ES2301410B1 - WHEELS OF TOOTH. - Google Patents

Abstract

Denture wheels

The teeth wheels are gears for a gear, which are characterized by having the teeth, one of them, inside the wheel. This means that one of the wheels, the denture wheel itself, is formed by a metal circle that seems to have two plates. Among them are the opposite teeth of the two plates, which protrude laterally through the periphery of the interior of each plate. The other cogwheel, which has teeth on the sides of the outer periphery of the circle, will engage its teeth inside the denture wheel .

Description

Denture wheels

Object of the invention

The main objective of the present invention is to gain a few centimeters in the diameter of the cogwheel. To the extent that the teeth are located on the sides of the circle and meshed inside the other denture wheel , this allows for less length from the opposite ends of the two wheels when they are engaged, or also allows, in the same space, larger diameters of the cogwheels can be used, which may be necessary in some occasions to gain greater perimeter in the function of the cogwheel, which translates into greater drag force, perhaps, or in greater speed of rotation on the second wheel that engages with it, etc ...

Background of the invention

I don't know the background of a wheel with these characteristics. I only know the wheels that have the pineapples is the perimeter of the circumference, or the conical shaped wheels that serve to articulate a 90º axis, even the wheels that have the pineapples on the sides, but, which mesh with cogwheels with pineapples in the perimeter of the circle. The specific thing about the denture wheel is that its pinions are inside and the other wheel sinks into them, which means that, in sight, -from the side-, only one circumference is seen, that of the wheel of dentures , while the other has an invisible segment, as shown in figure 1.

Description of the invention

The Denture Wheel is characterized by being a cogwheel for use in a mechanical gear, which is formed by a circular metal body (1), which is quite wide. If we look at it frontally, -figure nº 2-, we will observe the right wheel, which seems to have two plates (1), with teeth (2) facing each other. To his left is another drawing that shows the metal body (3) of the other wheel that has the teeth (4) on the outside, on the outer periphery of the circle. The teeth (4) of this second wheel (3) on the left will be those that engage inside the denture wheel of the drawing on the right. The denture wheel (1, 2) can be formed by a single piece or by two pieces. In this second case, it would be enough to make two equal plates, with the teeth on the side periphery of only one side. Then, the two plates would be joined by a pair of screws, facing the teeth inside. Each plate would have a more bulky inner circular zone, depending on the size of the teeth. As for the practical advantages of this denture wheel, it should be noted that it allows the diameter of the wheel to be larger using the same space, which implies advantages such as transmitting a faster turning speed to the second wheel, for example, since the wheel has a greater perimeter, or a greater force. If we assume that the two wheels are commonly known, -with the radial pinions on the periphery of the Perimeter of the circle-, and each have a total diameter, -including the pinions-, of 14 centimeters, the total Perimeter of each wheel would be of: (P = 2 \ 3'1416 \ cdot 7 = 43'98 centimeters), and the total distance between the opposite ends of the two wheels would be 26 centimeters , when the teeth have a size of 2 cm . On the other hand, when one of the wheels is engaged in a denture wheel , the perimeter of each wheel would be; (P = 2 \ cdot 3'1416 \ cdot 8 = 50'26 centimeters), which is a significant difference of more than 6 cm, when transmitting a greater turn to the second wheel. Date of the invention:
6.XII.06.

Description of the drawings

Figure 1: Side view of a cogwheel, -the one on the left-, with the pinions on the side periphery of the circle, engaged in a denture wheel , -the one on the right-.

Figure 2: Front view of the two front wheels showing that the pinions of the left wheel are on the outer periphery of the metal body, while those of the denture wheel are facing inside, between the two dishes.

Figure 3: Perspective view of the position of the two wheels before engaging the one on the left in the the right.

Figures nº 1-3

one). Plate or metal body of the denture wheel

2). Teeth of the denture wheel

3). Circular gearwheel body with the outdoor pineapples

4). Cogwheels or cogwheel teeth.

Description of a preferred embodiment

The Denture Wheel is characterized as a gear wheel with a shape different from the wheels of known radial pinions that have comma teeth if they were extensions or radii of the diameter of the circular plate. The teeth (2) of the denture wheel would not be extensions of the spokes, but these, upon reaching the periphery of the circle (1) would bend at an angle of 90 ° inwards, or towards the side of the plane of the circle or metal body. In this way, the denture wheel would appear to have two plates (1) with two rows of teeth folded inwards, facing between the plates. The wheel (3, 4) that would engage with it, would have the teeth, (4), - also bent at a 90 degree angle to the radii of the circular metal body (3) -, but, in this case, they would bend towards the outside of the piano of the circle, so that these pineapples would occupy the gaps that were between the teeth or pineapples (2) of the denture wheel . The latter can be formed of a single piece, or of two equal pieces that would later be joined by a pair of screws. In this case of being formed by two plates, the internal area of each plate (1) would have a bulge, slightly larger than that of the teeth of the plate, which would allow the teeth not to touch, leaving between them a hollow that would be destined to be occupied by the metal body of the second wheel (3, 4) that meshed with it.

Claims (2)

1. Denture wheel, characterized by being a gear wheel with a shape different from the wheels of known radial pinions, which have the teeth as if they were the extensions or the radii of the diameter of the circular plate. The teeth (2) of the denture wheel would not be extensions of the spokes, but these, upon reaching the periphery of the circle (1) would bend at an angle of 90 ° inwards, or towards the side of the plane of the circle or metal body. In this way, the denture wheel would appear to have two plates (1) with two rows of teeth bent inwards, facing each other between the plates. The wheel (3, 4) that would engage with it, would have the teeth, (4), - also bent at an angle of 90 degrees with respect to the radii of the circular metal body (3) - but, in this case, they would fold outward from the plane of the circle. 2. Denture wheel (1, 2), according to claim one, characterized by being formed by two equal pieces that would then be joined by a pair of screws. In this case, the internal area of each plate (1) would have a bulge, slightly larger than that of the teeth of the plate, so that the teeth would not touch, leaving a gap between them.