KR101928013B1 - A measuring equipment of rolling roll chalk - Google Patents

Abstract

Disclosed is an apparatus to measure a rolling roll chalk capable of quickly measuring a corrosion level of the rolling roll chalk. According to the present invention, the apparatus to measure a rolling roll chalk comprises: a measurement apparatus body part having a hollow formed therein; a body attaching/detaching coupling part coupled to the measurement apparatus body part and detachably coupling the measurement apparatus body part to the rolling roll chalk; a pair of gauge parts supported to the measurement apparatus body part, and moving in a direction approached to and separated from each other to come in contact with the bottom surface of a liner insertion groove formed in the rolling roll chalk; a horizontal gauge movement driving unit supported to the measurement apparatus body part, connected to the gauge parts, and moving the gauge part in the direction approached to and separated from each other; a reference distance measurement rod disposed in the measurement apparatus body part having a magnetic scale formed on an outer circumferential surface; a magnetic sensor connected to the reference distance measurement rod to be able to slide, connected to the gauge parts, and electrically connected to a display device; and a vertical gauge movement driving unit disposed in the horizontal gauge movement driving unit, and connected to and vertically moving the gauge part.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a measuring device for rolling roll chocks and, more particularly, to a measuring device for rolling roll chocks capable of measuring the abrasion state of the rolling roll chocks connected to the rolling rolls used for rolling the steel sheets .

Generally, the rolling process is divided into hot rolling and cold rolling. The hot rolling is a process of manufacturing a plate material by primary rolling a hot slab discharged through a heating furnace, and cold rolling is performed by rolling a hot plate rolled plate at room temperature to have a width and a thickness required by a customer .

In the rolling line, a plurality of rolling rolls are installed in the transverse direction in the traveling direction of the steel sheet, and both ends of the rolling roll 1 are supported by the choke 2, as shown in Figs. The choke 2 is provided with a liner insertion groove 2a into which a liner 3 used for the purpose of reducing wear of the choke 2 is inserted.

The liner 3 is mainly made of carbon steel for machine structure and the liner 3 is formed with a through hole 3a through which the bolt 4 is inserted to connect with the choke 2. [ In the rolling process, cooling water is used, and the cooling water used in the rolling process flows into the liner insertion groove 2a to generate corrosion B on the bottom surface of the liner insertion groove 2a.

In order to compensate for the corrosion B generated in the choke 2, a repair process for repairing the worn portion of the choke 2 is periodically performed.

However, the choke (2) is very heavy from about 14 to 26 tons in weight, and the size is also large from 1400 mm to 1700 mm. The repair work is within 0.1 to 0.2 mm of allowable tolerance, so it is very difficult for the operator to proceed manually .

In addition, the rolling line must be stopped for the repair of the choke 2, and the stopping of the rolling line for a long time causes an adverse effect on the productivity, so that the repair time must be minimized.

In order to shorten the repairing time of the worn chock 2, it is necessary to measure the degree of corrosion of the chock 2 in a quick manner. The measurement apparatus of the rolling roll chock according to the prior art measures the degree of corrosion of the chock There was a time consuming problem.

Korean Patent Publication No. 10-2002-0051473 (Jun. 29, 2002)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a measuring device for rolling roll chocks capable of rapidly measuring the degree of corrosion of rolled roll chocks.

According to an aspect of the present invention, there is provided a measurement apparatus comprising: A body attachment / detachment coupling unit coupled to the body of the measurement apparatus and detachably coupling the body of the measurement apparatus to the roll roll chock; A pair of gauges supported on the body of the measuring device and moved in a mutually approaching and spacing direction to contact the bottom surface of the liner insertion groove formed in the rolling roll chock; A gauge lateral movement driving unit supported on the body of the measuring apparatus and connected to the gauge unit and moving the gauge unit in a direction in which the gauge unit approaches and separates from each other; A distance measuring reference rod disposed inside the measuring apparatus body and having a magnetic scale formed on an outer circumference thereof; A magnetic sensor connected to the distance measuring slider so as to be slidable and connected to the gauge unit and electrically connected to the display device; And a gage up / down movement driving unit provided in the gage lateral movement driving unit and connected to the gage unit to move the gage unit in the vertical direction.

