially rotated from the lifting screw rod 25. The cradle 30 and the elevating screw rod 25 are formed by a fixing cap 32 coupled to a screw formed on the outer circumferential surface of the elevating screw rod 25, and the cradle 30 has a flow in the up and down directions. The rotation in the vertical axis direction can be more efficiently coped with the workpiece on the cylindrical body without any possible rotation.

Therefore, it is possible to set and measure a workpiece mass produced by the setting block of the present invention more quickly and quickly.

The measuring object setting jig which enables continuous measurement of the bulk molded article of the present invention as described above is not only firmly fixed to the measuring object by the upper and lower setting blocks, but also relatively simple and accurate when setting for the horizontality and concentricity of the measuring object. It is possible to set, and the preset upper and lower setting blocks can be clamped and fixed a large number of molded parts continuously without going through a new setting process has the effect of measuring the object very quickly and precisely.

1 is an overall perspective view of the setting jig of the present invention;

Figure 2 is an overall side view of the setting jig of the present invention;

Figure 3 is a cross-sectional overall view of the main portion of the present invention set jig

4A to 4C are diagrams illustrating the setting of the workpiece using the setting jig of the present invention.

4A is a state diagram on which the measurement object is placed on the lower setting block

Figure 4b is a fixed state diagram of the workpiece using the upper setting block

Figure 4c is a clamping state of the workpiece with the gap between the upper and lower setting blocks fixed

5 is another embodiment of the lower setting block of the setting jig of the present invention.

Explanation of symbols on the main parts of the drawings

1: bottom body

10: upper block 11: support pillar

12: bracket 13: fixed lever

14: rotating arm 15: screw shaft

15 ': Fixing nut 16: Fixture

20: lower block 21: insertion hole

22: long hole 23: support

24: protruding pin 25: lifting screw rod

25 ': Stop nut 26: Spring

27: groove

30: holder 31: rotating part

32: fixed cap

40: surface plate 41: measurement object

Claims (2)

While forming the upper block 10 and the lower block 20 of different heights on the top of the bottom body 1 on the panel, The upper block 10 is equipped with a known toggle clamp hinged to the fixed lever 13 and the rotary arm 14 from the bracket 12 at the tip of the support pillar 11, the rotation of the arm 14 At the end is a fixture 16 coupled to the vertical screw shaft 15 is coupled, The lower block 20 is inserted into the support 23 having a vertical insertion hole 21 and a long hole 22 on one side, and an insertion hole 21 of the support 23 and protruding pins 24 on one side thereof. The lifting screw rod 25 is formed, and the spring 26 is inserted into the insertion hole 21 so that the lifting screw rod 25 of the upper side is supported, The screw shaft 15 and the elevating screw rod 25 are positioned in the vertical concentricity, and the fixing nut 15 'and the stop nut 25' are attached to the screw shaft 15 and the elevating screw rod 25. A workpiece setting jig that enables continuous measurement of large molded parts, characterized in that each screw is screwed together. The method of claim 1, At the distal end of the elevating screw rod 25, the cradle 30 is formed to be divided into 'Y', and a spherical rotary part 31 is formed at the lower end of the cradle 30, which is formed at the distal end of the elevating screw rod 25. To be inserted into the recess 27, and using a separate fixing cap 32 to combine the cradle 30 and the elevating screw rod 25, the cradle 30 by the spherical rotating part 31 A workpiece setting jig for enabling continuous measurement of a large quantity of molded articles, characterized in that the coupling is rotatably coupled to the lifting screw rod (25).