CN209755631U - Temperature monitoring device is used in production of zirconia corundum electrically fused brick - Google Patents

Abstract

The utility model belongs to the electric smelting brick field, especially, temperature monitoring device is used in production of zirconia corundum electric smelting brick, to current electric smelting brick in the production process, often need monitor the temperature, traditional temperature monitoring device can't be according to control demand temperature regulation monitoring range, the practicality has been reduced, simultaneously, temperature monitoring device is not convenient for dismantle the problem of overhauing, the following scheme is proposed now, including the mounting panel, first recess has been seted up to one side lateral wall of mounting panel, one side lateral wall sliding connection of first recess has the slider, the top lateral wall of slider is along vertical direction set up screw hole, the top lateral wall of first recess has driving motor through the bolt fastening, driving motor's output shaft is fixed with the pivot through the shaft coupling. The utility model discloses can carry out real time monitoring to the temperature, can adjust temperature sensor's control position according to the user demand simultaneously, improve the practicality, can install and dismantle temperature sensor fast moreover.

Description

Temperature monitoring device is used in production of zirconia corundum electrically fused brick

Technical Field

the utility model relates to an electric smelting brick technical field especially relates to a temperature monitoring device is used in production of zirconia corundum electric smelting brick.

Background

The fused cast brick is a white solid formed by injecting pure alumina powder (Al2O3) and zircon sand containing about 65% of zirconia (ZrO2) and 34% of silicon dioxide (SiO2) into a mold after melting in an electric melting furnace and cooling, and the rock phase structure of the fused cast brick is composed of eutectoid bodies of corundum and zircon and a glass phase, and is a eutectoid body of corundum phase and zircon phase in terms of phase, and the glass phase is filled between crystals of the corundum phase and the zircon phase.

Current electric smelting brick is in process of production, often need monitor the temperature, and traditional temperature monitoring device can't be according to control demand temperature monitoring range, has reduced the practicality, and simultaneously, temperature monitoring device is not convenient for dismantle the maintenance, for this reason, we have proposed a temperature monitoring device is used in production of zirconia corundum electric smelting brick.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of temperature monitoring device is used in production of zirconia corundum electrically fused brick has solved current electrically fused brick in process of production, often needs to monitor the temperature, and traditional temperature monitoring device can't be according to control demand temperature regulation monitoring range, has reduced the practicality, and simultaneously, temperature monitoring device is not convenient for dismantle the problem of overhauing.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a temperature monitoring device for production of a zirconia-corundum fused brick comprises a mounting plate, wherein a first groove is formed in one side wall of the mounting plate, a sliding block is connected to one side wall of the first groove in a sliding manner, a threaded hole is formed in the top side wall of the sliding block in the vertical direction, a driving motor is fixed to the top side wall of the first groove through a bolt, a rotating shaft is fixed to an output shaft of the driving motor through a coupler, one end, away from the driving motor, of the rotating shaft penetrates through the threaded hole to be rotatably connected with the bottom side wall of the first groove, threads are formed in the outer side wall of the rotating shaft and are in threaded transmission connection with the sliding block, a first connecting plate which is vertically arranged is fixed to one side wall of the sliding block, a second connecting plate which is vertically arranged is fixed to one side wall of the first connecting plate, a first through hole is formed in, the side wall of one side of the second connecting plate far away from the first connecting plate is jointly fixed with a fixed block, and the side wall of one side of the fixed block far away from the second connecting plate is jointly fixed with an annular plate.

Preferably, the pressing plates are symmetrically arranged inside the annular plate, a second through hole is formed in the side wall of one side of the annular plate, a sliding plate is slidably sleeved inside the second through hole, and one end of the sliding plate extends to the outside of the second through hole and is connected with the side wall of the pressing plate.

Preferably, a third through hole is formed in the side wall of one side of the sliding plate along the length direction of the sliding plate, the side wall of one side of the second through hole is rotatably connected with the driving shaft, the other end of the driving shaft penetrates through the third through hole to extend to the outside of the second through hole, a rotating plate is fixed outside the second through hole, and the rotating plate and the driving shaft are vertically arranged.

Preferably, the lateral wall of one side that the driving shaft was kept away from to the commentaries on classics board is connected with the bolt that the symmetry set up, the slot has been seted up along its length direction to one side lateral wall of annular plate, and the joint sets up between bolt and the slot.

Preferably, the outer side wall of the driving shaft is sleeved with a gear in a tight fit manner, a rack is arranged on the side wall of one side of the third through hole along the length direction of the third through hole, and the gear and the rack are in meshing transmission connection.