The lower region of the measuring device body may be opened to communicate with the hollow interior of the measuring device body.

Wherein the gauge section includes: a gauge body contacting the bottom surface of the liner insertion groove; And a gage mounting portion to which the gage main body is mounted and connected to the gage up-and-down movement driving portion.

The gauge sideways movement driving unit includes: a left-and-right directional rotation rod that is rotatably supported on the body of the measurement apparatus and has a first lateral-direction movement thread and a second lateral-direction movement thread on an outer peripheral surface; A left and right directional operation handle coupled to the gauge left and right direction moving bar for rotating the gauge left and right direction moving bar; And a pair of left and right moving parts which are respectively engaged with the first left and right direction moving thread and the second left and right direction moving thread and which are respectively connected to the gauge parts.

The first lateral direction moving thread and the second lateral direction moving thread may be arranged in opposite directions.

Wherein the gauge vertical movement driving unit includes: a vertically movable rotary bar supported rotatably by the lateral movement unit and provided with a vertical movement thread on an outer peripheral surface thereof; A first bevel gear coupled to the vertically movable rotary bar; A second bevel gear rotatably supported in the left and right direction moving portion and engaged with the first bevel gear; A vertically movable operation handle coupled to the second bevel gear for rotating the second bevel gear; A vertical moving block coupled to the vertical moving thread and coupled to the gauge mounting portion; And a vertically moving guide portion connected to the magnetic sensor for slidingly connecting the gauge mounting portion.

The gauge vertical movement driving unit may further include a vertical movement restraining unit for restricting the rotation of the vertical movement rotary bar and restricting the upward and downward movement of the gauge unit.

The up-and-down moving restricting portion may include a pressing bolt that penetrates a through-hole provided in a lower wall of the left-right direction moving portion and is engaged with a lower end portion of the up-and-down moving rotary bar, and presses the lower wall of the right and left direction moving portion.

Wherein the body attachment / detachment coupling unit comprises: a coupling body disposed at an upper end of the body of the measurement apparatus, hollow inside and having a through hole; A detachable moving block disposed inside the coupling body and slidably connected to an inner wall of the coupling body; A pressure bar coupled to said removable moving block and passing through said through hole, said pressure bar being connected to said rolling roll chocks to press said rolling roll chocks against said measuring device body; And an elastic body having one end connected to the attaching / detaching moving block and the other end connected to an inner wall of the coupling body to provide a pressing force to the pressing bar.

Embodiments of the present invention include a gauge lateral movement driving unit for moving the pair of gauge units in mutually approaching and spaced directions and a gauge vertical movement driving unit for vertically moving the gauge unit so that the degree of corrosion of the rolling roll chocks There is an advantage of being able to measure quickly.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a view showing a rolling roll choke used in a rolling roll; FIG.
Fig. 2 is a cross-sectional view taken along line AA of Fig. 1. Fig.
3 is a schematic diagram showing an apparatus for measuring rolled roll chocks according to an embodiment of the present invention.
Fig. 4 is a left side view of Fig. 3; Fig.
5 is a plan view of Fig.
FIG. 6 is an exploded perspective view of FIG. 3; FIG.
Fig. 7 is a view showing the body detachment engaging portion of Fig. 3. Fig.
FIG. 8 is a diagram showing a gauge vertical movement driving unit of FIG. 3; FIG.
Fig. 9 is an operational state view of the measuring apparatus for rolling roll chocks of Fig. 3; Fig.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in order to avoid unnecessary obscuration of the present invention.

3 is a left side view of Fig. 3, Fig. 5 is a plan view of Fig. 3, Fig. 6 is a cross-sectional view of the incision of Fig. 3 Fig. 8 is a view showing the gauge vertical movement driving unit of Fig. 3, Fig. 9 is a view showing the operation of the measuring apparatus of the rolling roll chock of Fig. 3 State diagram.

