JP2799906B2 - Contact type temperature measuring device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a contact type temperature measuring device for measuring the temperature of a moving measuring object such as a hot strip.

[Prior art] Conventionally, as a contact-type temperature measuring device of this type, a contact-type thermometer is kept in contact with a moving measuring object such as a hot strip, and is slid over the measuring object. A device that measures the temperature of an object to be measured is known.

[Problems to be Solved by the Invention] However, the conventional contact-type temperature measuring device measures by contacting a stationary contact-type thermometer with the surface of a moving measuring object. There is a problem that a slippage occurs between the meter and the object to be measured, causing a flaw on the object to be measured.

An object of the present invention is to provide a contact-type temperature measuring device that does not scratch a measurement object.

[Means for Solving the Problems] According to the present invention, a thermometer supporting member for holding a thermometer to be brought into contact with a measurement target moved in a predetermined direction on one surface side of the measurement target, A thermometer supporting member is connected, an endless band extending in parallel with one surface side of the object to be measured and having a portion moving in the predetermined direction and moving around, and a driving device for driving and rotating the endless band, A guide member that is provided on one surface side of the measurement object and guides the thermometer support member, wherein the thermometer is configured so that the thermometer performs the measurement object in a part of the orbiting operation of the endless band. An operation of moving the thermometer supporting member in the predetermined direction while approaching the object to be measured, and an operation of moving away from the object to be measured in an opposite direction to the predetermined direction so as to be able to contact one surface of the object. Substantially rectangular orbital movement Thus, a contact-type temperature measuring device is obtained.

According to the present invention, a moving belt holding a thermometer, which is brought into contact with a measuring object moved in a predetermined direction, on an outer peripheral surface, a driving device for driving and rotating the moving belt, and the thermometer is configured to measure the measuring object A belt pressing plate that presses the moving belt in an area that comes into contact with the belt from the inside thereof, and the thermometer on one surface side of the object to be measured only performs a part of the orbiting operation of the endless band for the measurement. A contact-type temperature measuring device is obtained, wherein the thermometer is moved around so as to be able to contact one surface of the object.

[Example] Next, an example of the present invention will be described in detail with reference to the drawings.

In FIGS. 1 to 4, reference numeral 1 denotes an object to be measured. The measuring object 1 is moved in the direction of arrow a by a transport mechanism (not shown).

Two loop-shaped chains 2, 2 are arranged at a predetermined interval from the movement path of the measuring object 1. These chains 2,2 are mounted on four sprockets 3,3,4,4 respectively. The chain 2 has a portion parallel to the movement path of the object 1 to be measured, and this portion is long.

A sprocket 5 is provided coaxially with the sprocket 3. Drive sprockets 6, 6 are arranged near these sprockets 5. A drive chain 7, 7 is wound around the sprocket 5 and the drive sprocket 6. The shaft 6a of the driving sprocket 6 is
Are connected via a cam clutch 9 and a flex coupling 10. The drive shaft 8a of the motor 8
Rotation force of flex coupling 10, cam clutch 9,
Drive sprockets 6,6, drive chains 7,7, sprockets 5,
The chain 2 is transmitted to the chain 2 via 5 and the sprockets 3, 3, and is moved in the direction of arrow a '. Therefore,
A portion of the chain 2 substantially parallel to the movement path of the measurement target 1 is moved at the same speed in synchronization with the measurement target 1.

A thermometer holding member 11 is rotatably attached to the two chains 2,2. That is, the thermometer holding member 11
Are connected to the horizontal shaft 11a and connecting members 11b, 11b provided at both ends of the horizontal shaft 11a and rotatably attached to the chain 2.
And a vertical axis 11c fixed to the horizontal axis 11a, and two of the vertical axis 11c.
Guide rollers 11d, 11d, 11 provided on the two chains 2, 2 side
e, 11e, a support plate 11f fixed to the lower part of the longitudinal axis 11c, a shaft holding piece 11g fixed to the support plate 11f and having three through holes up and down, and vertically movable in the through holes. The sliding shafts 11h, 11i, 11j provided, the rollers 11l, 11m provided at the lower ends of the sliding shafts 11h, 11i, and the lower portion of the sliding shafts 11h, 11i, 11j and the shaft holding piece 11g. And springs 11n, 11o, and 11p provided in the main body.

