KR20010005251A - Variable setting jig for products inspection - Google Patents

Abstract

PURPOSE: A variable setting jig for inspection of products is provided to use one setting jig to all kinds of objects without regard to a size and a shape of the objects by allowing an operator to vary a dimension and an installation position of a setting jig. CONSTITUTION: A variable setting jig for inspection of products includes a fixed plate(14) mounted on a reference surface table(12), a first guide beam(22) mounted on both sides of the fixed plate and forming a first guide rail part in a longitudinal direction, a first movable plate(16) coupled to the first guide rail to slide on the upper surface of the fixed plate along the first guide beam, a second guide beam(24) mounted on both sides at right angles to the first guide beam on the first movable plate and forming a second guide rail part in a longitudinal direction, a second movable plate(18) coupled to the second guide rail to slide on the upper surface of the first movable plate along the second guide beam, and a vertical supporting part(20) mounted on the second movable plate and having height adjustable means varying a height according to objects to be measured.

Description

Variable setting jig for product inspection {VARIABLE SETTING JIG FOR PRODUCTS INSPECTION}

The present invention relates to a jig for setting an object to be fixed in order to inspect it after the calibration of a vehicle or a product, and more particularly, the position of the jig can be changed according to the position of the tooling hole when the position of the tooling hole provided in the object is changed. It relates to a variable setting jig.

In general, a jig refers to a device that fixes an object and controls and guides a cutting tool.

Among these, the setting jig for product inspection is firmly supported so that the product does not move at all during the measurement when it is necessary to measure whether the specification (SPEC.) On the drawing and the product state are consistent after the test processing or pilot production of the product. It plays a role and is manufactured with high precision with the same specification as SPEC.

The conventional setting jig for product inspection is manufactured by differently setting the dimensions of the setting jig according to the specification of the object to be measured, and the point installed on the reference table is easy to be inserted into the tooling hole of the object. The operator arbitrarily set the point.

In the case of using a single-piece setting jig as described above, if the vehicle model and the product to measure is different, the setting jig also had to be manufactured and used again according to the size and shape of the object, so that it is necessary to manufacture a separate jig. Waste of time and manufacturing cost was severe, and jig setting was not easy, and there were many problems such as increased measurement time.

Accordingly, the present invention is to solve the above problems, an object of the present invention is to set the dimensions of the setting jig (DIMENSION) and to be used for all objects as one setting jig irrespective of the size and shape of the object to be measured and An object of the present invention is to provide a variable setting jig that allows the operator to change the installation position.

1 is an exploded perspective view of a variable setting jig according to the present invention;

2 is an assembled perspective view of a variable setting jig according to the present invention;

3 is a state diagram in which the variable setting jig according to the present invention is applied.

4 is a cross-sectional view of a portion A-A of FIG.

5 is a cross-sectional view of the portion B-B of FIG. 2.

Figure 6 is an exploded view of the vertical support of the variable setting jig according to the invention

7 is an assembly view of the vertical support of the variable setting jig according to the present invention;

〈Description of the symbols for the main parts of the drawings?

12: reference plate 14: fixed plate

16: first movable plate 18: second movable plate

20: vertical support portion 22: the first guide beam

24: second guide beam 26: first guide rail portion

28: second guide rail portion 30: protrusion

32: fixed stopper 34: fixed round bar

36: moving ring 38: fixed pin

In order to realize the above object, the present invention is a fixed plate mounted on the reference surface; First guide beams mounted on both sides of the fixing plate to form first guide rails in a length direction thereof; A first movable plate coupled to the first guide rail to slide the upper surface of the fixed plate along the first guide beam; A second guide beam mounted on both sides of the first movable plate perpendicular to the first guide beam to form a second guide rail portion in a longitudinal direction thereof; A second movable plate coupled to the second guide rail so as to slide an upper surface of the first movable plate along the second guide beam; It provides a variable setting jig for inspection of the product including a vertical support portion mounted on the second movable plate and having a height adjusting means whose height is variable according to the object to be measured.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention that can specifically realize the above object will be described.