3 to 9, the rolling roll chock measuring apparatus according to the present embodiment includes a measuring apparatus body 110, a measuring apparatus body 110 coupled to the measuring apparatus body 110, Which is supported on the body of the measuring device 110 and moved in a direction approaching and separating from each other and formed in the rolling roll chock 2, A pair of gage parts 130 that are in contact with the bottom surface of the liner insertion groove 2a and a gage part 130 that is supported by the measuring device body part 110 and is connected to the gage part 130, A distance measuring reference rod 150 disposed inside the measuring apparatus body 110 and having a magnetic scale formed on the outer circumference thereof and a distance measuring reference rod 150 And is connected to the gage section 130 and is connected to a display device (not shown) A gauge vertical movement driving unit 140 connected to the gauge unit 130 for moving the gauge unit 130 in the vertical direction, a magnetic sensor 160 electrically connected to the gauge horizontal movement driving unit 140, (Not shown).

The measuring device body 110 includes a main body 111 formed in a hollow state and a magnetic body 112 attached to a front surface of the main body 111.

3 to 6, the main body 111 is provided with a long bar shape. The inner portion of the main body 111 is hollow and the lower portion of the main body 111 is opened to communicate with the hollow interior of the main body 111.

The magnetic body 112 is attached to the front surface of the main body 111, as shown in detail in Fig. Such a magnetic body 112 allows the measuring device body 110 to be easily attached to the rolling roll chock 2 made of an iron material by magnetic force.

On the other hand, the body attachment / detachment coupling portion 120 is coupled to the measurement device body 110. The body attachment / detachment coupling part 120 detachably couples the measuring device body part 110 to the rolled roll chock 2.

7, the body attachment / detachment coupling unit 120 is disposed at the upper end of the body 110 of the measurement apparatus and has a hollow body 121 having a through-hole 121a formed therein A moving block 122 for attaching and detaching arranged inside the body 121 of the coupling part and slidably connected to an inner wall of the body 121 for coupling; A pressing bar 123 passing through the hole 121a and connected to the rolling roll chock 2 to press the rolling roll chock 2 to the measuring device body 110 and a pressing bar 123 having one end connected to the moving block 122 for attaching / And an elastic body 124 connected at the other end to the inner wall of the coupling body 121 to provide a pressing force to the pressing bar 123.

The coupling body 121 is fixed to the upper end of the measuring device body 110. The inside of the coupling unit body 121 is hollow and the through hole 121a is formed in the front side wall of the coupling unit body 121.

The removable moving block 122 is disposed inside the engaging portion body 121. The removable moving block 122 is slidably connected to the inner wall of the coupling body 121.

The pressure bar 123 is coupled to the removable moving block 122. The pressing bar 123 passes through the through hole 121a and is exposed to the outside. In this embodiment, the pressure bar 123 is formed to be bent at an angle of 90 degrees with the distal end region, as shown in detail in Fig. 7, and is connected to the front side wall of the rolling roll chock 2. [ The pressing bar 123 formed by bending the end region in this manner presses the rolling roll choke 2 to the measuring device body 110 so that the measuring device body 110 is firmly coupled to the rolling roll choke 2 .

7, one end is connected to the moving block 122 for attaching and detaching, and the other end is connected to the inner wall of the coupling body 121, so that the pressing bar 123 is provided with the rolling roll 122, Thereby providing a pressing force for pressing the choke 2 to the measuring apparatus body portion 110. [

That is, the elastic body 124 elastically presses the attaching / detaching moving block 122 in the direction away from the rolling roll chock 2, so that the pressing bar 123 connected to the attaching / It is possible to press the choke 2 to the measuring device body 110.

As described above, the rolling roll chock measuring apparatus according to the present embodiment includes the body attachment / detachment coupling portion 120 for firmly fixing the measuring apparatus body portion 110 to the rolling roll chock 2, It is possible to prevent the apparatus body 110 from shaking and increase the measurement accuracy.

On the other hand, a pair of gage parts 130 are supported on the measuring device body part 110. The pair of gages 130 are moved in a mutually approaching and spacing direction and are brought into contact with the bottom surface of the liner insertion groove 2a formed in the rolling roll chock 2. [ More specifically, after the rolling roll chocks 2 are disposed between the pair of gage portions 130, the gage lateral movement driving portion 140 moves the pair of gage portions 130 in a direction in which the pair of gage portions 130 approach each other, The goge portion 130 is brought into contact with the bottom surface of the liner insertion groove 2a of the rolled roll chock 2. [

Since the liner insertion grooves 2a are provided on the four sides of the rolling roll chock 2 as shown in Figs. 1 and 2, the pair of gage portions 130 are formed on the bottom of the liner insertion groove 2a, The surfaces are the bottom surfaces of the liner insertion grooves 2a, which are positioned in mutually opposite directions with respect to the center of the rolled roll chocks 2.

