CN212894425U - In-kiln temperature detection system for float glass kiln - Google Patents

Abstract

The utility model provides a kiln internal temperature detecting system for float glass kiln, includes the horizontal track, the fixed setting of horizontal track on kiln outdoor side wall, be equipped with on the horizontal track and follow rail movement's temperature measurement mechanism, temperature measurement mechanism includes the sliding frame, is equipped with the slip carrier plate in the trompil at sliding frame middle part, is equipped with the stand on the slip carrier plate, the stand upper end is equipped with the thermoscope fixing base that is used for fixed infrared thermoscope. The above structure is adopted in the utility model, the support that can realize the infrared radiation thermometer is fixed to reach the accurate location purpose of required hand temperature measurement point, improve the degree of accuracy of hand temperature measurement, can reduce manual operation intensity simultaneously.

Description

In-kiln temperature detection system for float glass kiln

Technical Field

The utility model relates to an ultra-thin glass production field, specifically a kiln internal temperature detecting system for float glass kiln.

Background

At present, the temperature monitoring in the melting furnace on a float glass production line is divided into on-line thermocouple monitoring and hand-held infrared thermometer used for hand-held re-checking temperature measurement monitoring, so as to further ensure the temperature stability of four small stable states of the melting furnace.

In the daily production process, when an employee usually measures a certain temperature point in the kiln according to a control requirement, manual point-to-point measurement is used, the working efficiency is low in the measurement process, meanwhile, the employee with different experience degrees has certain errors in the measurement process, the accuracy of actual temperature monitoring in the kiln is influenced, and misjudgment of process adjustment is caused under severe conditions, and the glass yield and the product quality are influenced.

Therefore, how to realize accurate positioning, the accuracy of the hand temperature measurement is improved, and the improvement of the temperature measurement efficiency is particularly important.

Disclosure of Invention

The utility model aims to solve the technical problem that a kiln internal temperature detecting system for float glass kiln is provided, the support that can realize infrared thermometer is fixed to reach the accurate location purpose of required hand temperature measurement point, improve the degree of accuracy of hand temperature measurement, can reduce manual operation intensity simultaneously.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: the utility model provides a kiln internal temperature detecting system for float glass kiln, includes the horizontal track, the fixed setting of horizontal track on kiln outdoor side wall, be equipped with on the horizontal track and follow rail movement's temperature measurement mechanism, temperature measurement mechanism includes the sliding frame, is equipped with the slip carrier plate in the trompil at sliding frame middle part, is equipped with the stand on the slip carrier plate, the stand upper end is equipped with the thermoscope fixing base that is used for fixed infrared thermoscope.

In the preferred scheme, the inside wall of the sliding frame is provided with a guide groove, two sides of the sliding bearing plate are provided with guide convex blocks, the guide convex blocks are arranged in the guide groove, a first threaded rod perpendicular to the horizontal track is arranged in the opening of the sliding frame, and the first threaded rod penetrates through the sliding bearing plate and is in threaded connection with the sliding bearing plate.

In the preferred scheme, one side of the sliding frame is provided with a roller wheel which is arranged in the horizontal rail, and the bottom of the horizontal rail is provided with a positioning mechanism of the sliding frame.

In a preferred scheme, the sliding frame positioning mechanism comprises a shell, the shell is of a hollow structure, a plurality of groups of through holes are formed in the bottom surface of a horizontal rail above the shell, a lifting plate and a third threaded rod which vertically penetrates through the lifting plate and the bottom surface of the shell are arranged in the shell, and a plurality of groups of positioning columns which are located on the same vertical position with the plurality of groups of through holes are arranged on the top surface of the lifting plate;

the through holes in a single group comprise two through holes, the positioning columns in the single group comprise two positioning columns, and the distance between the two positioning columns in the same group is the same as the diameter of the wheel shaft on the roller.

In a preferred scheme, two positioning columns in a single group of the positioning columns are provided with chamfers at the upper ends of the opposite sides.

In the preferred scheme, the stand pass through the bearing and fix on the slip carrier plate, be equipped with driven gear on the outer wall of stand, still be equipped with the driving gear on the slip carrier plate, meshing between driving gear and the driven gear is equipped with coaxial knob on the driving gear.

In a preferred scheme, the thermometer fixing seat comprises an L-shaped fixing plate and a movable plate, a plurality of grooves are formed in the top surface of a horizontal bottom plate of the fixing plate, a lug boss is arranged at the bottom of the movable plate, the groove is provided with a second threaded rod, and the second threaded rod penetrates through the lug boss of the movable plate in the groove and is in threaded connection with the lug boss of the movable plate.

In a preferable scheme, a second marking arrow is arranged on the top surface of the horizontal rail, the second marking arrow and the central line of an observation hole of the kiln are positioned on the same vertical surface, a first marking arrow is arranged on one side, close to the horizontal rail, of the top surface of the sliding frame, and the first marking arrow is arranged on the central line of the sliding frame;

the housing centerline is aligned with the viewing port centerline.