Preferably, the lateral walls of the two sides of the annular plate are provided with guide holes which are symmetrically arranged, a guide rod is slidably sleeved in each guide hole, and the other end of each guide rod is fixed with the lateral wall of the pressing plate.

In the utility model

1: the temperature can be monitored in real time through the mounting plate, the sliding block, the driving motor, the rotating shaft, the first connecting plate, the second connecting plate and the temperature sensor, and meanwhile, the monitoring position of the temperature sensor can be adjusted according to the use requirement, so that the practicability is improved;

2: through the matching among the annular plate, the fixed block, the pressing plate, the rotating plate, the driving shaft, the gear, the sliding plate and the rack, the temperature sensor can be quickly installed and disassembled, so that the overhaul operation of workers is facilitated, and the convenience is improved;

The utility model discloses can carry out real time monitoring to the temperature, can adjust temperature sensor's control position according to the user demand simultaneously, improve the practicality, can install and dismantle temperature sensor fast moreover, the staff of being convenient for overhauls the operation, has improved the convenience.

Drawings

FIG. 1 is the utility model provides a temperature monitoring device's for production of zirconia-corundum electrically fused brick structural schematic diagram.

Fig. 2 is the utility model provides a temperature monitoring device's for production of zirconia corundum electrically fused brick enlarged structure schematic diagram of part A.

FIG. 3 is a side view of the annular plate structure of the temperature monitoring device for producing the fused zirconia alumina bricks of the utility model.

FIG. 4 is a side view of the second through hole structure of the temperature monitoring device for producing the fused zirconia alumina brick provided by the utility model.

FIG. 5 is the utility model provides a temperature monitoring device's for production of zirconia corundum electrically fused brick slide plate structure side view.

Reference numbers in the figures: the device comprises a mounting plate 1, a first groove 2, a driving motor 3, a rotating shaft 4, a sliding block 5, a first connecting plate 6, a second connecting plate 7, an annular plate 8, a temperature sensor 9, a pressing plate 10, a second through hole 11, a sliding plate 12, a driving shaft 13, a rotating plate 14, a third through hole 15, a gear 16, a rack 17 and a guide rod 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-5, a temperature monitoring device for producing a zirconia-corundum fused brick comprises a mounting plate 1, a first groove 2 is formed in one side wall of the mounting plate 1, a sliding block 5 is slidably connected to one side wall of the first groove 2, a threaded hole is formed in the top side wall of the sliding block 5 along the vertical direction, a driving motor 3 is fixed to the top side wall of the first groove 2 through a bolt, a rotating shaft 4 is fixed to an output shaft of the driving motor 3 through a coupler, one end, away from the driving motor 3, of the rotating shaft 4 penetrates through the threaded hole to be rotatably connected with the bottom side wall of the first groove 2, a thread is formed in the outer side wall of the rotating shaft 4, the rotating shaft 4 is in threaded transmission connection with the sliding block 5, a first connecting plate 6 which is vertically arranged is fixed to one side wall of the sliding block 5 of the first connecting plate 6, a second connecting plate 7 which is vertically arranged is, the temperature sensor 8 is arranged in the first through hole, the fixing block is fixed on the side wall, away from the first connecting plate 6, of the second connecting plate 7, and the annular plate 9 is fixed on the side wall, away from the second connecting plate 7, of the fixing block.