The gauge unit 130 includes a gauge body 131 that is in contact with the bottom surface of the liner insertion groove 2a formed in the rolled roll chock 2, And a gage mounting portion 136 connected to the driving portion 170.

3 to 6, the gauge body 131 includes a probe 132 which is in contact with the bottom surface of the liner insertion groove 2a, a dial gauge (not shown) in which the probe 132 is movably coupled, (133).

The probe 132 is slidably moved on the distal end of the probe 132 so that the probe 132 can be smoothly slidably moved with respect to the bottom surface of the liner insertion groove 2a when the gage unit 130 is vertically moved by the gauge vertical movement driving unit 170. [ And a rotating roller (not shown).

The dial gauge 133 includes a spring (not shown) connected to the probe 132 and pressing the probe 132 to the bottom surface of the liner inserting groove 2a and a lever gear And a pinion gear (not shown) coupled to a pinion gear (not shown) coupled to a rotation center shaft (not shown) of a pinion gear 134).

As shown in detail in FIG. 6, the gauge body 131 is provided with a display graduation plate (not shown) which allows easy identification of the amount of rotation of the display guide 134 with the naked eye. The gauge body 131 is provided with a zero point adjuster (not shown) that can move the zero point of the display dial (not shown) to the position of the display pointer 134 by relatively rotating the display scale (not shown) Not shown).

When the gauge unit 130 is moved up and down by the gauge vertical movement driving unit 170, the probe 132 moves along the vertical direction of the gauge unit 130 in accordance with the degree of corrosion of the bottom surface of the liner insertion groove 2a, And the movement amount of the probe 132 is indicated by the rotation of the display instruction 134. [

Meanwhile, the gauge lateral movement driving unit 140 is supported by the measuring device body 110 and connected to the gauge unit 130. The gauge left and right movement driving unit 140 moves the gauge units 130 in a direction in which the gauge unit 130 approaches and separates from each other.

3 to 6, the gage lateral movement driving unit 140 is rotatably supported on the measuring apparatus body 110 and has a first lateral movement thread 141a Left and right direction moving operation rods 141 that are coupled to the gauge left and right direction moving rods 141 and that rotate the gauge left and right direction moving rods 141 And a pair of left and right moving parts 143 coupled to the first left and right direction moving thread 141a and the second left and right direction moving thread 141b and to which the gage 130 is connected.

The left-to-right moving rotary bar 141 is rotatably supported by the measuring device body 110. On the outer circumferential surface of the left and right direction moving swivel rod 141, a first left-right direction moving thread 141a and a second right-left direction moving thread 141b are provided and disposed adjacent to each other. In this embodiment, the screw directions of the first lateral-direction moving thread 141a and the second lateral-direction moving thread 141b are opposite to each other.

The pair of left and right direction moving parts 143 are engaged with the first left and right direction moving thread 141a and the second left and right direction moving thread 141b, respectively. As described above, since the screw directions of the first lateral-direction moving thread 141a and the second lateral-direction moving thread 141b are opposite to each other, the pair of left and right lateral moving rods 141a, The portions 143 are moved in mutually approaching directions and mutually spaced directions.

The gauge unit 130 is connected to the left and right movement unit 143 so that the gauge units 130 are moved toward and away from each other in accordance with the rotation of the left and right direction rotation bar 141. [

As described above, the rolling roll choke measuring apparatus according to the present embodiment includes the gauge lateral movement driving unit 140 for moving the pair of gauge units 130 in a mutually approaching direction and a mutually spaced direction, There is an advantage that each of the pair of gage portions 130 can be brought into contact with the bottom surface of the liner insertion groove 2a of the rolling roll chock 2 only by the operation of the movable operation handle 142. [

6, the left and right direction moving unit 143 includes left and right direction moving blocks 141a and 141b which are engaged with the first left and right direction moving thread 141a and the second left and right direction moving threads 141b, respectively And a support body 145 coupled to the left and right direction movement block 144 and provided with a gauge vertical movement driving unit 170 and supporting the gauge vertical movement driving unit 170.

