CN203625227U - Electric device for roll compensation of ceramic roll of toughening furnace - Google Patents

Abstract

The utility model discloses an electric device for the roll compensation of a ceramic roll of a toughening furnace, which comprises a toughening furnace body, a ceramic roll and a manual compensation device, wherein the ceramic roll and the manual compensation device are arranged on the toughening furnace body, and the input end of the manual compensation device is provided with an input rotating shaft. The electric device is characterized in that a motor is arranged outside the toughening furnace body, the motor is provided with a speed reducer, and the speed reducer is linked with the input rotating shaft through a turning mechanism and a transmission mechanism; the turning mechanism is a bevel gear pair, and a driving gear of the bevel gear pair is fixedly sleeved on an output shaft of the speed reducer; the transmission mechanism comprises a driving pulley and a driven pulley connected with the driving pulley by a belt, the driving pulley is connected with a driven gear of the bevel gear pair, and the driven pulley is connected with the input rotating shaft. The electric device disclosed by the utility model is an electric device for the roll compensation of a ceramic roll of a toughening furnace, which is simple in structure, and can effectively drive the continuous normal operation of the ceramic roll without damages in the process of sudden power failure or malfunctioning of the driving motor.

Description

Annealing furnace ceramic roller roll compensation electric device

Technical field

The utility model belongs to field of glass production technology, specifically, relates to a kind of annealing furnace ceramic roller roll compensation electric device.

Background technology

Existing annealing furnace is mainly drive and heat with power supply, when body of heater work, to keep high-temperature service, owing to being high-temperature service, therefore, annealing furnace need to keep normal power supply and running, in the course of the work, when unexpected power failure or ceramic roller drivingmotor break down, annealing furnace shuts down, and glass is also stored in the condition of high temperature in body of heater, can make ceramic roller one side be heated and bring abnormal flexural deformation, cause ceramic roller entirety to be scrapped, cause waste and financial loss.For this reason, some producers are initiatively increasing hand-operated mechanism in transmission mechanism at body of heater and air grid, in the time having a power failure, need the glass in glass in artificial hand crank stove or air grid normally to come out of the stove, and traditional like this manual operation expends a large amount of manpowers; Or connecting a pneumatic motor or electric motor on the basis of drivingmotor, or directly drivingmotor is powered, but because drivingmotor is larger, driving power demand is large, directly to drivingmotor power supply or drive drivingmotor, need power input, can waste so a large amount of electric power resources.

Prior art deficiency: power failure or ceramic roller drivingmotor break down can not operate time suddenly, and ceramic roller is protected, needs manpower shake or drives drivingmotor to continue running, takes time and effort.

Utility model content

For solving above technical problem; it is a kind of having a power failure suddenly or ceramic roller electric motor breaks down can not operate time that the purpose of this utility model is to provide; directly drive ceramic roller to rotate by external electric motor, the annealing furnace ceramic roller roll compensation electric device of protection ceramic roller.

The utility model object is achieved in that a kind of annealing furnace ceramic roller roll compensation electric device, comprise annealing furnace body, be arranged on ceramic roller and manual compensation device on annealing furnace body, the input terminus of this manual compensation device is provided with input turning axle, its key is: described annealing furnace body is provided with electric motor outward, described electric motor is by dynamotor or the power supply of other external sources, described electric motor is provided with speed reduction unit, and this speed reduction unit is by side steering and transmission rig and the interlock of described input turning axle; Described side steering is bevel gear pair, and the driving toothed gear of this bevel gear pair is solidly set on the output shaft of described speed reduction unit; Described transmission rig comprises driving pulley and the driven pulley being connected by belt, and described driving pulley is connected with the follower gear of described bevel gear pair, and described driven pulley is connected with described input turning axle.

Adopt said structure, in the time suddenly having a power failure or drivingmotor decommissions, directly drive ceramic roller to rotate by external electric motor, prevent that ceramic roller is heated irregular, cause damage; The speed reduction unit arranging can reduce ceramic roller speed of rotation, prevents that ceramic roller rotation is too fast, glass is lost and be subject to thermal effect; This motor power (output) is less than drivingmotor, and external starts function effectively to electric motor power supply, does not expend too much electric power resource; Motor output shaft is parallel to annealing furnace body sidewall, and electric motor can be horizontal not old on passageway, convenient operation person's walking.

