- Custom production according to customer request
- Diameter from 15 to 300 mm, axial distances from 17 to 210 mm, module from 0.5 to 10, shaft length up to 500 mm
- Material selection according to customer requirements (steel, bronze, fabric laminate or plastic)
- All process steps (turning, hobbing, annealing, flank grinding, grinding, measuring) from a single source
Worm Gear Sets
Our worm gear sets cover a wide range of applications. We demonstrate our years of experience and high level of capacity by producing more than 1 million worm gear sets every year in-house, most of which are created according to custom specifications.
Our catalog of worm gear sets in line with the Framo Morat standard have diameters ranging from 20 to 135 mm and axial distances of 17 to 80 mm. In addition, we offer custom worm gear sets with diameters of up to 300 mm and center distances of up to 210 mm.
The catalog of worm gear sets can generally be supplied (from our) warehouse in a wide selection of axial distances and gear ratios with fine degrees of differentiation. We can also calculate and produce customer-specific axial distances and gear ratios at the plant. We prefer to produce worm gear sets for right-handed users, but these sets can be designed for left-handed users on request.
We perform all major soft and hard machining steps in-house, including annealing in our own ovens. Thanks to extensive production depth, we are able to execute, even highly complex, machining tasks precisely according to customer expectations and in the highest quality. Learn more about it here.
The worms are case-hardened; the bore and worm flanks are ground. Standard worm gears are made from VL22, a copper-zinc alloy with aluminium, silicon and manganese additives. This is a special quality within the group CuZn40Al2 according to DIN 17660, developed for sliding purposes (new according to EN: CuZn37Mn3Al2PbSi). The aluminum content gives it very high chemical resistance properties.
Plastic worm gears
Owing to their poor thermal conductivity, plastic worm gears are only suitable for low sliding speeds of < 1.5 m/s and medium tooth flank loading. The worm must be hardened and must have ground flanks.
Plastic worm gears have around 60% of the torque capacity of comparable bronze worm gears (this applies for use with mineral grease).
Bronze worm gears
Cu Sn 12 DIN 1705
Relatively soft material with good wear resistance: suitable for high sliding speeds.
Cu Sn 12 Ni DIN 1705
Relatively soft material with very high wear resistance: suitable for very high sliding speeds.
CuAl10Fe3 Mn2 DIN 17665 / 17672
Relatively hard anti-friction materials for high loads and relatively low rotational speeds.
Please find more details at our Worm gear set catalog.
Self-locking is affected by the lead angle, the roughness of the flanks, the sliding speed, the lubricant and increases in temperature. Self-locking can be dynamic or static.
Dynamic self-locking: lead angle up to 3° with grease lubricant; lead angle up to 2.5° with synthetic oil lubricants.
Static self-locking: lead angle from 3° to 5° with grease lubricant; lead angle from 2.5° to 4.5° with synthetic oil lubricants.
No self-locking facility is available for lead angles over 4.5° or 5°.
Jarring and vibration can prevent gears from self-locking. Self-locking can also be adversely affected if sliding conditions are particularly good. This can be caused by a number of factors relating to the lubricant, sliding speed and loading. For this reason we are unable to assume any warranty obligations for self-locking.
- Installing the Worm Gear
The reference surface tolerances will determine the lateral positioning of the worm gears. The lateral tolerance “c” must not exceed 0.15 mm for any centre distance.
You can tell if the worm gear is in the correct axial position by checking the position of the tooth contact pattern when the gear wheel is installed. If possible the tooth contact pattern should be towards the run-out side. When the gear is turned in the other direction (reverse operation) the tooth contact pattern should be towards the centre.
The efficiency of the worm gear set generally depends on the following parameters:
- Lead angle of the worm
- Sliding speed
- Surface quality
- Installation conditions
The larger the centre distance, the greater the degree of efficiency. Sliding bearings are often used with gears with smaller centre distances to save space and reduce costs. The sliding bearings have higher coefficients of friction, which can have a considerable effect on the overall efficiency of the gear. Efficiency data can be obtained from the manufacturer or our catalogue.
Additional information to efficiency factors are available in our worm gear sets catalog.
- Helical Gearing
A helical gearing is a spur-type gearing which is inclined at the same angle as the lead angle of the worm. As the contact pattern is linear, a lower torque than that of a worm-type gearing is transmitted and the service life is reduced.
The information on this website was generated with the greatest possible care and checked for accuracy. No liability will be accepted for any inaccurate or incomplete data.
Catalog Worm Gear Sets
Center distance 17mm
2.25 – 80:1
8.85 – 24.78 In lbs
Center distance 22mm
3 – 40:1
19.47 – 51.33 In lbs
Center distance 25mm
4 – 50:1
45.14 – 82.3 In lbs
Center distance 31mm
2.5 – 100:1
89.39 – 122.94 In lbs
Center distance 33mm
3.5 – 75:1
89.39 – 188.52 In lbs
Center distance 35mm
2.78 – 90:1
58.4 – 226.58 In lbs
Center distance 40mm
6.75 – 90:1
223.004 – 411.56 In lbs
Center distance 50mm
4.25 – 69:1
300.9 – 1039.2 In lbs
Center distance 53mm
4.75 – 75:1
398.28 – 1247.9 In lbs
Center distance 63mm
6.1 – 70:1
787.7 – 2283.5 In lbs
Center distance 65mm
6.25 – 75:1
893.9 – 2549 In lbs
Center distance 80mm
6.75 – 80:1
1327.6 – 4620 In lbs
Customized worm gear sets are produced in various designs and materials according to customer specifications.
Framo Morat supplies customized gear sets in axial distances of 17 to 210 mm at a max worm gear diameter of 300 mm. If necessary, Framo Morat calculates the toothing data, defines materials and the surface treatment and provides consultation with respect to lubrication and torque loads.
For this purpose, there is a calculation program, which is oriented to the DIN standard. Framo’s 40 years of experience in manufacturing worm gear sets showed that our customers rely primarily on existing gear cutting tools, particularly when dealing with short delivery times and low unit quantities. As a result, the procedure must be checked on a case-by-case basis. To do so, you can contact us personally or use the request form.
The gear variety designed as a duplex worm gear set is especially suited for drives that require positioning at precise angles with high gear ratios. A plus factor is that the gearing backlash can be adjusted repeatedly. If after a longer period of operation the circumferential backlash increases, the gearing can be readjusted so that it is low backlash. For this purpose, the worm shaft is shifted axially in the gear housing by small increments. This is done, for instance, using shim rings when installing the fixed bearing or by means of adjusting screws in the housing cover. The duplex gearing is distinguished by tooth flanks with different helix angles. Axial adjustment of the worm shaft results in low backlash engagement of the worm tooth pitch with the teeth of the worm gear. Worm gear sets by Framo Morat that can be adjusted for low backlash are available from module 0.3 through module 8.
Duplex gearing is used, for instance, in rotary and swivel tables that position components for processing or for automated assembly. In addition, low backlash worm gearing sets optimize optical and mechanical instruments in measurement and medical technology. Because the gearings are adjustable, instruments, components to be measured and optics can be precisely positioned throughout their entire service life.