CN204298243U - A kind of transmission mechanism for glass tempering furnace - Google Patents

Abstract

The utility model relates to a kind of transmission mechanism for glass tempering furnace.It comprises glass roller-way and final drive shaft, and glass roller-way and final drive shaft are mutually vertical to be arranged, and also comprises the toothed synchronous wheel and tooth form synchronous belt that cooperatively interact, is provided with fillet inside the rib upper end of toothed synchronous wheel; This fillet can effectively reduce tooth form synchronous belt and toothed synchronous take turns between frictional dissipation.Toothed synchronous wheel comprises driving wheel and follower, and driving wheel is fixed on final drive shaft, and follower is fixed on glass roller-way, and driving wheel and follower are in transmission connection by tooth form synchronous belt; The center distance of driving wheel and follower is set to more than the twice of toothed synchronous wheel diameter.The utility model reasonable in design, solves the problem of complicated mechanism in glass tempering furnace in prior art; Be easy to produce, simple to operate; Failure rate of machinery is low, and easy to maintenance.

Description

A kind of transmission mechanism for glass tempering furnace

Technical field

The utility model relates to a kind of transmission mechanism, particularly a kind of transmission mechanism for glass tempering furnace.

Background technology

Toothed synchronous V belt translation is provided with the belt band of equidistant profile of tooth by an inner peripheral surface and has corresponding identical wheel and formed.It combines V belt translation, Chain conveyer and gear drive advantage separately.During rotation, to be meshed with the teeth groove of wheel by band tooth and to transmit power.

What in prior art, the transmission mechanism of glass tempering furnace adopted O type band or active band usually turns round to transmission to control glass roller bed rotation, because the coefficient of friction between O type band and belt wheel is less, although and coefficient of friction between active band and belt wheel is larger, but price is relatively high, therefore the two O type tape handler transmission of normal employing, by increasing the quantity of O type band with the frictional force increased and between belt wheel, strengthen the synchronous effect between each glass roller-way.

But, adopt two O type band after a period of operation, synchronous effect between each glass roller-way reduces comparatively obvious, after the mode that has fractional unit to adopt O type band to combine with tooth form synchronous belt, as as described in figure mono-, same glass roller-way (11) is fixed with an O type belt wheel (12) and two toothed synchronous wheel (13) respectively, this O type belt wheel is connected with the O type belt wheel transmission on final drive shaft, one of them toothed synchronous wheel is taken turns with the toothed synchronous on an adjacent glass roller-way and is in transmission connection by tooth form synchronous belt, another toothed synchronous wheel is taken turns with the toothed synchronous on an other glass roller-way and is in transmission connection by tooth form synchronous belt, adopt the synchronous axial system that this kind of scheme realizes between each glass roller-way.But adopt the complicated mechanism of this kind of mode, take place, the shortcomings such as troublesome maintenance.

Utility model content

The purpose of this utility model is to overcome above shortcomings in prior art, and provides a kind of structural design simple, reasonable, is convenient to the transmission mechanism for glass tempering furnace keeped in repair.

The technical scheme in the invention for solving the above technical problem is: a kind of transmission mechanism for glass tempering furnace, comprise glass roller-way and final drive shaft, described glass roller-way is arranged with described final drive shaft is mutually vertical, it is characterized in that: also comprise the toothed synchronous wheel and tooth form synchronous belt that cooperatively interact, inside the rib upper end of described toothed synchronous wheel, be provided with fillet; This fillet can effectively reduce tooth form synchronous belt and toothed synchronous take turns between frictional dissipation.Described toothed synchronous wheel comprises driving wheel and follower, and described driving wheel is fixed on final drive shaft, and described follower is fixed on described glass roller-way, and described driving wheel and follower are in transmission connection by described tooth form synchronous belt; The center distance of described driving wheel and follower is set to more than the twice of described toothed synchronous wheel diameter.Adopt this technical scheme that tooth form synchronous belt can be made normally to work in transmission process turning round, adopt tooth form synchronous belt to replace O type band of the prior art or active band, strengthen the synchronism between each glass roller-way.

Further, described toothed synchronous wheel of the present utility model also comprises oblique rib, and described oblique rib is located at the upper end of described rib, and described oblique rib tilts to described toothed synchronous wheel outside, and angle of inclination is less than or equal to 30 degree.Prevent tooth form synchronous belt from coming off from toothed synchronous wheel, when tooth form synchronous belt slides on oblique rib, automatically can slide back to the inside of toothed synchronous wheel.