The follower gear of above-mentioned bevel gear pair is provided with rotating shaft, and the right-hand member of this rotating shaft is fixedly connected with the follower gear of described bevel gear pair, in described rotating shaft, is arranged with bearing; The left end of described rotating shaft is provided with first hole, and described driving pulley middle part is all fixed with the first bull stick, and the cross section of this first bull stick is square, and this first bull stick inserts in described first hole.

Adopt said structure, the rotating shaft of setting and bearing are convenient to bevel gear pair and are driven driving pulley to rotate, and first hole is set in rotating shaft, and correspondence arranges the first bull stick on driving pulley, and the first bull stick inserts square hole, is convenient to the dismounting of driving pulley.

On above-mentioned input turning axle, be arranged with axle sleeve, this axle sleeve is fixed on the sidewall of described annealing furnace body, on described input turning axle, have second hole, this second hole is just to the sidewall of described annealing furnace body vertical with it, described driven pulley middle part is fixed with the second bull stick, the cross section of this second bull stick is square, and this second bull stick inserts in described second hole.

Adopt said structure, driven pulley is arranged on input turning axle by the second bull stick, is convenient to the dismounting of driven pulley.

Output shaft one side of above-mentioned electric motor is provided with Transmission Room, and described Transmission Room is fixedly connected with described electric motor by flange, and described speed reduction unit and bevel gear pair are all positioned at described Transmission Room, and described bearing is fixedly installed on the sidewall of described Transmission Room.

Adopt said structure, when mounted, only Transmission Room need to be arranged on described electric motor, the fast convenience of dismounting, and be convenient to movement and deposit and take care of, part can not be lost.

Above-mentioned manual compensation device comprises belt and the first belt pulley, and described ceramic roller is provided with the second belt pulley, and described the first belt pulley is by belt and described the second belt pulley interlock, and described the first belt pulley is fixedly connected with described input turning axle.

Adopt said structure, manual compensation device directly, by belt and belt pulley and ceramic roller interlock, is convenient to the driving of external electric motor to ceramic roller.

Beneficial effect:

The utility model is a kind of annealing furnace ceramic roller roll compensation electric device, simple in structure, in the time suddenly having a power failure or drivingmotor breaks down, can effectively drive ceramic roller to continue normal operation, does not damage.

Accompanying drawing explanation

Fig. 1 is the structural representation of utility model;

Fig. 2 is the assembling schematic diagram of Fig. 1 centre bearer 7 and rotating shaft 8;

Fig. 3 is the assembling schematic diagram of inputting turning axle 4 and axle sleeve 4b in Fig. 1.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail:

As shown in Figure 1: a kind of annealing furnace ceramic roller roll compensation electric device, formed by annealing furnace body 1, the ceramic roller 2 and the manual compensation device 3 that are arranged on annealing furnace body 1, described manual compensation device 3 is made up of belt 3a and the first belt pulley 3b, described ceramic roller 2 is provided with the second belt pulley 2a, described the first belt pulley 3b is by belt 3a and described the second belt pulley 2a interlock, and described the first belt pulley 3b is fixedly connected with described input turning axle 4.

Described annealing furnace body 1 is outer is provided with electric motor 5, and the output shaft of this electric motor 5 is parallel to described annealing furnace body 1 sidewall, and described electric motor 5 is provided with speed reduction unit 5a, and this speed reduction unit 5a links by side steering and transmission rig and described input turning axle 4; Output shaft one side of described electric motor 5 is provided with Transmission Room 11, and described Transmission Room 11 is fixedly connected with described electric motor 5 by flange.

Described side steering is bevel gear pair 6, and described bevel gear pair 6 and speed reduction unit 5a are all positioned at described Transmission Room 11, and the driving toothed gear of this bevel gear pair 6 is solidly set on the output shaft of described speed reduction unit 5a; Described transmission rig is made up of with the driven pulley 10 being connected by belt driving pulley 9, and described driving pulley 9 is connected with the follower gear of described bevel gear pair 6, and described driven pulley 10 is connected with described input turning axle 4.