The utility model provides a kiln internal temperature detecting system for float glass kiln through adopting above-mentioned device, can carry out real-time accurate detection to the temperature of different positions in a plurality of observation holes of kiln, has saved the testing result deviation that artifical handheld thermoscope leads to improve temperature detection operating efficiency.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the temperature measuring mechanism of the present invention.

Fig. 3 is a schematic structural view of the sliding frame positioning mechanism of the present invention.

In the figure: the temperature measuring device comprises a horizontal rail 1, a through hole 101, a temperature measuring mechanism 2, a sliding frame 3, an opening 301, a guide groove 302, a sliding bearing plate 4, a guide lug 401, a first threaded rod 5, a roller 6, a wheel shaft 601, a stand column 7, a thermometer fixing seat 8, a fixing plate 801, a movable plate 802, a driven gear 9, a driving gear 10, a knob 11, a slot 12, a second threaded rod 13, a first marked arrow 14, a second marked arrow 15, a shell 16, a lifting plate 17, a third threaded rod 18, a positioning column 19, an observation hole 20 and a furnace door 21.

Detailed Description

As shown in fig. 1-3, a kiln temperature detection system for a float glass kiln comprises a horizontal rail 1, wherein the horizontal rail 1 is fixedly arranged on the outer side wall of a kiln chamber, a temperature measuring mechanism 2 capable of moving along the rail is arranged on the horizontal rail 1, the temperature measuring mechanism 2 comprises a sliding frame 3, a sliding bearing plate 4 is arranged in an opening 301 in the middle of the sliding frame 3, an upright post 7 is arranged on the sliding bearing plate 4, and a thermometer fixing seat 8 for fixing an infrared thermometer is arranged at the upper end of the upright post 7.

In the preferred scheme, the inner side wall of the sliding frame 3 is provided with a guide groove 302, two sides of the sliding support plate 4 are provided with guide convex blocks 401, the guide convex blocks 401 are arranged in the guide groove 302, a first threaded rod 5 perpendicular to the horizontal rail 1 is arranged in the opening 301 of the sliding frame 3, and the first threaded rod 5 penetrates through the sliding support plate 4 and is in threaded connection with the sliding support plate 4.

In the preferred scheme, one side of the sliding frame 3 is provided with a roller 6, the roller 6 is arranged in the horizontal rail 1, and the bottom of the horizontal rail 1 is provided with a sliding frame positioning mechanism.

In a preferable scheme, the sliding frame positioning mechanism comprises a shell 16, the shell 16 is of a hollow structure, a plurality of groups of through holes 101 are formed in the bottom surface of the horizontal rail 1 above the shell 16, a lifting plate 17 and a third threaded rod 18 which vertically penetrates through the lifting plate 17 and the bottom surface of the shell 16 are arranged in the shell 16, and a plurality of groups of positioning columns 19 which are located on the same vertical position with the plurality of groups of through holes 101 are arranged on the top surface of the lifting plate 17;

the through hole 101 in a single group comprises two through holes 101, the positioning column 19 in a single group comprises two positioning columns 19, and the distance between the two positioning columns 19 in the same group is the same as the diameter of the wheel shaft 601 on the roller 6.

In a preferred embodiment, two positioning columns in a single set of positioning columns 19 are provided with chamfers at the upper ends of the opposite sides.

In the preferred scheme, stand 7 pass through the bearing and fix on slip carrier plate 4, be equipped with driven gear 9 on the outer wall of stand 7, still be equipped with driving gear 10 on the slip carrier plate 4, mesh between driving gear 10 and the driven gear 9, be equipped with coaxial knob 11 on the driving gear 10.

In a preferred scheme, the thermometer fixing base 8 includes an L-shaped fixing plate 801 and a moving plate 802, a plurality of slots 12 are formed in the top surface of a horizontal bottom plate of the fixing plate 801, a protrusion corresponding to the slot 12 is formed at the bottom of the moving plate 802, a second threaded rod 13 is disposed in one slot 12 located in the middle, and the second threaded rod 13 penetrates through the protrusion of the moving plate 802 located in the slot 12 in the middle and is in threaded connection with the protrusion of the moving plate 802.

In a preferable scheme, a second marked arrow 15 is arranged on the top surface of the horizontal rail 1, the second marked arrow 15 and the central line of an observation hole 20 of the kiln are positioned on the same vertical surface, a first marked arrow 14 is arranged on one side, close to the horizontal rail 1, of the top surface of the sliding frame 3, and the first marked arrow 14 is arranged on the central line of the sliding frame 3;

the housing 16 centerline is aligned with the viewing aperture 20 centerline.