At the lower end of the sliding shaft 11j of the thermometer holding member 11, a contact thermometer 12 is provided. In this contact type thermometer 12, the sliding shafts 11h, 11i, 11j are arranged so as to be located slightly above the rollers 11l, 11m when lowered.
After the measurement object 1 moves and comes into contact with the rollers 11l and 11m first, they are pushed up and come into contact with the contact type thermometer 12.

Also, the four guide rollers 11d, 11d,
As shown in FIG. 2, guide members 13, 13 for guiding these are arranged on the movement route of 11e. These guide members 13, 13 are composed of an upper guide plate 131 and a lower guide plate.
It consists of 132. Two roller passage holes 132b and 132c are formed in the upper plate 132a of the lower guide plate 132.

Therefore, when the thermometer holding member 11 integrated with the chains 2 and 2 moves with the movement of the chains 2, 2, the guide rollers
11d and 11e move in the direction of positions A → B → C → D → A and are guided by the guide members 13 and 13.

When the guide rollers 11d and 11e move from the position A in the direction of the arrow, the guide rollers 11d enter the lower guide plate 132 through the roller passage holes 132b of the upper plate 132a. Next, guide rollers 11d and 11e
Moves from the position B in the direction of the arrow, the guide roller 11e moves above the upper plate 132a through the roller passage hole 132c of the upper plate 132a.

Next, when the guide rollers 11d and 11e move from the position C in the direction of the arrow, the guide rollers 11e first enter the upper guide plate 131, and then the guide rollers 11d enter the upper guide plate 131.
The guide rollers 11d and 11e are shifted in the horizontal direction as shown in FIG. 1, and the curved portion on the position C side of the upper plate 131a of the upper guide plate 131 is such that the guide roller 11d is It is cut out so as to be inserted into the guide plate 131.

Next, the guide roller 11e is moved to the upper guide 131 near the position D.
And moves to the right of the upper plate 132a of the lower guide plate 132. The curved portion on the position D side of the upper plate 131a of the upper guide plate 131 corresponding to the moving path of the guide roller 11e is the fifth.
As shown in FIG. 6 and FIG. On the other hand, the upper guide plate 1 corresponding to the movement path of the guide roller 11d
Since the curved portion of the upper plate 131a on the position D side is not notched, the guide roller 11d is connected to the upper plate 13 of the lower guide plate 132.
Moved to the left of 2a.

When the guide rollers 11d and 11e move from the position A in the direction of the arrow, the rollers 11l and 11m and the contact-type thermometer 12 held by the thermometer holding member 11 come into contact with the measuring object 1 and the guide rollers 11d , 11e moves on the horizontal portion of the lower guide plate 132, while the contact-type thermometer 12 moves at substantially the same speed as that of the measurement target 1, and contacts the measurement target 1 at least during the time constant of the thermometer. Contact and measure temperature.

Even if the movement path of the measuring object 1 is slightly shifted, the spring
Contact thermometer 12 and roller 11 by the action of 11n, 11o, 11p
l, 11m can come in contact with the measuring object 1 at an appropriate pressure.

7 to 9 show another embodiment of the present invention, which will be described below.

In FIG. 7, reference numeral 13 denotes a moving belt. The moving belt 13 includes driving rolls 14 and 14 and rolls 15 and 15
Is wrapped around. On the shaft 14a of the drive rolls 14, 14, 2
Two sprockets 16, 16 are fixed. Two driving sprockets 17, 17 are arranged so as to correspond to these sprockets 16, 16, respectively. These sprockets 16,
A chain 18 is wound around the drive sprocket 16 and the drive sprocket 17.

The shaft 17a of the drive sprockets 17, 17 is connected to the drive shaft 21a of the motor 21 via the cam clutch 19 and the flex coupling 20. The rotational force of the drive shaft 21a of the motor 21 depends on the flex coupling 20, the cam clutch 19, the shaft 17
a, Drive sprocket 17,17, Chain 18,18, Sprocket
It is transmitted to the shaft 14a of the drive rolls 14 and 14 via 16 and 16,
The drive rolls 14 are rotated so as to move the moving belt 13 in the direction of arrow b in FIG.

