NO161316B - ANALOGY PROCEDURE FOR THE PREPARATION OF THERAPEUTICALLY ACTIVE CARBOXAMIDOGUANIDINES. - Google Patents

Description

durable, two qualities that cannot always be reconciled. Durability is necessary when you take into account that devices of this type hardly receive the inspection and maintenance that mechanisms of this nature should receive.

The main purpose of the present invention is therefore to provide a movement mechanism which gives options for choosing between the two movements mentioned, while the mechanism does not need any maintenance or inspection, and also has such a high degree of efficiency that the life of the batteries is significantly increased. The movement mechanism should also be light and easy to produce, so that it can be replaced if necessary.

These and other purposes are fulfilled by the present invention in that, instead of gears which must be brought into and out of mesh with each other and instead of other couplings as moving parts, there is only a small crank and a series of impact surfaces which are positioned so that, when they are hit of the crank, sets the shaft or rod carrying the toothbrush in one of the two previously described movements, while the other of the two movements occurs when the crank rotates in the opposite direction.

The invention thus relates to a movement mechanism which can set a shaft or rod in a reciprocating motion or in a tilting motion according to choice, driven by an electric motor and especially intended for electric toothbrushes where the motor drives a crank which is arranged to cooperate with abutment surfaces on the shaft , and it is essentially characterized in that a pair of surfaces is designed to produce one of the aforementioned movements when the crank rotates in one direction, while another pair of surfaces at an angle to the former is designed to produce the other of the said movements when the crank rotates the opposite way.

Another feature of the invention is that the pairs of abutment surfaces are formed by colliding side surfaces of lugs protruding on the axle, one surface in a pair being on the same lug as a surface in the other pair, and furthermore, it is a distinctive feature of the invention that it comprises a box-shaped body arranged on the shaft which on the outside of the bottom has the protruding knobs in two diagonally opposite corners.

A further characteristic consists in the fact that a square control body whose length corresponds to the cavity and whose width is smaller than this is placed in the cavity of the box, so that the box-shaped body can move back and forth on the control body across its longitudinal direction, or carry out a rocking movement about an axis that is parallel to the longitudinal axis of the control body, and it is also advantageous that the control body is rotatable in the cavity of the box to change the type of movement.

A very suitable embodiment is characterized by the fact that an operating button for turning the steering body is attached to a switch for reversing the motor's direction of rotation, at the same time as setting the steering body.

In order for the invention to be easier to understand, in the following an embodiment will be described in more detail with reference to the drawing, where

fig. 1 shows a section through a motor-driven toothbrush where the movement mechanism is made according to the invention,

fig. 2 shows a detail of the movement mechanism,

fig. 3 shows the same detail as fig. 2 months

on the other hand,

fig. 4 shows the same detail as fig. 3, but set for a different movement, and

fig 5 shows the motorized toothbrush on

fig. 1 view from above.

In the example described here, the electric toothbrush includes an outer housing 1, in which a shaft 2 with a toothbrush 3 is stored. A motor 4 is here to drive the toothbrush with the desired movements and the power source is two batteries 5 as there is space to in house 1, where this is shaped like a handle. The motor 4 can be put into operation in one or the other direction by turning a button 6 on the upper side of the housing 1. In the example shown, this button also has a function which will be described in more detail below. The motor's 4 shaft ends in a small disc 7 with a crankshaft 8 which can be seen more clearly in fig. 2. On the shaft 2 there is a box-shaped body 9 and on the outside of the bottom of the box there are two knobs 10 and 11 which are placed in opposite corners. When the engine 4 is now started, e.g. with such a direction of rotation that the crank 8 will rotate as indicated by arrow A, it will in fig. 2 first strikes the vertical surface on the left side of the cam 11, after which it will move further on the circle 12 and hit the vertical surface on the right side of the cam 10. The box-shaped body 9, together with the shaft 2 and thus the toothbrush 3, will then perform a forward

and backward movement to the right and left, as indicated by the arrows A' in fig. 2. If you use the control button 6 to reverse the motor 4 so that it rotates in the opposite direction,

as in fig. 2 is denoted by the arrow B, the crank will

8 strike the underside of the cam 10 and tilt

the box-shaped body 9 up and continues around the circle 12 to then hit the horizontal upper surface of the cam 11, whereby the body 9 and thus the shaft 2 and the toothbrush 3 tilt down. This rocking movement is attempted to be indicated by the arrows B' in fig. 2.