As shown in Figure 2, the follower gear of described bevel gear pair 6 is provided with rotating shaft 8, and the right-hand member of this rotating shaft 8 is fixedly connected with the follower gear of described bevel gear pair 6, in described rotating shaft 8, is arranged with bearing 7, and this bearing 7 is fixedly installed on the sidewall of described Transmission Room 11; The left end of described rotating shaft 8 is provided with first hole 8a, and described driving pulley 9 middle parts are all fixed with the first bull stick 9a, and the cross section of this first bull stick 9a is square, and this first bull stick 9a inserts in described first hole 8a.

As shown in Figure 3, on described input turning axle 4, be arranged with axle sleeve 4b, this axle sleeve 4b is fixed on the sidewall of described annealing furnace body 1, on described input turning axle 4, have second hole 4a, this second hole 4a is just to the sidewall of described annealing furnace body 1 vertical with it, described driven pulley 10 middle parts are fixed with the second bull stick 10a, and the cross section of this second bull stick 10a is square, and this second bull stick 10a inserts in described second hole 4a.

Claims (5)

1. an annealing furnace ceramic roller roll compensation electric device, comprise annealing furnace body (1), be arranged on ceramic roller (2) and manual compensation device (3) on annealing furnace body (1), the input terminus of this manual compensation device (3) is provided with input turning axle (4), it is characterized in that: the outer electric motor (5) that is provided with of described annealing furnace body (1), described electric motor (5) is provided with speed reduction unit (5a), and this speed reduction unit (5a) is by side steering and transmission rig and described input turning axle (4) interlock; Described side steering is bevel gear pair (6), and the driving toothed gear of this bevel gear pair (6) is solidly set on the output shaft of described speed reduction unit (5a); Described transmission rig comprises driving pulley (9) and the driven pulley being connected by belt (10), described driving pulley (9) is connected with the follower gear of described bevel gear pair (6), and described driven pulley (10) is connected with described input turning axle (4).

2. annealing furnace ceramic roller roll compensation electric device according to claim 1, it is characterized in that: the follower gear of described bevel gear pair (6) is provided with rotating shaft (8), the right-hand member of this rotating shaft (8) is fixedly connected with the follower gear of described bevel gear pair (6), is arranged with bearing (7) in described rotating shaft (8); The left end of described rotating shaft (8) is provided with first hole (8a), and described driving pulley (9) middle part is all fixed with the first bull stick (9a), and the cross section of this first bull stick (9a) is square, and this first bull stick (9a) inserts in described first hole (8a).

3. annealing furnace ceramic roller roll compensation electric device according to claim 1 and 2, it is characterized in that: on described input turning axle (4), be arranged with axle sleeve (4b), this axle sleeve (4b) is fixed on the sidewall of described annealing furnace body (1), on described input turning axle (4), have second hole (4a), this second hole (4a) is just to the sidewall of described annealing furnace body (1) vertical with it, described driven pulley (10) middle part is fixed with the second bull stick (10a), the cross section of this second bull stick (10a) is square, this second bull stick (10a) inserts in described second hole (4a).

4. annealing furnace ceramic roller roll compensation electric device according to claim 3, it is characterized in that: output shaft one side of described electric motor (5) is provided with Transmission Room (11), described Transmission Room (11) is fixedly connected with described electric motor (5) by flange, described speed reduction unit (5a) and bevel gear pair (6) are all positioned at described Transmission Room (11), and described bearing (7) is fixedly installed on the sidewall of described Transmission Room (11).

5. annealing furnace ceramic roller roll compensation electric device according to claim 4, it is characterized in that: described manual compensation device (3) comprises belt (3a) and the first belt pulley (3b), described ceramic roller (2) is provided with the second belt pulley (2a), described the first belt pulley (3b) is by belt (3a) and described the second belt pulley (2a) interlock, and described the first belt pulley (3b) is fixedly connected with described input turning axle (4).

Images