A contact thermometer 22 is fixed to the center of the outer periphery of the moving belt 13. The long part of the moving belt 13 is arranged so as to be parallel to the moving path of the measuring object 1. Further, the long part of the moving belt 13 located in the vicinity of the measuring object 1 is configured to move at substantially the same speed (in the direction of the arrow b in the drawing) in synchronization with the measuring object 1. Therefore, as shown in FIG. 7, the contact-type thermometer 22 fixed to the moving belt 13 is moved in the direction of arrow b with the movement of the moving belt 13 and moves in the direction of arrow a. The object 1 is brought into contact with the object 1 for a predetermined time (at least during the time constant of the meter).

Two belt pressing plates 23 are arranged so as to guide a long portion of the moving belt 13 facing the object 1 to be measured. These belt pressing plates 23 position the moving belt 13 so that the contact thermometer 22 contacts the object 1 to be measured.

The two belt pressing plates 23, 23 position both sides of the moving belt 13 other than the center where the contact thermometer 22 is mounted. In the center space of the moving belt 22, a shaft 24
Is arranged. The shaft 24 is connected to a drive shaft 26a of a motor 26 via a flex coupling 25. At the other end of the shaft 24, a slip ring 27 is provided. The compensating lead 28 connected to the contact thermometer 22
From the center of the shaft 24, it enters the inside of the shaft 24, passes through the inside of the shaft 24, and is connected to the slip ring 27. Accordingly, the shaft 24 is also rotated by the motor 26 once while the contact thermometer 22 is rotated once with the movement of the moving belt 13.

As shown in FIG. 7, the support member 28 supporting the shaft of the roll 15 is moved by a roll position fine adjustment screw 29.
Is adjusted by Then, by adjusting the position of the support member 28, the tension of the moving belt 13 is adjusted.

10 to 14 show another embodiment of the present invention, which will be described below.

In FIG. 10, reference numerals 30, 30, and 31 indicate drive rolls. Each of these drive rolls 30, 30, 31 has a drive mechanism 3
It is rotated in the direction of the arrow by 2,33. Drive rolls 30, 30, 31
Rolls 34, 3 on the moving direction side of the object 1
4,35 are arranged. Two moving belts 36 are wound between the drive rolls 30, 30 and the roll 34. No.
As shown in FIGS. 10 and 12, the drive roll 31 and the roll
A pressing moving belt 37 is wound between the pressing belt 35.

The driving rolls 30, 30, 31 are used as idler rolls to apply a tensile force to the moving belt 36 and the pressing moving belt 37 by the frictional force between the moving belt 36 and the pressing moving belt 37 and the measurement object 1 generated by the pressing force. Alternatively, it may be moved at the same speed as the object 1 to be measured.

As shown in FIG. 11, the two moving belts 36, 36 are arranged at a predetermined interval. A thermometer support member 38 is disposed between the moving belts 36. Both ends of the thermometer support member 38 are fixed to the moving belt 36, respectively. The contact thermometer 39 is located at the center of the thermometer support member.
Has been fixed.

A shaft 38a is fixed to the thermometer support member 38 in a direction orthogonal to the movement path of the measurement object 1. An end of the shaft 38a is supported by a linear bearing 40, and a guide rod 41 is arranged in parallel with the movement path of the measurement object 1, that is, in a direction orthogonal to the shaft 38a. This guide rod 41
A linear guide 43 is fixed to a support member 42 and is movable in the longitudinal direction. A linear bearing 40 is attached to the linear guide 43. The compensating lead 44 of the contact thermometer 39 passes through the inside of the shaft 38a and extends out from the end of the shaft 38.

The moving belt 36 and the pressing moving belt 37 are arranged on both sides of the moving path of the measuring object 1. Opposite portions of the moving belt 36 and the pressing moving belt 37 are moved at substantially the same speed in the same direction as the object 1 to be measured. Accordingly, the moving belt 36 and the pressing moving belt 37 hold the object 1 to be measured between them, and
The pressing moving belt 37 presses the measuring object 1 against the contact thermometer 39.