You can see here that by simply changing the direction of rotation of the motor 4, you change the movement of the toothbrush from a rectilinear back and forth movement to a rocking movement where the bristles of the toothbrush move up and down in a fraction of a circle.

In order for the shaft 2 and the associated toothbrush not to be able to move back and forth when the motor rotates to tilt the brush and vice versa so that the brush does not tilt when the motor rotates to move the brush back and forth, it is inside the box-shaped body 9 placed a rotatable control body 13. This control body has a length that corresponds to the length of the side in the square cavity in the body 9, and it is rotatable together with the operating button 6. In fig. 5, the control body 13 is indicated in connection with the operating button 6 and one also looks at fig. 1 how the body 13 is connected to the button and sticks into the box 9. In the position shown in figures 1 and 5, the operating button 6 connects the motor 4 so that it rotates in the direction of the arrow B. As explained, this will cause the shaft 2 and the toothbrush 3 to have the rocking movement B' and fig. 3 here shows the box-shaped body 9 with the control body 13 seen from above. It will be seen that the control body 13 here fills the square cavity 14 in the longitudinal direction of the shaft 2, and since the control body 13 is connected to the button 6, the toothbrush will not be able to move back and forth, i.e. to the right and left in fig. 1, but only tilt up and down, as the side walls in the box in fig. 3 then slides up and down on the end surfaces of the control body 13. When you want forward and backward movement, you turn the operating button 6 which, as explained earlier, changes the direction of rotation of the motor 4 so that the crank 3 now rotates as indicated by arrow A. As shown in fig . 5, the turning of the button 6 is limited to 90° and since the control body 13 is connected to the button 6, this will be turned from the position in fig. 3 to the position in fig. 4. In this position, the control body 13 allows movement back and forth as indicated by the arrows A' in fig. 2 corresponding to the rotation direction of the motor, and the control body prevents the box-shaped body 9 from tilting up and down.

By the fact that the operating button 6, which ensures the desired electrical connection of the motor 4, is also attached to the control body in relation to the direction of rotation of the motor, and with the right choice of materials, the movement mechanism can be very cheap, extremely durable and quiet, at the same time that the places where one has power-consuming friction is reduced very significantly in number, compared to per se known designs with complicated gearboxes and turnover devices.

The example shown only serves to illustrate the invention, and forms no limitation for the protection this patent provides, as the movement mechanism may well also be used in other fields where it is appropriate to be able to choose between forward and backward and tilting in a simple way motion.

Claims (6)

1. Movement mechanism capable of reciprocating or tilting a shaft or rod by choice, driven by an electric motor and specially designed for electric toothbrushes where the motor drives a crank adapted to engage with abutment surfaces on the shaft, characterized in that a pair of surfaces is designed to produce one of the aforementioned movements when the crank (8) rotates in one direction, while another pair of surfaces at an angle to the former is designed to produce the other of the aforementioned movements when the crank (8) rotates the opposite way. 2. Movement mechanism as stated in claim 1, characterized in that the pairs of stop surfaces are formed by colliding side surfaces of lugs (10, 11) projecting on the shaft, one surface in a pair standing on the same lug as a surface in the other pair. 3. Movement mechanism as stated in claims 1 and 2, characterized in that it comprises a box-shaped body (9) arranged on the shaft (2) which on the outside of the bottom has the protruding knobs (10, 11) in two diagonally opposite corners. 4. Movement mechanism as stated in claim 3. characterized in that a square control body (13) whose length corresponds to the cavity and whose width is smaller than this is placed in the cavity of the box (9), so that the box-shaped body (9) can move back and forth on the steering body (13) across its longitudinal direction, or perform a rocking movement about an axis that is parallel to the longitudinal axis of the steering body. 5. Movement mechanism as specified in claims 3 and 4, characterized in that the control body (13) is rotatable in the cavity of the box (9) to change the type of movement. 6. Movement mechanism as stated in the preceding claims, characterized in that an operating button (6) for turning the control body (13) is connected to a switch for reversing the motor's direction of rotation, simultaneously with setting the control body.