The support body 145 is coupled to the left and right movement block 144 and is disposed under the left and right movement block 144, as shown in detail in FIG. In this embodiment, the support body 145 is internally hollow so that a vertically movable rotary bar 171, etc. of the gauge vertical movement driver 170, which will be described later, can be disposed therein.

The distance measuring reference rod 150 is disposed inside the main body 111 of the measuring apparatus body 110. A magnetic scale is formed on the outer circumferential surface of the distance measuring reference rod 150.

The magnetic sensing sensor 160 is slidably connected to the distance measuring reference rod 150, as shown in detail in FIG. The magnetic sensors 160 are provided in pairs and are connected to the pair of gages 130 and are moved together with the movement of the gage 130. In this embodiment, the magnetic sensor 160 is electrically connected to a display device (not shown) in a wireless or wired manner. The display device (not shown) includes an operation processor (not shown) that receives information sensed by the magnetic sensor 160 and performs an operation, and a display unit (not shown) that displays results calculated by an operation processor Hour).

When each of the pair of gage portions 130 is in contact with the bottom surface of the liner inserting groove 2a located opposite to the center of the rolled roll choke 2, Is measured by the interaction of the magnetic sensing sensor 160 and the distance measuring reference rod 150. [

The distance between the measured magnetic sensors 160 is transmitted to an arithmetic processing unit (not shown). The distance by which the probe 132 is moved relative to the dial gauge 133 when the gauge portion 130 is in contact with the bottom surface of the liner inserting groove 2a (the operator checks the amount of rotation of the display instruction 134 Acquisition) is inputted to the operation processing unit (not shown) by the operator.

The arithmetic processing unit (not shown) calculates the distance between the magnetic sensor 160 when the gauge unit 130 contacts the bottom surface of the liner insertion groove 2a and the distance between the probe 132 and the dial gauge 133 The distance traveled and the distance between the end of the probe 132 and the magnetic sensor 160 are integrated and calculated so that the bottom surface of the liner insertion groove 2a positioned opposite to the center of the rolling roll chock 2 Lt; / RTI > The values calculated in the operation processing unit (not shown) are transmitted to the display unit (not shown) and displayed.

Meanwhile, the gauge vertical movement driving unit 170 is provided with the gauge horizontal movement driving unit 140. The gauge vertical movement driving unit 170 is connected to the gauge unit 130 to move the gauge unit 130 in the vertical direction.

The gauge vertical movement driving unit 170 of this embodiment moves the gauge unit 130 in the vertical direction so that the measuring time of the degree of corrosion along the vertical direction of the bottom surface of the liner insertion groove 2a can be shortened.

8, the gauge up-and-down movement drive unit 170 is rotatably supported on the left-to-right direction movement unit 143 and has a vertical movement thread 171a on the outer circumference thereof. A first bevel gear 172 coupled to the up and down movement rotary rod 171 and a second bevel gear 172 rotatably supported by the left and right direction moving part 143 and engaged with the first bevel gear 172, A vertically moving operation handle 174 which is coupled to the second bevel gear 173 and rotates the second bevel gear 173 and a vertically moving thread 171a which is engaged with the gauge mounting portion 171a A vertical movement block 175 coupled to the magnetic sensing sensor 160 and coupled to the gage mounting block 136 so as to be slidably movable; 171) of the gauge unit 130, It includes parts of the upper and lower movement restraint for restraining the movement direction.

The vertically movable rotary bar 171 is rotatably supported inside the support body 145. A vertical moving thread 171a is provided on the outer circumferential surface of the vertically movable rotary bar 171. At the lower end of the vertically movable rotary bar 171, there is formed a screw groove 171b to which a press bolt 177, which will be described later, of the vertically movable restricting portion is engaged.

The first bevel gear 172 is coupled to the vertically movable rotary rod 171 and rotated together with the vertically movable rotary rod 171.

