KR101746364B1 - Simulation apparatus for testing door latch laod - Google Patents

Abstract

The door latch load measurement simulation apparatus according to the present invention is installed at one side of a base B and includes first and second vertical guiders 10 and 20 having first and second lift blocks 11 and 21, Wow; A third vertical guider 30 installed on the other side of the base B and having a third ascending / descending block 31 to be elevated; A fourth vertical guider 40 installed between the first and second vertical guiders 10 and 20 and the second vertical guider 30 and having a fourth vertically moving block 41 to be elevated; A first door hinge block 50 installed in the first elevating block 11 and having a first hinge fastening portion 51 for supporting either the upper side or the lower side of the side door of the test door D, ; A second door hinge block 60 installed in the second elevating block 21 and having a second hinge fastening portion 61 for supporting the upper side and the lower side of the door D; A latch load measuring unit 70 installed in the third lifting block 31 and having a load measuring sensor 71 provided with a pin block 71a selectively engaged with the latch L of the door D; The door L is hinged to the first and second hinge fastening portions 51 and 61 in a state where the latch L is caught by the pin block 71a, And a door stopper 80 for stopping the door.

Description

[0001] The present invention relates to a door latch load measuring apparatus,

The present invention relates to a door latch load measurement simulation apparatus, and more particularly, to a door latch load measurement simulation apparatus for accurately estimating an installation position of a striker in an outer pillar panel, Latch load measurement simulation apparatus.

The vehicle is provided with a door for boarding the driver and a passenger, and a latch is provided on the door so that a striker installed on an outer pillar panel is put on the vehicle while the vehicle is stopped or running, . A prior art related thereto is disclosed in Patent Registration No. 10-1282446 under the name of an integral plate-type door strike structure for automobiles.

In this case, since the door is connected to the body of the vehicle by the hinge, and the body of the vehicle is formed of a three-dimensional monocoque frame made of various kinds of press water, when a sag due to the door load occurs, the door latch and the striker The relative positional change may occur. In this case, the smooth door opening / closing operation is not carried out, and the wind sound during driving is large, or the smooth door opening / closing operation is not performed.

Therefore, it is very important to set the installation position of the striker so that the door can be accurately closed even if the door is sagged. Accordingly, there is a need for a technique for accurately measuring the deflection position in the door latch portion by the door load Lt; / RTI >

It is an object of the present invention to provide a door latch load measurement simulation apparatus capable of testing the door load in the latch portion.

It is another object of the present invention to provide a door latch load measurement simulation apparatus capable of universally testing door latch loads of doors of various sizes.

In order to achieve the above object, a door latch load measurement simulation apparatus according to the present invention is installed at one side of a base (B), and includes a first elevating block (11) (21) , Two vertical guiders (10) (20); A third vertical guider 30 installed on the other side of the base B and having a third lifting block 31 to be lifted; A fourth vertical guider 40 installed between the first and second vertical guiders 10 and 20 and the second vertical guider 30 and having a fourth lift block 41 to be elevated; A first door hinge block 50 installed at the first elevating block 11 and having a first hinge fastening portion 51 for supporting either the upper side or the lower side of the side door of the test door D, and; A second door hinge block 60 installed at the second elevating block 21 and having a second hinge fastening portion 61 for supporting the upper side and the lower side of the door D, ; A latch load measuring part 70 provided at the third lifting block 31 and having a load measuring sensor 71 provided with a pin block 71a selectively engaged with the latch L of the door D, Wow; And the door L is hinged to the first and second hinge fastening portions 51 and 61 in a state where the latch L is engaged with the pin block 71a. D to stop the rotation of the door; The first vertical guider 10 includes a first screw 12 screwed to the first elevating block 11 and a first handle 13 rotating the first screw 12 in a forward and reverse direction; The second vertical guider 20 includes a second screw 22 screwed to the second lift block 21 and a second handle 23 rotating the second screw 22 in a forward and reverse direction ;

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In the present invention, the first door hinge block 50 includes a first sub-block 52 supported by the first elevating block 11 to transfer the first hinge fastening portion 51 in the Y- , A first subscrew (53) supported on the first subblock (52) so as to be rotatable in the normal and reverse directions in the Y direction and screwed to the first hinge fastening part (51) Includes a first sub-handle (54) for rotating the screw (53) in normal and reverse directions; The second door hinge block 60 includes a second sub-block 62 supported by the second lift block 21 to transfer the second hinge fastening portion 61 in the Y direction, A second subscrew 63 that is rotatably supported in the Y direction by the second sub-block 62 and is screwed to the second hinge fastening part 61, And a second sub handle (64) rotating in the forward and reverse directions.