1 to 7 show a preferred embodiment according to the present invention, reference numeral 12 denotes a reference table.

The reference table 12 is a plate that is precisely processed to serve as a reference for horizontal dimensions and vertical dimensions when inspecting a specification of a vehicle or a product (SPEC.).

At this time, the reference plate 12 is processed to be formed in a lattice structure as a whole by slotting the upper surface on which the jig is mounted at a predetermined interval to facilitate the installation of the jig for fixing the product.

The setting jig mounted on the reference surface 12 is fixed plate 14 mounted and fixed to the reference surface 12, and first and second movables which are set by moving in the X-axis and Y-axis directions, respectively, on the fixed plate. It consists of the plates 16 and 18, the vertical support part 20 which moves to a Z-axis direction, and the 1st, 2nd guide beams 22 and 24 which guide the movement of a 1st, 2nd movable plate.

The fixing plate 14 is processed to have the same horizontal precision and vertical precision as the reference plate, and its lower surface is mounted to the reference plate 12 by fastening means such as bolts.

At this time, in order to more firmly mount the fixing plate 14, a cross-shaped protrusion 30 is formed on the bottom face of the reference plate and the center of the fixing plate and the lattice center formed on the reference plate of the lattice structure correspond to each other. It is preferable to be mounted while being fitted with each other in the state.

The first guide beam 22 is mounted by fastening means such as bolts on both sides of the fixing plate 14 to be mounted and fixed as described above.

The first guide beam 22 is a member for guiding the movement of the first movable plate 16 sliding on the fixed plate 14, and is formed to have the same length as the length of both sides of the fixed plate 14, The upper portion of the first guide beam 22 is bent in an L-shape to form a first guide rail portion 26 together with the fixing plate 14.

The first guide rail portion 26 serves as a path for the first movable plate 16 to move in the X-axis direction.

The first movable plate 16 is formed of the same size as the sliding surface on the fixed plate and the same dimension as the height of the first guide rail so as to move the upper surface of the fixed plate along the first guide rail portion in the X-axis direction, After moving by a predetermined distance along the first guide rail portion, the position is preferably fixed by a fixing stopper 32 such as a set screw penetrating the first guide beam.

The second guide beam 24 is mounted on both sides of the first movable plate 16 orthogonal to the first guide rail portion 26 by fastening means such as bolts.

The second guide beam 24 is a member for guiding the movement of the second movable plate 18 sliding on the first movable plate 16. The second guide beam 24 has the same length as that of both sides of the first movable plate 16. The upper portion of the second guide beam 24 is bent in a '-shape' to form a second guide rail portion 28 together with the first movable plate 16.

The second guide rail portion 28 serves as a path for the second movable plate 18 to move in the Y-axis direction.

The second movable plate 18 is the same size and the second guide as the sliding surface on the first movable plate to move the upper surface of the first movable plate 16 along the second guide rail portion 28 in the Y-axis direction. It is preferably formed of the same dimension as the height of the rail portion, and after being moved by a predetermined distance along the second guide rail portion, the position is fixed by the fixing stopper 32 penetrating the second guide beam.

In the center of the second movable plate 18, a vertical support 20 is mounted below the second movable plate 18 by a fastening means such as a bolt upward.

As illustrated in FIG. 4, the vertical support part 20 is provided with height adjusting means whose height varies depending on the object to be measured.

The height adjusting means is mounted to the second movable plate 18 and the inner circumference of the fixed ring rod 34 is formed with a female threaded portion and the male screw portion coupled to the female threaded portion inside the fixed ring rod to move in the Z-axis direction by rotation It is composed of a mobile ring bar 36 formed on the outer circumference.