The second bevel gear 173 is rotatably supported by the laterally moving portion 143. The second bevel gear 173 meshes with the first bevel gear 172.

The vertically movable operation handle 174 is coupled to the second bevel gear 173. The vertically movable operation handle 174 rotates the second bevel gear 173.

The vertical movement block 175 is engaged with the vertical movement thread 171a. The gauge mounting portion 136 is coupled to the up-and-down moving block 175.

The up-and-down movement guide portion 176 is connected to the magnetic detection sensor 160. In the present embodiment, the vertical movement guide portion 176 is connected to the support body 145 and stably supported as shown in detail in FIG. The guide rails 176a are slidably mounted on the guide portions 176 for moving the gaiter mounts 136 in a slidable manner.

The vertical movement restraining portion restricts the rotation of the vertical movement rotary bar 171 and restrains the movement of the gauge portion 130 in the vertical direction.

8, the upper and lower movement restraining portions are engaged with the lower ends of the vertically movable rotary bar 171 through the through holes 145a formed in the lower wall of the supporting body 145, (Not shown).

The bolt body 177a of the pressing bolt 177 in the present embodiment is threaded into the screw groove 171b formed in the lower end of the vertically movable rotary bar 171 through the passage hole 145a.

The bolt head 177b of the pressing bolt 177 can be brought into close contact with or close to the lower wall of the supporting body 145 by the rotation of the pressing bolt 177. [ When the bolt head 177b is brought into close contact with the lower wall of the support body 145 and the bolt head 177b presses the lower wall of the support body 145 by the worker pushing the press bolt 177, The rotation of the vertically movable rotary bar 171 is restrained by the frictional force between the bolt 177 and the surface of the bolt head 177b and the support body 145 so that the vertical movement of the gage 130 is restricted do.

The operator grips the vertically movable operation handle 174 by hand to restrict the rotation of the vertically movable rotary bar 171 in order to prevent the vertically movable rotary bar 171 from rotating in the process of rotating the press bolt 177 The pressing bolt 177 is rotated.

As described above, the rolling roll choke measuring apparatus according to the present embodiment includes the vertical movement restraining unit for restricting the vertical movement of the gauge unit 130, so that, in the process of moving the gauge unit 130 in the lateral direction, There is an advantage that measurement accuracy can be improved by restricting the upward and downward movement of the antenna 130.

Hereinafter, the operation of the rolling roll chock measuring apparatus according to the present embodiment will be described with reference to Figs. 3 to 9. Fig.

The magnetic body 112 of the measuring device body 110 is first attached to the back surface of the rolling roll chock 2. [ Thereafter, the pressure bar 123 is pulled to place the pressure bar 123 so that the pressure bar 123 presses the rolled roll choke 2 to the measuring apparatus body portion 110.

The gage section 130 is moved in the direction of approaching the rolling roll chocks 2 so that the gage section 130 is moved to the liner insertion grooves 2a of the rolling roll chocks 2 As shown in FIG. The operator can then numerically confirm the degree of corrosion of the rolled roll chocks 2 by reading the values displayed on the display (not shown).

Next, the operator rotates the vertically movable operation handle 174 to move the gauge unit 130 in the vertical direction. The probe 132 is moved relative to the dial gauge 133 in accordance with the degree of corrosion of the bottom surface of the liner inserting groove 2a or the curvature of the bottom surface of the gauge section 130 , And the amount of movement of the probe 132 is indicated by the rotation of the display instruction 134. The operator can numerically confirm the degree of corrosion of the rolled roll chock 2 by reading the value of the indicator 134 in the upward and downward movement of the gage 130. [

The apparatus for measuring rolled roll chocks according to the present embodiment includes a gauge left and right movement driving unit 140 and a gauge unit 130 for moving the pair of gauge units 130 toward and away from each other in the vertical direction And the gauge up and down movement drive unit 170 that moves the roll roll choke 2 to a predetermined position, the corrosion degree of the rolled roll chocks 2 can be measured quickly.