The third vertical guider 30 includes a third screw 32 screwed to the third lift block 31 and a third handle 33 rotating the third screw 32 forward and reverse ); The latch load measuring unit 70 includes a fine moving block 72 supported by the third lifting block 31; A subscrew (73) rotatably supported in the normal direction to the fine movement block (72) in a vertical direction; A sub handle (74) for rotating the sub screw (73) in normal and reverse directions; A bracket 75 screwed to the sub screw 73; And a bracket blade 76 protruding toward the front side of the bracket 75 for supporting the load measuring sensor 71.

The fourth vertical guider 40 may include a fourth screw 42 screwed to the fourth lift block 41 and a fourth handle 43 for rotating the fourth screw 42 in normal and reverse directions ); The door stop 80 includes a push-pull gauge 81 for measuring a force applied to the door D when the door D stops rotating; A sub-block (82) supported by the fourth lift block (41); A subscrew (83) supported on the sub-block (82) such that it can be translated in the Y direction; A sub handle (84) for rotating the sub screw (83) in normal and reverse directions; And a bracket 85 to which the push-pull gauge 81 is installed, which is screwed to the sub screw 83.

In the present invention, a third vertical guider plane transducer 90 for moving the third vertical guider 30 in the X-Y direction on the base B is further included.

In the present invention, the fourth vertical guider plane transmitting unit 100 for moving the fourth vertical guider 40 in the Y direction on the base B is further included.

According to the present invention, by adopting the first and second vertical guidder and the first and second door hinge blocks, the first and second hinge connection portions can be connected to any test door having a different shape or size, It has versatility applicable to doors.

Further, by adopting the third vertical guider and the latch load measuring unit, the load measuring sensor having the pin block interposed in the door latch can be elevated in a large range or can be elevated and lowered precisely in a fine range, It is possible to create a simulation environment in which a change value of the data with respect to the load value applied to the load measuring sensor can be obtained by setting the position of the load cell to zero and then moving the load cell up and down. The position of the striker can be obtained.

Further, by adopting the fourth vertical guider and the door stops, the bracket provided with the push-pull gauges can be moved in the Z and Y directions, thereby stopping the rotation of any test door having a different shape or size. But also has general versatility.

1 is a perspective view of a door latch load measurement simulation apparatus according to the present invention;
FIG. 2 is a perspective view of the door latch load measurement simulation apparatus of FIG. 1,
3 is a plan view of the door latch load measurement simulation apparatus of FIG. 2,
FIG. 4 is a front view of the door latch load measurement simulation apparatus of FIG. 3;
FIG. 5 is a view for explaining the coupling relationship between the first and second vertical guiders and the first and second door hinge blocks in the door latch load measurement simulation apparatus of FIG. 1;
Fig. 6 is a view showing the latch load measuring unit, the door stop, the third vertical guider plane transmitting unit and the fourth vertical guider plane transmitting unit in Fig. 2,
Fig. 7 is an excerpt of the door stop of Fig. 6; Fig.
8 is a view for explaining a state in which a test door is mounted on the door latch load measurement simulation apparatus of FIG. 1;

Hereinafter, a door latch load measurement simulation apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

The door latch load measurement simulation apparatus of the present invention is to create a simulation environment capable of measuring the force applied to the latch portion of the door D.

FIG. 1 is a perspective view of a door latch load measurement simulation apparatus according to the present invention, FIG. 2 is a perspective view of the door latch load measurement simulation apparatus of FIG. 1 viewed from the opposite side, And FIG. 4 is a front view of the door latch load measurement simulation apparatus of FIG. FIG. 5 is a view for explaining the coupling relationship between the first and second door guards and the first and second door hinge blocks in the door latch load measurement simulation apparatus of FIG. 1, and FIG. 6 is a cross- The measuring section, the door stop, the third vertical guider plane transmitting section, and the fourth vertical guider plane transmitting section, and Fig. 7 is a drawing showing the door stop section of Fig. And FIG. 8 is a view for explaining a state where the test door is mounted on the door latch load measurement simulation apparatus of FIG.