The through-hole is formed in the fixed ring 34, the moving ring 36 is preferably moved to a predetermined position through the through-hole through the fixing stopper 32 to fix the moving ring.

At the end of the mobile ring 36 is fixed pin 38 is inserted into the tooling hole formed in the object to be measured.

In the setting jig according to the present invention configured as described above, in order to reduce the weight of the entire jig, it is preferable to form a plurality of through holes in the fixed plate 14 and the first and second movable plates 16 and 18.

In addition, in order to facilitate the positioning of the first and second processing plates 16 and 18 moving in the X and Y axes, it is preferable to form a ruler on the upper surface of the first and second guide beams.

The setting process of the variable setting jig according to the present invention made as described above is as follows.

The first guide beams 22 are mounted on both sides of the fixing plate 14, the second guide beams 24 are mounted on both sides of the first movable plate 16, and the center of the second movable plate 18 is mounted. The vertical support 20 is mounted.

When the mounting is completed, the first movable plate 16 on which the second guide beam is mounted is installed on the upper surface of the fixing plate 14, and the vertical support 20 is mounted on the upper surface of the first movable plate 16. The second movable plate may be mounted.

As a setting method of the variable setting jig assembled as described above, the X-axis and Y-axis dimensions required for the setting jig move a setting jig along the lattice column on the reference plate for a predetermined distance or more, and then the lower part of the fixed plate. Set the cross-shaped protrusion of to the grid center of the reference table and set the remaining distance by moving the first and second movable plates with reference to the rulers on the first and second guide beams and then fixing them with a fixed stopper. It can be set by rotating by a predetermined distance based on the pitch number of the thread formed on the movable ring 36 of the vertical support.

Looking at the positioning method of the first, second movable plate in more detail as follows.

If the distance between the gratings formed on the reference plate is 250mm and the displacement of the X-axis is 2650mm, move the setting jig 10 spaces along the grid of the reference plate, and then move the first movable plate by the displacement by 150mm. You can set

If the dimensions of the setting jig can be changed by itself as described above, even if the fixed object is large or small, it can be used regardless of this.

The variable setting jig according to the present invention made as described above is free to change the position of the setting jig according to the position of the tooling hole formed in the fixed object can be used for multiple objects with only one setting jig, and the setting operation is easy The product inspection period can be shortened and the operator can set the position according to the reference table and the ruler without setting the position of the setting jig, which can improve the accuracy when measuring the product.

Claims (5)

A fixed plate mounted on a reference surface; First guide beams mounted on both sides of the fixing plate to form first guide rails in a length direction thereof; A first movable plate coupled to the first guide rail to slide the upper surface of the fixed plate along the first guide beam; A second guide beam mounted on both sides of the first movable plate perpendicular to the first guide beam to form a second guide rail portion in a longitudinal direction thereof; A second movable plate coupled to the second guide rail so as to slide an upper surface of the first movable plate along the second guide beam; The variable setting jig for product inspection comprising a vertical support portion mounted on the second movable plate and having a height adjusting means whose height is varied according to the object to be measured. The method according to claim 1, The fixing plate and the reference plate is formed on the upper surface of the reference plate to form a lattice groove, and the bottom of the fixing plate to form a cross-shaped protrusion so as to fit to the center of the groove on the lattice to combine the product inspection Variable setting jig. The method according to claim 1, The first and second guide beams, the variable setting jig for product inspection, characterized in that it comprises a ruler as a reference for the position adjustment of the first, second movable plate. The method according to claim 1, The height adjusting means The product is characterized in that the product is composed of a fixed round bar mounted on the second movable plate and the inner circumference of which is formed with a female screw part and a movable round bar formed on the outer circumference of the male screw part which is combined with the female screw part inside the fixed ring bar to move up and down by rotation. Variable setting jig for inspection. The method according to claim 1, The first and second movable plate and the vertical support is a variable setting jig for product inspection, characterized in that the position is fixed by a fixed stopper after moving to the measuring position.