RU88851U1 - WORM-GEAR - Google Patents

Abstract

1. A worm gear used in an antenna rotary device and rotated by a transmission mechanism for driving a connecting tubular element of said antenna rotary device to adjust an angle of a parabolic antenna attached to said antenna rotary device, said worm gear including a housing, a worm mounted in said housing and rotated by an external gear and a worm gear engaged with said worm and considered connected to the connecting tubular element of said rotary antenna device, wherein said worm wheel includes a metal axis articulated with said connecting tubular element of said rotary antenna device, a plastic gear mounted on said metal axis and engaged with said worm, and a reinforcing metal plate embedded in said plastic gear and rigidly connected to said metal axis to provide rotation the aforementioned metal axis together with said plastic gear. ! 2. The worm gear according to claim 1, wherein said reinforcing metal plate is welded to said metal axis. ! 3. The worm gear according to claim 1, wherein said axis has a grooved portion extending over the entire circumference of the axis; said reinforcing metal plate is provided with a mounting hole worn on said metal axis by press fit, and a number of teeth located on the periphery around the mounting hole and included

Description

BACKGROUND

1. The scope of the invention

The present invention relates to a worm gear used in an antenna rotator for adjusting the angular position of a parabolic antenna, in particular a worm gear whose worm gear includes a metal axis, a plastic gear mounted on an axis, and a reinforcing metal plate embedded in a plastic gear and rigidly connected to a metal axis.

2. Description of analogues

A satellite dish, as a rule, is equipped with a rotary device for adjusting the reception angle of the parabolic antenna signal and fixing it in a calibrated position. The rotary device is provided with a worm gear for controlling the rotation of the connecting tubular element to which the parabolic antenna is mounted. The worm gear includes a worm and a worm wheel. The worm and the worm wheel are mounted inside the antenna rotator and are engaged with each other. The gear of the worm wheel is made of plastic. However, the axis of the worm wheel is made of metal. Since the axis of the worm wheel has a hardness higher than the gear of the worm wheel, the inner diameter of the gear may become damaged when the axis undergoes increased resistance, for example, when the parabolic antenna is subjected to a strong wind load while adjusting its angular position, which will lead to idle gear rotation. For this reason, it is desirable to create a worm gear that eliminates this problem.

SUMMARY OF THE INVENTION

This invention was created taking into account the above circumstances. Therefore, the main objective of the present invention is the creation of a worm gear, which is characterized by increased adhesion between the axis and the gear of the worm gear, providing transmission of the prescribed rotation.

To achieve this and other objectives of the present invention, this worm gear includes a housing, a worm mounted inside the housing and connected to an external gear, and a gear engaged with the worm and articulated with a tubular connecting element that controls the angle of the parabolic antenna. The worm wheel includes a metal axis articulated with a connecting tubular element, a plastic gear mounted on the metal axis and engaged with the worm, and a reinforcing metal plate embedded in the plastic gear and rigidly fixed on the metal axis to allow rotation of the metal axis together with the plastic gear without idling.

Further, the axis has a grooved portion extending over the entire circumference of the axis. The reinforcing metal plate is provided with a mounting hole worn on the metal axis along the press fit, and a series of teeth located around the periphery around the mounting hole and engaged with the grooved portion of the axis.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a side view illustrating the worm gear used in the rotary device of the antenna in accordance with the present invention.

Figure 2 - spatial image with a spatial separation of the parts of the worm gear in accordance with the present invention.

Figure 3 - three-dimensional image of the node constituting the essence of the present invention, before closing the worm gear housing.

4 is a schematic illustration of one of the elements of the present invention, illustrating the coupling device between the reinforcing metal plate and the axis.

5 is a side view of one of the elements of the present invention, illustrating the coupling device between the reinforcing metal plate and the axis.

Fig.6 is a view in section in an enlarged scale along the line aa 'of Fig.3.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The worm gear in accordance with the present invention (FIGS. 1-3) includes a housing 1, a worm wheel 2 and a worm 3.

The housing 1 is provided with an inner wall 12 surrounding the cavity 10, designed to accommodate the worm wheel 2 and the worm 3, as well as an opening 11 located on one side of the transmission between the cavity 10 and the cavity outside of the housing 1, intended for insertion of the connecting tubular element 6 in order to articulate it with a worm wheel 2.

The worm wheel 2 includes an axis 21 made of metal, a gear 22 molded from plastic and mounted on an axis 21, and a reinforcing metal plate 23 embedded in the gear 22 and fixed on an axis 21 (see also FIG. 6). The axis 21 at its one end is articulated with a connecting tubular element 6, an inserted hole 11 of the housing 1.