When the moving belt 36 moves, the integral thermometer supporting member 38 and the contact thermometer 39 are also moved, and
Accordingly, the shaft 38a and the linear guide 43 are also reciprocated.

The drive roll 30, the roll 34, the supporting members supporting these, and the moving belt 36 are integrally formed with the object 1 to be measured.
The drive roll 31, the roll 35, the supporting member for supporting these, and the pressing moving belt 37 are also integrated with the moving path of the measuring object 1 at right angles to the moving path of the measuring object 1. In the direction of arrow d. Therefore, even if the thickness of the measuring object 1 changes, the contact type thermometer 39 is brought into contact with the measuring object 1 with an appropriate pressure by moving the moving belt 36, the pressing moving belt 37, and the other objects. be able to.

[Effects of the Invention] According to the present invention, the contact type thermometer is brought into contact with the measurement object while being moved at substantially the same speed in synchronization with the measurement object, so that the measurement object is not scratched.

[Brief description of the drawings]

FIG. 1 is a front view schematically showing an embodiment of the present invention, FIG. 2 is a front view showing a guide member of a thermometer holding member in the above embodiment, and FIG. 3 is an upper part of the thermometer holding member in the embodiment. FIG. 4 is a side view, FIG. 4 is a plan view showing a main part of the chain driving device in the embodiment, FIGS. 5 and 6 are side views showing a part of the guide member, and FIG. FIG. 8 is a cross-sectional view of the embodiment shown in FIG. 7 cut along line AA, and FIG. 9 is a sectional view of the embodiment shown in FIG. Sectional view cut along the line
FIG. 10 is a front view schematically showing another embodiment of the present invention, FIG. 11 is a view showing the same embodiment in FIG. 10 cut along line CC, and FIG. 12 is a same view in FIG. FIG. 13 and FIG. 14 are views showing a part of the embodiment shown in FIG. 10 by cutting the example along the line DD. 1 ... measurement object, 2 ... chain, 3,4 ... sprocket, 8 ... motor, 12 ... contact thermometer, 13 ... moving belt, 14 ... drive roll, 15 ... roll, 21 …… motor, 22…
… Contact thermometer, 30, 31… Driving roll, 32, 33… Driving mechanism, 34, 35… Roll, 38… Thermometer support member, 39… Contact thermometer

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-2-50625 (JP, A) JP-A-49-93068 (JP, A) JP-A-59-79132 (JP, A) 99832 (JP, U) Japanese Utility Model Showa 63-177771 (JP, U) Japanese Utility Model Showa 60-168030 (JP, U) (58) Fields investigated (Int. Cl. ⁶ , DB name) G01K 13/06

Claims (2)

(57) [Claims] 1. A thermometer support member for holding a thermometer, which is brought into contact with a measurement object moved in a predetermined direction, on one surface side of the measurement object, and the thermometer support member is connected to the thermometer support member, and the measurement is performed. An endless band extending parallel to one surface of the object and having a portion moving in the predetermined direction and moving around; a driving device for driving and rotating the endless band; and a driving device provided on one surface of the measurement object. And a guide member for guiding the thermometer support member, so that the thermometer can come into contact with one surface of the object to be measured in a part of one round operation of the endless band, A substantially rectangular orbital movement by an operation of moving the thermometer support member in the predetermined direction while approaching the measurement object and an operation of moving away from the measurement object in the opposite direction to the predetermined direction. The feature is that Contact type temperature measuring device. 2. A moving belt holding an outer peripheral surface of a thermometer for contacting a measuring object moved in a predetermined direction, a driving device for driving and rotating the moving belt, and the thermometer contacting the measuring object. A belt holding plate for holding a moving belt in an area to be held from the inside thereof, wherein the thermometer is provided on one surface side of the object to be measured only in a part of the orbiting operation of the endless band for the object to be measured. A contact-type temperature measuring device wherein the thermometer is moved around so as to be able to contact one surface of an object.