Motorized door operators are known which include an electric motor driving a final output shaft by way of a belt or chain drive and intermediate shafts interposed the motor output shaft and the final output shaft. Depending on the type of door to be driven by the operator and the location of the operator, a relatively complex speed reduction drive train may be interposed an intermediate shaft and the final output shaft.
In all events, once a motor driven door operator of the general type discussed herein is mounted in its working position, it is often difficult to gain access to the operator for servicing or for replacement of wear items, such as endless drive belts. With conventional door operators, the motor support structure or an intermediate shaft is adjustable to adjust tension for and to replace endless drive belts. This adjustment or replacement activity is difficult to carry out when door operators are mounted high above the floor and not near any support structure which can be relied on to provide access by servicing personnel. Moreover, belt tension adjustment is subject to error which can cause premature belt and/or bearing failure. Accordingly, there has been a need to provide a door operator wherein the motor support means is not required to be moved nor is there any requirement to move an intermediate shaft driven by the motor output shaft by way of an endless belt. However, an improved overall drive mechanism arrangement, together with the provision of a stretchable endless drive belt in the mechanism drive train with belt drive pulleys located at fixed drive shaft centers, is provided by the present invention.
The present invention provides an improved motorized door operator of a type which includes a drive motor and at least one intermediate or final output shaft driven by the motor by way of a stretchable endless drive belt.
In accordance with one aspect of the present invention, a motorized door operator is provided with opposed support plates, a drive motor mounted on at least one of the support plates and therebetween and an intermediate shaft supported by the support plates at a fixed distance from the motor and drivenly connected to the motor by way of a stretchable endless drive belt.
In accordance with another aspect of the present invention, a motorized door operator is provided which includes an improved arrangement of drive mechanism, including intermediate and final output shafts, a drive train interconnecting the shafts and drive mechanism connected to a limit switch mechanism. The particular drive mechanism for the operator of the present invention is more easily and quickly assembled, initially, and more easily and quickly serviced if belt replacement is required, without requiring adjustment of the motor output shaft axis of rotation with respect to an intermediate shaft or the operator final output shaft.
Those skilled in the art will further appreciate the advantages and superior features of the invention upon reading the detailed description which follows in conjunction with the drawings.
In the description which follows, like parts are marked throughout the specification and drawings with the same reference numerals, respectively. The drawings may not be to scale and certain features may be shown in generalized or somewhat schematic form in the interest of clarity and conciseness.
Referring to
The operator 10 also includes an electric drive motor 22 supported between the frame plates 12 and 14 and supported on the frame plate 12 by spaced apart fasteners 24, see
Motor 22 is drivingly connected to a belt drive pulley 42, see
As shown in
As shown in
By providing the endless belt 80 drivingly interconnecting the motor output shaft 26 with an intermediate or output shaft 50 for the operator 10, the location of the motor 22 may remain fixed with respect to the frame plates 12 and 14 and the bearing support structure for the shaft 50 may also remain fixed which is the case for the operator 10. Those skilled in the art will appreciate that with the complexity of the operator drive mechanism, including the motor 22 and its output shaft, the intermediate shaft 50 and the final drive shaft 52 that to make these shafts adjustable with respect to frame 11 would be unnecessarily complicating and burdensome to assemblers and service technicians. In fact, with the typical mounting arrangement of a door operator, such as the operator 10, access to the operator for making adjustments or repairs is often difficult and somewhat hazardous for service personnel. Accordingly, the need to minimize any assembly, adjustment or replacement work with regard to a wear item, such as a flexible drive belt, is important.
The complexity of operators similar to the operator 10, may be recognized by viewing
Accordingly, the operator 90 provides an output shaft 104 which is of substantially reduced rotative speed relative to the rotational speed of motor 22 and the complexity of the drive mechanism including the shafts 92 and 104 and the mechanism interconnecting the shafts is such that the mounting positions of these shafts cannot be easily adjusted. Shaft 92 is fixed with respect to frame plates 12 and 14 and is mounted in bearings 46, and shaft 104 is mounted in suitable bearings 49 similar to bearings 48 but of larger bore capacity. Bearings 49 are mounted on the respective frame plates 12 and 14 in openings 49a, see
Referring now to
Motor 22a also includes a rotatable output shaft 26b having a belt drive pulley 42 mounted thereon. A modified intermediate shaft 50b is supported in bearings 46 and in a fixed position on frame plates 12a and 14a. Intermediate shaft 50b is adapted to support a drive pulley 54 in the same manner as for the operator 10. A brake band 30a is engageable with a brake drum 28a also generally in the same manner as for the operator 10. Brake band 30a is connected to a movable arm 32a and to a solenoid actuator 38a. Actuator 38a and brake arm 32a are mounted on a suitable support plate 126 which is supported by motor 22a. A coil spring 36a is also supported by plate 126 and is operable to bias the arm 32a to rotate about pivot 34a to engage the brake band to provide braking action for the motor output shaft 26b.
The distance between the centers of pulleys 42 and 54 is fixed by the fixed axes of rotation of the shafts 26b and 50b, as indicated by axes 26a and 50a. Again, as with the operators 10 and 90, the complexity of the transmission between intermediate shaft 50b and output shaft 52b of the operator 120 is such that the transmission power train is not adapted for ease of adjusting the position of the shafting. The utilization of belt 80, which is trained around pulleys 42 and 54 of operator 120, is advantageous. Additional complexity of the operator 120 is provided by a chain hoist mechanism 128 suitably mounted on one end of shaft 50b opposite the end which includes the adjustment nuts 60 and the torque limiting clutch biasing spring 58. Bearings 46 and 48 support the shafts 50b and 52b as illustrated in a manner similar to the arrangement for the operator 10.
Those skilled in the art will appreciate that the overall arrangement of the operators 10, 90 and 120 is advantageous with respect to construction and use. Conventional engineering materials and practices may be used to fabricate and operate the operators 10, 90 and 120 and a commercially available and advantageous drive belt 80 may be utilized in connection with assembly and repair of the operators, when required. Although preferred embodiments of the invention have been described in detail herein, those skilled in the art will recognize that various substitutions and modifications may be made without departing from the scope and spirit of the appended claims.
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2670065 | Stevens, Jr. | Feb 1954 | A |
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4822324 | Georget | Apr 1989 | A |
4900294 | Schneeberger | Feb 1990 | A |
4977704 | Koenig | Dec 1990 | A |
5579878 | Hsieh | Dec 1996 | A |
5839555 | Hsieh | Nov 1998 | A |
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20030221929 | Chen et al. | Dec 2003 | A1 |
Number | Date | Country | |
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20060265956 A1 | Nov 2006 | US |