The inner part of the annular plate 9 is provided with symmetrically arranged pressing plates 10, one side wall of the annular plate 9 is provided with a second through hole 11, the inner part of the second through hole 11 is slidably sleeved with a sliding plate 12, one end of the sliding plate 12 extends to the outer part of the second through hole 11 to be connected with the side wall of the pressing plate 10, one side wall of the sliding plate 12 is provided with a third through hole 15 along the length direction thereof, one side wall of the second through hole 11 is rotatably connected with a driving shaft 13, the other end of the driving shaft 13 extends to the outer part of the second through hole 11 through the third through hole 15 to be fixed with a rotating plate 14, the rotating plate 14 and the driving shaft 13 are vertically arranged, one side wall of the rotating plate 14 far away from the driving shaft 13 is connected with symmetrically arranged bolts, one side wall of the annular plate 9 is provided with slots along the length direction thereof, the bolts and the slots are clamped with each other, the outer side, and the gear 16 is in meshing transmission connection with the rack 17, guide holes are symmetrically formed in the side walls of the two sides of the annular plate 9, a guide rod 18 is slidably sleeved in each guide hole, and the other end of each guide rod 18 is fixed to the side wall of the pressing plate 10.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Example (b): the mounting plate 1 is fixedly mounted at a designated position through a bolt, a rotating plate 14 is rotated, the rotating plate 14 drives a driving shaft 13, the driving shaft 13 drives a gear 16 to rotate, the gear 16 is meshed with a rack 17 to drive a sliding plate 12 to move, the sliding plate 12 drives a pressing plate 10 to move, then a temperature sensor 8 is moved, the temperature sensor 8 penetrates through the inside of an annular plate 9 and a first through hole, then the rotating plate 14 is reversely rotated, the pressing plate 10 is close to the temperature sensor 8, the pressing plate 10 clamps the temperature sensor 8 of an IRTP model, then a bolt is inserted to fix the temperature sensor, the temperature is monitored in real time through the temperature sensor 8, when the temperature monitoring position is adjusted, a driving motor 3 is started, the driving motor 3 drives a rotating shaft 4 to rotate, the rotating shaft 4 drives a sliding block 5 to move up and down through thread transmission, the sliding block 5 drives a first connecting plate 6, the first connecting plate 6 drives, the second connecting plate 7 drives the temperature sensor 8 to move, the monitoring range of the temperature sensor 8 is adjusted, the design is simple and rapid, real-time monitoring can be carried out on the temperature, meanwhile, the monitoring position of the temperature sensor can be adjusted according to the use requirement, the practicability is improved, the temperature sensor can be rapidly installed and detached, the maintenance operation of a worker is convenient, and the convenience is improved.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The temperature monitoring device for the production of the zirconia-corundum fused bricks comprises a mounting plate (1) and is characterized in that a first groove (2) is formed in one side wall of the mounting plate (1), a sliding block (5) is connected to one side wall of the first groove (2) in a sliding manner, a threaded hole is formed in the top side wall of the sliding block (5) in the vertical direction, a driving motor (3) is fixed to the top side wall of the first groove (2) through bolts, a rotating shaft (4) is fixed to an output shaft of the driving motor (3) through a coupler, one end, far away from the driving motor (3), of the rotating shaft (4) penetrates through the threaded hole to be rotatably connected with the bottom side wall of the first groove (2), threads are formed in the outer side wall of the rotating shaft (4), the rotating shaft (4) is in threaded transmission connection with the sliding block (5), a first connecting plate (6) which is vertically arranged, one side lateral wall of keeping away from slider (5) of first connecting plate (6) is fixed with second connecting plate (7) of perpendicular setting, and first through-hole has been seted up to one side lateral wall of second connecting plate (7), and first through-hole inside is provided with temperature sensor (8), one side lateral wall that first connecting plate (6) were kept away from in second connecting plate (7) is fixed with the fixed block jointly, and one side lateral wall that second connecting plate (7) were kept away from to the fixed block is fixed with annular plate (9) jointly.

2. The temperature monitoring device for the production of the zirconia alumina fused brick according to claim 1, wherein the annular plate (9) is internally provided with symmetrically arranged pressing plates (10), one side wall of the annular plate (9) is provided with a second through hole (11), a sliding plate (12) is slidably sleeved in the second through hole (11), and one end of the sliding plate (12) extends to the outside of the second through hole (11) and is connected with the side wall of the pressing plate (10).

3. The temperature monitoring device for producing the zirconia alumina fused brick according to claim 2, wherein a third through hole (15) is formed in a side wall of the sliding plate (12) along the length direction of the sliding plate, a driving shaft (13) is rotatably connected to a side wall of the second through hole (11), the other end of the driving shaft (13) penetrates through the third through hole (15) and extends to the outside of the second through hole (11) to be fixed with a rotating plate (14), and the rotating plate (14) and the driving shaft (13) are vertically arranged.

4. The temperature monitoring device for the production of the zirconia alumina fused brick according to claim 3, wherein the side wall of the rotating plate (14) far away from the driving shaft (13) is connected with symmetrically arranged bolts, the side wall of one side of the annular plate (9) is provided with slots along the length direction, and the bolts and the slots are clamped.

5. The temperature monitoring device for producing the corundum-zirconia fused brick according to claim 4, wherein a gear (16) is sleeved on the outer side wall of the driving shaft (13) in a tight fit manner, a rack (17) is arranged on the side wall of one side of the third through hole (15) along the length direction of the third through hole, and the gear (16) is in meshing transmission connection with the rack (17).

6. The temperature monitoring device for producing the zirconia-corundum electrically fused brick according to claim 1, wherein symmetrically arranged guide holes are formed in the side walls of two sides of the annular plate (9), guide rods (18) are slidably sleeved in the guide holes, and the other ends of the guide rods (18) are fixed to the side walls of the pressing plate (10).