As shown in the figure, the door latch load measurement simulation apparatus according to the present invention is installed at one side of a base (B) for supporting a ground surface, and includes a first elevation block (11) , Two vertical guiders (10) (20); A third vertical guider 30 installed on the other side of the base B and having a third ascending / descending block 31 to be elevated; A fourth vertical guider 40 installed between the first and second vertical guiders 10 and 20 and the second vertical guider 30 and having a fourth vertically moving block 41 to be elevated; A first door hinge block 50 installed in the first elevating block 11 and having a first hinge fastening portion 51 for supporting either the upper side or the lower side of the side door of the test door D, ; A second door hinge block 60 installed in the second elevating block 21 and having a second hinge fastening portion 61 for supporting the other of the upper side and the lower side of the door D; A latch load measuring part 70 provided at the third lifting block 31 and having a load measuring sensor 71 provided with a pin block 71a selectively engaged with the latch L of the door D, ; The door L is hinged to the first and second hinge fastening portions 51 and 61 in a state where the latch L is caught by the pin block 71a, A door stop portion 80 for stopping the door; A third vertical guider plane transducer 90 for moving the third vertical guider 30 in the X-Y direction on the base B; And a fourth vertical guider plane transmitting portion (100) for moving the fourth vertical guider (40) in the Y direction on the base (B).

Here, the longitudinal direction of the base B is defined as the X direction, the one direction is defined as the Y direction, and the vertical direction is defined as the Z direction.

As shown in FIGS. 1 and 5, the first vertical guider 10 and the second vertical guider 20 are installed on one side of the base B and include a first elevating block 11 And a second elevating block 21. At this time, in order to raise and lower the first elevating block 11, the first vertical guider 10 includes a first screw 12 screwed to the first elevating block 11, And a first handle (13). The second vertical guider 20 includes a second screw 22 screwed to the second lift block 21 and a second screw 22 screwed to the second lift block 21 to rotate the second screw 22 in the forward / And a second handle (23).

The first door hinge block 50 installed on the first elevating block 11 is provided with a first door hinge block 50 for holding the test door D on either the upper side or the lower side, (51). The first door hinge block 50 includes a first sub-block 52 supported by the first elevating block 11 and a second sub-block 52 supported by the first elevating block 11 to transfer the first hinge fastening portion 51 in the Y- A first subscrew 53 which is rotatably supported in the Y direction by a first hinge fastening part 51 and is screwed to the first hinge fastening part 51, And includes a sub handle 54. Accordingly, the first sub-handle 54 is rotated to rotate the first sub-screw 53 in the forward and reverse directions, thereby moving the first hinge fastening portion 51 in the Y direction.

The second door hinge block 60 installed on the second elevating block 21 is connected to the other of the upper side and the lower side of the door for testing D in the present embodiment, (61). The second door hinge block 60 includes a second sub-block 62 supported by the second lift block 21 and a second sub-block 62 supported by the second lift block 21 to transfer the second hinge fastening portion 61 in the Y- A second subscrew 63 that is rotatably supported in the Y direction by a second hinge fastening portion 61 and is screwed to the second hinge fastening portion 61, And a sub handle 64. Accordingly, the second sub-handle (64) is rotated to rotate the second sub screw (63) in the forward and reverse directions, thereby moving the second hinge fastening part (61) in the Y direction. Accordingly, the second sub-handle (64) is rotated to rotate the second sub screw (63) in the forward and reverse directions, thereby moving the second hinge fastening part (61) in the Y direction.

The first handle 13 and the second handle 23 are independently rotated by the structure of the first and second vertical guiders 10 and 20 and the first and second door hinge blocks 50 and 60. [ The distance between the first hinge fastening portion 51 and the second hinge fastening portion 61 for supporting the side portion of the test door D is varied by rotating the first and second screws 12 and 22 in the forward and reverse directions, .

When the first sub handle 54 and the second sub handle 64 are rotated to rotate the first and second subscrews 53 and 63 in the forward and reverse directions, the first and second hinge fastening portions 51, (Y-direction) position of the movable member 61 can be changed.

That is, the first and second handles 13 and 23 and the first and second sub-handles 54 and 64 are rotated so that the distance between the first and second hinge fastening portions 51 and 61, So that even a test door having a different shape or size can be connected to the first and second hinge fastening portions 51 and 61 so that it can be applied to any door.