The worm 3 includes a worm screw 31 engaged with the gear 22 of the worm wheel 2, a drive head 33 fixedly mounted at one end of the worm screw 31, and a bearing housing 32 axially articulated with the second end of the worm screw 31 to slide in. The drive head 33 of the worm 3 is connected to the transmission mechanism 5, so that the rotation of the worm screw 31 is carried out through the control of the transmission mechanism 5.

During installation, the worm wheel 2 and the worm 3 located in the cavity 10 inside the housing 1 are engaged with each other, and the axis 21 of the worm wheel 2 is connected to the connecting tubular element 6 inserted into the hole 11 of the housing 1. Next, the bearing housing 32 the worm 3 is fixed relative to one of two opposite lateral inner walls 12 of the housing 1, and the drive head 33 of the worm 3 is attached to the transmission mechanism 5.

As shown in FIGS. 4-6, the reinforcing metal plate 23 is embedded in the gear 22 and fixed on the axis 21. The metal plate 23 can be fixed on the axis 21 by welding or press fit. According to a preferred embodiment of the present invention, the reinforcing metal plate 23 is fixed to the axis 21 by means of a press fit. Other means of fixing the reinforcing metal plate 23 on the axis 21 can be used.

As shown in the drawings, axis 21 has a corrugated portion 211 extending over the entire circumference of the axis; the reinforcing metal plate 23 is provided with a mounting hole 231 in contact with the axis 21 and a series of teeth 232 located around the mounting hole 231 and engaged with the grooved portion 211 of the axis 21. As described above, the reinforcing metal plate 23 is embedded in the gear 22. By means of a hard the connection of the reinforcing metal plate 23 with the axis 21 of the gear 22 can be driven to directly rotate the axis 21, preventing the axis 21 from slipping.

In addition, the reinforcing metal plate 23 is provided with a certain number of through holes 233 located around the mounting hole 231, as well as a certain number of protrusions 234 made along its circular edge. Due to the presence of through holes 233 and protrusions 234 in the design of the reinforcing metal plate 23, the plastic material fills the voids in the through holes 233 and between each two adjacent protrusions 234, enhancing the adhesion between the gear 22 and the reinforcing metal plate 23.

During operation of the transmission mechanism 5, which drives the worm 3, the latter drives the gear 22 of the worm wheel 2, thereby causing the axis 21 to rotate the connecting tubular element 6 in order to adjust the angle of the parabolic antenna 7 coupled to the connecting tubular element 6.

As indicated above, the present invention provides a worm gear consisting of a housing 1, a worm wheel 2 and a worm, the worm wheel 2 including an axis 21 articulated with a connecting tubular member 6 that controls the angle of the parabolic antenna 7, a plastic gear 22 rotated by the worm 3 and a reinforcing metal plate 23 embedded in the gear 22 and rigidly connected to the axis 21 to rotate the axis 21 and the connecting tubular element 6 when the worm 3 is driven by the transmission mechanism 5 with integer th driving the rotation of the pinion 22.

Although a specific embodiment of the invention is described herein for illustrative purposes, various modifications and improvements to the device may be made without departing from the spirit and scope of the invention. Accordingly, this invention should not be limited by anything other than the attached claims.

Claims (5)

1. A worm gear used in an antenna rotary device and rotated by a transmission mechanism for driving a connecting tubular element of said antenna rotary device to adjust an angle of a parabolic antenna attached to said antenna rotary device, said worm gear including a housing, a worm mounted in said housing and rotated by an external gear and a worm gear engaged with said worm and considered connected to the connecting tubular element of said rotary antenna device, wherein said worm wheel includes a metal axis articulated with said connecting tubular element of said rotary antenna device, a plastic gear mounted on said metal axis and engaged with said worm, and a reinforcing metal plate embedded in said plastic gear and rigidly connected to said metal axis to provide rotation the aforementioned metal axis together with said plastic gear. 2. The worm gear according to claim 1, wherein said reinforcing metal plate is welded to said metal axis. 3. The worm gear according to claim 1, wherein said axis has a grooved portion extending over the entire circumference of the axis; said reinforcing metal plate is provided with a mounting hole worn on said metal axis through a press fit and a number of teeth located around the periphery around the mounting hole and engaged with a grooved portion of said axis. 4. The worm gear according to claim 1, wherein said reinforcing metal plate is provided with a certain number of fastening through holes; said plastic gear is molded onto said reinforcing metal plate of plastic material filling said fastening through holes. 5. The worm gear according to claim 1, wherein said reinforcing metal plate is provided with a certain number of protrusions made along its peripheral edge; said plastic gear being molded onto said reinforcing metal plate of plastic material filling voids between each two adjacent protrusions of said reinforcing metal plate.