Although the present invention has been described in detail with reference to the above drawings, the scope of the scope of the present invention is not limited to the above-described drawings and description.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

2: rolling roll chock 2a: liner insertion groove
110: Measuring device body part 111: Main body
112: magnetic body 120: coupling part for body attachment / detachment
121: engaging portion body 121a: through hole
122: moving block for attaching and detaching 123: pressing bar
124: elastic body 130:
131: gauge body 132: probe
133: Dial gauge 134: Display instructions
136: Gauge mounting part
140: a gauge lateral movement driving unit
141: Rotary bar for lateral movement
141a: first lateral moving thread
141b: second lateral moving thread
142: Operation handle for lateral movement
143: left / right moving part 144: left / right moving block
145: Support body 145a: Through hole
150: Reference rod for distance measurement 160: Magnetic sensor
170: Gauge vertical movement drive unit 171: Vertical movement movement rotary bar
171a: Upper and lower moving thread 171b: Screw groove
172: first bevel gear 173: second bevel gear
174: vertically moving operation handle 175: vertically moving block
176: vertically moving guide portion 176a: guide rail
177: pressing bolt 177a: bolt body
177b: Bolt head

Claims (4)

A measurement apparatus body 110 formed with a hollow interior;
A body attachment / detachment coupling part 120 detachably coupling the measuring device body part 110 to the rolling roll chock 2;
A pair of gauge parts 130 supported on the measuring device body part 110 and moved in a mutually approaching and spacing direction and contacting the bottom surface of the liner insertion groove 2a formed in the rolling roll chock 2, ;
A gauge lateral movement driving unit 140 supported on the body 110 of the measurement apparatus and connected to the gauge unit 130 to move the gauge unit 130 in a direction in which the gauge unit 130 approaches and separates from each other;
A distance measuring reference rod 150 disposed inside the measuring apparatus body 110 and having a magnetic scale formed on the outer circumference thereof;
A magnetic sensing sensor 160 slidably connected to the distance measuring reference rod 150 and connected to the gage 130 and electrically connected to the display device; And
And a gauge vertical movement driving unit 170 provided in the gauge horizontal movement driving unit 140 and connected to the gauge unit 130 to move the gauge unit 130 in the vertical direction,
The lower region of the measuring device body 110 is open to communicate with the hollow interior of the measuring device body 110,
The gauge section (130)
A gauge main body 131 contacting the bottom surface of the liner insertion groove 2a; And
And a gage mounting portion 136 to which the gage main body 131 is mounted and connected to the gage up and down movement driving portion 170,
The gauge lateral movement driver 140,
A transverse moving rod 141 rotatably supported on the measuring device body 110 and provided with a first transverse moving thread 141a and a second transverse moving thread 141b on its outer circumferential surface;
A left and right directional operation handle 142 coupled to the left and right direction movement rotary bar 141 for rotating the left and right direction movement rotary bar 141;
And a pair of left and right moving parts 143 coupled to the first left and right direction moving thread 141a and the second left and right direction moving thread 141b and respectively connected to the gauges 130,
The screw directions of the first lateral-direction moving thread 141a and the second lateral-direction moving thread 141b are opposite to each other,
The gage up-and-down movement drive unit 170,
A vertically movable rotary bar 171 rotatably supported by the lateral movement portion 143 and having a vertical movement thread 171a on the outer peripheral surface thereof;
A first bevel gear 172 coupled to the up-and-down moving rotary bar 171;
A second bevel gear 173 rotatably supported by the left and right direction moving part 143 and engaged with the first bevel gear 172;
A vertically moving operation handle 174 coupled to the second bevel gear 173 and rotating the second bevel gear 173;
A vertical movement block 175 engaged with the vertical movement thread 171a and coupled with the gage mounting portion 136; And
And a vertically moving guide part 176 connected to the magnetic sensor 160 and slidably connected to the gauge mounting part 136,
The gage up-and-down movement drive unit 170,
Further comprising a vertical restraining portion for restricting the rotation of the up / down movement rotary rod (171) so as to restrain the upward movement of the gage portion (130)
The vertical movement restraining part
A pressing bolt 145 which penetrates a through hole 145a provided in a lower wall of the left and right direction moving part 143 and is engaged with a lower end of the upright and downward direction moving bar 171 and presses the lower wall of the left and right direction moving part 143, (177). delete delete delete

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