The third vertical guider 30 is installed on the other side of the base B opposite to the first and second vertical guiders 10 and 20 as shown in Figs. 2, 3 and 6, And a third lifting block 31 which is provided at the lower end of the lifting block. At this time, in order to raise and lower the third elevating block 31, the third vertical guider 30 includes a third screw 32 screwed to the third elevating block 31, And a third handle (33).

The latch load measuring portion 70 provided in the third lifting block 31 has a load measuring sensor 71 provided with a pin block 71a selectively engaged with the latch L of the door D. As shown in FIG. 6, the latch load measuring unit 70 includes a micro movable block (not shown) supported by the third lifting block 31 to move the pin block 71a in the vertical direction 72); A subscrew (73) rotatably supported in a normal direction to the fine movement block (72) in a vertical direction; A sub handle (74) for rotating the sub screw (73) in normal and reverse directions; A bracket 75 screwed to the subscrew 73; And a bracket blade 76 protruding forwardly from the bracket 75 and supporting the load sensor 71. Here, the load measuring sensor 71 is preferably a load cell.

When the third screw 33 is rotated by the third vertical guider 30 and the latch load measuring unit 70 to rotate the third screw 32 in the forward and reverse directions, the latch load measuring unit 70 is rotated in the vertical direction (Z direction).

The bracket 75 screwed to the sub screw 73 ascends and descends in a fine range in the vertical direction so that the bracket 75 is screwed into the bracket 76 The supported load measurement sensor 71 is moved finely. Therefore, when the position of the pin block 71a interposed in the door latch is set to zero and then moved up and down, a change value of the data with respect to the load value applied to the load measuring sensor 71 is obtained have.

The load sensor 71 can be raised and lowered in a large range as the third handle 33 is rotated and the load sensor 71 can be moved up and down in a fine range as the sub handle 74 is rotated Accordingly, the micro-elevating load measuring sensor 71 can obtain the change value of the data with respect to the load value.

The fourth vertical guider 40 is installed between the first and second vertical guiders 10 and 20 and the third vertical guider 30 as shown in Figs. 2, 3 and 6, And a fourth lifting block 41 which is provided on the upper side. The fourth vertical guider 40 includes a fourth screw 42 screwed to the fourth vertical block 41 and a third screw 42 screwed to the fourth vertical block 41 to rotate the fourth screw 42 And a fourth handle (43).

The door stopper 80 provided to the fourth elevating block 41 is hinged to the first and second hinge fastening portions 51 and 61 when the door latch L is engaged with the pin block 71a So as to stop the rotation of the door (D). 7, the door stopper 80 is provided with a pushing-out portion 70a for measuring a force applied to the door D when the door latch L is pinched by the pin block 71a and stops rotating, A full gauge 81; A sub-block 82 supported by the fourth lift block 41; A subscrew 83 which is supported on the sub-block 82 so as to be movable in the Y direction; A sub handle (84) for rotating the sub screw (73) in normal and reverse directions; And a bracket 85 to which the push-pull gauge 81 is attached, screwed to the sub-screw 83.

When the fourth screw 42 is rotated in the forward and reverse directions by rotating the fourth handle 43 by the fourth vertical guider 50 and the door stop 80 described above, the door stop 80 is rotated in the vertical direction Z Direction).

When the sub handle 83 is rotated in the forward and reverse directions by rotating the sub handle 84, the position of the bracket 85 screwed to the sub screw 83 can be changed in the Y direction so that the push- Direction.

That is, by rotating the fourth handle 43 and the sub-handle 84, the bracket 85 provided with the push-pull gauge 81 can be moved in the Z and Y directions, Can be applied to other test doors.

The third vertical guider plane translatory 90 moves the third vertical guider 30 in the X-Y direction on the base B as shown in Fig. To this end, the third vertical guider plane transducer 90 includes a pair of first linear guides 91 mounted on the base B in the X direction; A first horizontal screw 92 installed between the first linear guides 91 so as to be rotatable in the normal and reverse directions; A first horizontal handle 93 which rotates the first horizontal screw 92 in the forward and reverse directions and a second horizontal handle 93 which is screwed with the first horizontal screw 92 in a state of being slidably supported on the first linear guide 91, A transfer block 94; A pair of second linear guides 95 installed on the first horizontal transport block 94 in the Y direction; A second horizontal screw 96 installed between the second linear guides 95 so as to be rotatable in the normal and reverse directions; A second horizontal handle 97 for rotating the second horizontal screw 96 in the forward and reverse directions; And a second horizontal transfer block 98 screwed to the second horizontal screw 96 while being slidably supported by the second linear guide 95 and supporting the third vertical guider 30 do.