Further, the height of described rib of the present utility model is more than or equal to the thickness of described tooth form synchronous belt.

The utility model compared with prior art, has the following advantages and effect: 1, overall construction design is simple, reasonable, solves the problem of complicated mechanism in glass tempering furnace in prior art; 2, be easy to produce, simple to operate; 3, adopt this technical scheme can effectively reduce the consumption of the energy, reach energy-saving effect; 4, failure rate of machinery is low, and easy to maintenance.

Accompanying drawing explanation

Fig. 1 is the structural representation of prior art.

Fig. 2 is the structural representation one of the utility model embodiment.

Fig. 3 is the structural representation two of the utility model embodiment.

Fig. 4 is the structural representation three of the utility model embodiment.

In accompanying drawing: 1 is glass roller-way, 2 is final drive shaft, and 31 is driving wheel, and 32 is follower, and 4 is tooth form synchronous belt, 5 ribs, 51 fillets, and 6 is oblique rib.

Detailed description of the invention

Below in conjunction with accompanying drawing, also by embodiment, the utility model is described in further detail, and following examples are that the utility model is not limited to following examples to explanation of the present utility model.

See Fig. 2, the present embodiment comprises mutual vertically disposed glass roller-way 1 and final drive shaft 2, the toothed synchronous cooperatively interacted wheel and tooth form synchronous belt 4.

Toothed synchronous wheel is made up of driving wheel 31 and follower 32, the toothed synchronous wheel be fixed on final drive shaft 2 is driving wheel 31, the toothed synchronous wheel be fixed on glass roller-way 1 is follower 32, driving wheel 31 and follower 32 are in transmission connection by tooth form synchronous belt 4, now tooth form synchronous belt 4 is in torsion form, when driving wheel 31 is less than the twice of toothed synchronous wheel diameter with the center distance of follower 32, tooth form synchronous belt 4 in working order under due to torsional direction larger, it is less that tooth form synchronous belt 4 and toothed synchronous take turns Contact area, easily produces skidding.In the present embodiment, driving wheel 31 and the center distance of follower 32 are set to the twice of toothed synchronous wheel diameter, tooth form synchronous belt 4 is working properly.

Participate in Fig. 3, if be only provided with rib 5 in the present embodiment, then the upper end of rib 5 is set to fillet near inboard portion, with reduce tooth form synchronous belt 4 operationally with the frictional dissipation of its generation, then the height of this rib 5 can be set to the thickness higher than tooth form synchronous belt 4, effectively can prevent tooth form synchronous belt 4 and toothed synchronous from taking turns and come off.

Participate in Fig. 4, if be also provided with oblique rib 6 in the present embodiment, oblique rib 6 is located at the upper end of rib, and oblique rib 6 tilts to toothed synchronous wheel outside, angle of inclination is 30 degree, also can be 10 degree or 20 degree, now the height of rib can be identical with the thickness of Timing Belt, in this case, the frictional dissipation of tooth form synchronous belt 4 and rib can be effectively reduced, when tooth form synchronous belt 4 operationally slides to oblique rib 6, automatically can slide back to toothed synchronous wheel inner, make work continue normally to carry out.

Although the utility model with embodiment openly as above; but it is also not used to limit protection domain of the present utility model; any technical staff being familiar with this technology, not departing from the change and retouching done in design of the present utility model and scope, all should belong to protection domain of the present utility model.

Claims (3)

1. the transmission mechanism for glass tempering furnace, comprise glass roller-way and final drive shaft, described glass roller-way is arranged with described final drive shaft is mutually vertical, it is characterized in that: also comprise the toothed synchronous wheel and tooth form synchronous belt that cooperatively interact, inside the rib upper end of described toothed synchronous wheel, be provided with fillet; Described toothed synchronous wheel comprises driving wheel and follower, and described driving wheel is fixed on final drive shaft, and described follower is fixed on described glass roller-way, and described driving wheel and follower are in transmission connection by described tooth form synchronous belt; The center distance of described driving wheel and follower is set to more than the twice of described toothed synchronous wheel diameter.

2. the transmission mechanism for glass tempering furnace according to claim 1, it is characterized in that: described toothed synchronous wheel also comprises oblique rib, described oblique rib is located at the upper end of described rib, and described oblique rib tilts to described toothed synchronous wheel outside, angle of inclination is less than or equal to 30 degree.

3. the transmission mechanism for glass tempering furnace according to claim 2, is characterized in that: the height of described rib is more than or equal to the thickness of described tooth form synchronous belt.