The principle of the device is as follows:

placing an infrared thermometer on a thermometer fixing seat 8, then rotating a second threaded rod 13 to enable a movable plate 802 to move horizontally, clamping and fixing the infrared thermometer by matching with a fixed plate 801, after the infrared thermometer is installed, opening a furnace door 21 on an observation hole 20 (in a state shown in figure 1), then pushing a sliding frame 3 on a horizontal track 1 until a first marking arrow 14 is aligned with a second marking arrow 15, manually rotating a third threaded rod 18 at the moment to enable a positioning column 19 to penetrate through a through hole 101 and limit a wheel shaft 601, at the moment, fixing the sliding frame 3 on the horizontal track 1, manually rotating a first threaded rod 5 to enable a sliding bearing plate 4 to move towards the observation hole 20 until the sliding bearing plate 4 moves to the end part of a hole 301, at the moment, opening the infrared thermometer to detect the temperature in a kiln, and during the detection process, manually rotating a knob 11, adjusting the detection direction of the infrared thermometer to detect the temperature of different positions in a single observation hole, manually rotating the first threaded rod 5 again after finishing the operation to enable the sliding bearing plate 4 to move to one end of the opening 301 far away from the observation hole 20, then rotating the third threaded rod 18 to enable the positioning column 19 not to limit the wheel shaft 601 any more, manually pushing the temperature measuring mechanism 2 to the next observation hole 20, and repeating the steps to carry out temperature measuring operation.

Claims (8)

1. An in-kiln temperature detection system for a float glass kiln, comprising a horizontal rail (1), characterized in that: horizontal track (1) fixed set up on the kiln room lateral wall, be equipped with temperature measurement mechanism (2) that can follow orbital movement on horizontal track (1), temperature measurement mechanism (2) are equipped with slip carrier plate (4) including slip frame (3) in trompil (301) at slip frame (3) middle part, are equipped with stand (7) on slip carrier plate (4), stand (7) upper end is equipped with thermoscope fixing base (8) that are used for fixed infrared thermoscope.

2. The in-kiln temperature detection system for a float glass kiln according to claim 1, characterized in that: slide frame (3) inside wall on be equipped with guide way (302), slide carrier plate (4) both sides are equipped with direction lug (401), direction lug (401) set up in guide way (302), be equipped with first threaded rod (5) of perpendicular to horizontal track (1) in trompil (301) of slide frame (3), first threaded rod (5) pass slide carrier plate (4) and with slide carrier plate (4) between threaded connection.

3. The in-kiln temperature detection system for a float glass kiln according to claim 1, characterized in that: and one side of the sliding frame (3) is provided with a roller (6), the roller (6) is arranged in the horizontal rail (1), and the bottom of the horizontal rail (1) is provided with a sliding frame positioning mechanism.

4. The in-kiln temperature detection system for a float glass kiln according to claim 3, characterized in that: the sliding frame positioning mechanism comprises a shell (16), the shell (16) is of a hollow structure, a plurality of groups of through holes (101) are formed in the bottom surface of a horizontal rail (1) above the shell (16), a lifting plate (17) and a third threaded rod (18) which vertically penetrates through the lifting plate (17) and the bottom surface of the shell (16) are arranged in the shell (16), and a plurality of groups of positioning columns (19) which are located on the same vertical position as the plurality of groups of through holes (101) are arranged on the top surface of the lifting plate (17);

the through hole (101) in a single group comprises two through holes (101), the positioning column (19) in the single group comprises two positioning columns (19), and the distance between the two positioning columns (19) in the same group is the same as the diameter of a wheel shaft (601) on the roller (6).

5. The in-kiln temperature detection system for a float glass kiln according to claim 4, characterized in that: two positioning columns in a single group of the positioning columns (19) are provided with chamfers at the upper ends of the opposite sides.

6. The in-kiln temperature detection system for a float glass kiln according to claim 1, characterized in that: stand (7) pass through the bearing and fix on slip carrier plate (4), be equipped with driven gear (9) on the outer wall of stand (7), still be equipped with driving gear (10) on slip carrier plate (4), mesh between driving gear (10) and driven gear (9), be equipped with coaxial knob (11) on driving gear (10).

7. The in-kiln temperature detection system for a float glass kiln according to claim 1, characterized in that: the thermometer fixing seat (8) comprises an L-shaped fixing plate (801) and a movable plate (802), a plurality of grooves (12) are formed in the top surface of a horizontal bottom plate of the fixing plate (801), a convex block corresponding to the grooves (12) is arranged at the bottom of the movable plate (802), a second threaded rod (13) is arranged in one groove (12) in the middle, and the second threaded rod (13) penetrates through the convex block of the movable plate (802) in the groove (12) in the middle and is in threaded connection with the convex block of the movable plate (802).

8. The in-kiln temperature detection system for a float glass kiln according to claim 4, characterized in that: a second marking arrow (15) is arranged on the top surface of the horizontal rail (1), the second marking arrow (15) and the central line of an observation hole (20) of the kiln are positioned on the same vertical surface, a first marking arrow (14) is arranged on one side, close to the horizontal rail (1), of the top surface of the sliding frame (3), and the first marking arrow (14) is arranged on the central line of the sliding frame (3);

the midline of the shell (16) is aligned with the midline of the observation hole (20).

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