When the first horizontal handle 92 is rotated in the forward and reverse directions by rotating the first horizontal handle 93 by the structure of the third vertical guider plane transducer 90 described above, the first horizontal conveyance block 94 moves in the X direction The second horizontal conveying block 98 supporting the third vertical guider 30 is reciprocally moved in the Y direction when the second horizontal handle 96 is rotated to rotate the second horizontal screw 96. [ Therefore, the third horizontal handle 93 and the second horizontal handle 97 can be respectively rotated to transfer the third vertical guider 30 provided with the latch load measuring portion 70 in the X and Y directions, It is also applicable to general - purpose doors.

The fourth vertical guider plane transfer unit 100 moves the fourth vertical guider 40 in the Y direction on the base B as shown in Figs. To this end, the fourth vertical guider plane transfer unit 100 includes a pair of fourth linear guides 101 installed in the X direction on the base B; A fourth horizontal screw 102 installed between the fourth linear guides 101 so as to be rotatable in normal and reverse directions; A fourth horizontal handle 103 for rotating the fourth horizontal screw 102 in the normal and reverse directions and a fourth screw coupled to the fourth horizontal screw 102 in a state of being slidably supported on the fourth linear guide 101, And a fourth horizontal transfer block 104 for supporting the fourth vertical guider 40.

When the fourth horizontal handle 102 is rotated in the forward and reverse directions by rotating the fourth horizontal handle 103 by the structure of the fourth vertical guider plane transmission unit 100 described above, The transfer block 104 is reciprocated in the Y direction. Therefore, the fourth horizontal handle 103 can be rotated to move the fourth vertical guider 40 provided with the door stop 80 in the Y direction, and thus, the present invention can be applied generally to doors of various sizes and shapes .

8, the first and second hinge fastening portions 51 and 61 of the one- and two-door hinge blocks 50 and 60 are engaged with the door toward the vehicle body by the door latch load measurement simulation apparatus, When the door D is rotated in the closing direction in this state, the pin block 71a of the load measuring sensor is caught in the latch L. In this state, The push-pull gauge 81 of the door stopper 80 prevents the door D from further turning in a state where the latch L is interposed in the pin block 71a, Environment.

In this way, the door latch load measurement simulation apparatus of the present invention employs the first and second vertical guiders 10 and 20 and the first and second door hinge blocks 50 and 60, The connecting portions 51 and 61 can be connected to any test door having a different shape or size. Accordingly, the present invention has general versatility applicable to any door.

The third vertical guider 30 and the latch load measuring unit 70 are used to raise or lower the load measuring sensor 71 having the pin block 71a interposed in the door latch L in a large range, The position of the pin block 71a sandwiched by the door latch is set to zero, and the position of the pin block 71a is moved up and down to obtain a change value of the data on the load value applied to the load measuring sensor 71 A simulation environment can be created. The position of the striker provided on the outer pillar panel can be obtained based on the data value related to such a load.

By adopting the fourth vertical guider 50 and the door stop 80, the bracket 85 provided with the push-pull gauge 81 can be moved in the Z direction and the Y direction, It is possible to stop the rotation of any other test door and to have versatility applicable to any door.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10 ... first vertical guide 11 ... first lift block
12 ... first screw 13 ... first handle
20 ... second vertical guider 21 ... second lift block
22 ... second screw 23 ... second handle
30 ... third vertical guider 31 ... third vertical lift block
32 ... third screw 33 ... third handle
40 ... fourth vertical guider 41 ... fourth lift block
42 ... fourth screw 43 ... fourth handle
50 ... first door hinge block 51 ... first hinge fastening part
52 ... first sub-block 53 ... first sub-screw
54 ... first sub handle 60 ... second door hinge block
61 ... second hinge fastening part 62 ... second sub-block
63 ... second sub screw 64 ... second sub handle
70 ... Latch load measuring part 71 ... Load measuring sensor
71a ... pin block 72 ... fine movement block
73 ... Subscrew 74 ... Subhandle
75 ... Bracket 76 ... Bracket blade
80 ... Door stop 81 ... Push-pull gauge
82 ... sub-block 83 ... sub-screw
84 ... Sub handle 85 ... Bracket
90 ... third vertical guider plane transmitting portion 91 ... first linear guide
92 ... first horizontal screw 93 ... first horizontal handle
94 ... first horizontal feed block 95 ... second linear guide
96 ... second horizontal screw 97 ... second horizontal handle
98 ... second horizontal feed block
100 ... Fourth vertical guider plane transmission part 101 ... Fourth linear guide
102 ... fourth horizontal screw 103 ... fourth horizontal handle
104 ... fourth horizontal feed block

Claims (7)

First and second vertical guiders 10 and 20 installed at one side of the base B and having first and second elevating blocks 11 and 21 to be elevated;
A third vertical guider 30 installed on the other side of the base B and having a third lifting block 31 to be lifted;
A fourth vertical guider 40 installed between the first and second vertical guiders 10 and 20 and the second vertical guider 30 and having a fourth lift block 41 to be elevated;
A first door hinge block 50 installed at the first elevating block 11 and having a first hinge fastening portion 51 for supporting either the upper side or the lower side of the side door of the test door D, ;
A second door hinge block 60 installed on the second lift block 21 and having a second hinge fastening portion 61 for supporting the upper side and the lower side of the door D;
A latch load measuring part 70 provided at the third lifting block 31 and having a load measuring sensor 71 provided with a pin block 71a selectively engaged with the latch L of the door D, ; And
And the door L is hinged to the first and second hinge fastening portions 51 and 61 in a state where the latch L is engaged with the pin block 71a. D to stop the rotation of the door;
The first vertical guider 10 includes a first screw 12 screwed to the first elevating block 11 and a first handle 13 rotating the first screw 12 in a forward and reverse direction;
The second vertical guider 20 includes a second screw 22 screwed to the second lift block 21 and a second handle 23 rotating the second screw 22 in a forward and reverse direction Wherein the door latch load measurement simulation device is characterized by: delete The method according to claim 1,
The first door hinge block 50 includes a first sub-block 52 supported by the first elevating block 11 to transfer the first hinge fastening portion 51 in the Y direction, A first subscrew 53 which is rotatably supported by the first subblock 52 in the Y direction in a forward and reverse direction and is screwed to the first hinge fastening part 51, Includes a first sub-handle (54) rotating in normal and reverse direction;
The second door hinge block 60 includes a second sub-block 62 supported by the second lift block 21 to transfer the second hinge fastening portion 61 in the Y direction, A second subscrew 63 that is rotatably supported in the Y direction by the second sub-block 62 and is screwed to the second hinge fastening part 61, And a second sub-handle (64) rotating in the forward and reverse directions. The method according to claim 1,
The third vertical guider 30 includes a third screw 32 screwed to the third lift block 31 and a third handle 33 rotating the third screw 32 forward and reverse;
The latch load measuring unit 70 includes a fine moving block 72 supported by the third lifting block 31; A subscrew (73) rotatably supported in the normal direction to the fine movement block (72) in a vertical direction; A sub handle (74) for rotating the sub screw (73) in normal and reverse directions; A bracket 75 screwed to the sub screw 73; And a bracket blade (76) protruding forward of the bracket (75) and supporting the load measuring sensor (71). The method according to claim 1,
The fourth vertical guider 40 includes a fourth screw 42 screwed to the fourth lift block 41 and a fourth handle 43 rotating the fourth screw 42 in a forward and reverse direction;
The door stop 80 includes a push-pull gauge 81 for measuring a force applied to the door D when the door D stops rotating; A sub-block (82) supported by the fourth lift block (41); A subscrew (83) supported on the sub-block (82) such that it can be translated in the Y direction; A sub handle (84) for rotating the sub screw (83) in normal and reverse directions; And a bracket (85) which is screwed to the sub screw (83) and on which the push-pull gauge (81) is installed. The method according to claim 1,
Further comprising a third vertical guider plane transducer (90) for moving the third vertical guider (30) in the X and Y directions on the base (B). The method according to claim 1,
Further comprising a fourth vertical guider plane transducer (100) for moving the fourth vertical guider (40) in the Y direction on the base (B).

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