RU11362U1 - ROLLER SIGNAL INPUT CONTROL - Google Patents

Description

The invention relates to a roller control device for inputting signals / using input means of two sets of two-dimensional coordinates, which prevents unwanted operation during operation of the optical rollers of the second device for inputting two-dimensional coordinates.

In a known input device for signal input, such as a coordinate manipulator, a mouse, optical rollers for monitoring the second two-dimensional coordinates are mounted, as a rule, on the circuit board in the specified manipulator so that when the optical rollers work, the circuit control unit on this circuit board receives the signals received by the receiving element and performs their internal programs to control changes in the coordinates of the second two-dimensional space. However, the operation of such optical rollers may cause unwanted operation.

Given this drawback, the applicant conducted studies in conjunction with the possibilities of technical changes, on the basis of which a signal input device of the above type was created, which prevents unwanted operation during operation of the optical rollers of the second two-dimensional coordinate input device.

those noted deficiency.

In addition, the objective of the utility model is the creation of a roller control device for signal input, which provides the possibility of more diverse applications related to the control of the input of two-dimensional spatial coordinates.

The specified technical result is achieved by the fact that in the roller control device for inputting signals, coA. you can coordinate the manipulator, including the base and the upper cover, and at least two grooves are made in the upper cover, based on the location, the drive mechanism of the coordinate manipulator is a mouse and a mounting plate, a control unit is placed on the mounting plate for controlling the input and output of multi-axis signals, and an input device of two or more coordinates mounted on a circuit board, in accordance with a utility model, said input device of two or more coordinates includes at least it least two sets of optical axis X, and roller clips optical axis Y, and the arcuate peripheral portion of said optical rollers protrude out of said grooves in the upper kryschke, shape and location of which can be selected with regard to user requirements.

Moreover, the central part of each optical roller is preferably made in the form of a protruding gear, and a lot of holes transmitting the light flux are made on the peripheral rim next to the gear. Moreover, each optical roller is preferably provided with an axial strut located at the external periphery of the optical roller with its side facing the luminous flux and elastic

an element, one end of which is mounted on an axial strut, and the other end has the possibility of engagement with the gear, and the elastic element can be made in the form of a torsion spring.

The utility model is illustrated by an example of its implementation, illustrated by drawings, which show the following:

FIG. 1 is a perspective perspective view of a signal input apparatus made in accordance with a utility model,

FIG. 2 is an exploded view of the device of FIG. 2A is an enlarged: image of a fragment of the device shown in FIG. 2,

FIG. 3 is an enlarged view of another fragment of the device shown in FIG. 2

FIG. 4 is a side view and a cross section of a separate optical roller in the device of FIG. 2,

FIG. 5 is an illustration of the operation of a flexible element when moving one optical roller in a signal input device corresponding to a utility model.

As shown in FIG. 1, 2, the claimed roller control signal input device includes a mouse-type coordinate manipulator, a second two-dimensional coordinate input device 3, and an elastic element 4.

The coordinate arm mouse 1 (the optical coding method is used in this embodiment of the present invention) includes a base 11, a drive mechanism 12 for the coordinate manipulator mouse, a mounting plate 13, an optical roller 14 of the XO axis, an optical roller 15 of the UO axis, a photosensitive element 16, left push button switch 18, right push button switch 19, central push button switch 20, top cover 21, central push button 22, right push button 23, left push button 24 and control unit 27 scheme, as well as other elements of the mouse manipulator, as is well known to specialists in this field. Since the connections between the respective components are also well known to specialists in this field and since they are not fundamental from the point of view of the improvement introduced by the utility model, there is no need for their detailed explanation. On the top cover 21 between the left push button 24 and the right push button there are two grooves 25 and 26 located one above the other and perpendicular to each other.

On the circuit board 13 next to the control unit 27, there is a second input device for inputting two-dimensional coordinates 3. On the aforementioned circuit board 13, there are two sets of adjacent supporting plates 31 for supporting the optical roller 32 of the X axis and the optical roller 33 of the Y axis; the optical rollers 32 and 33 protrude from the grooves 25 and 26 in the upper cover 21 to facilitate the operation of the user. On two sides of the optical roller 32 of the X axis and the optical roller 33 of the Y axis are, respectively, the transmitting element 34 and the receiving element 35. The transmitting element 34 and the receiving element 35 are connected, respectively, to the control unit 27 of the circuit. When the optical rollers 32, 33 X, Y are operating, the aforementioned control unit of the circuit 27 for controlling changes in the coordinates of the second two-dimensional space executes its internal programs in accordance with the signals received by the receiving element 35.

optical rollers 32, 33, which receives the luminous flux, there is a protruding gear wheel 39 (Fig. 3). Near the peripheral rim of the gear wheel 39 there are many light-transmitting holes 391. Near the external rim of the optical rollers 32, 33 on the incoming side of the light flux, there is an axial strut 38, while one end of the elastic element 4 can be fixed on the axial strut 38, and its other end forms a lap joint 41 (Figs. 2a, 3) in the form of an indented conical element to provide the connection of the aforementioned element 4 with the gear wheel 39.

During operation of the optical rollers 32, 33, the gear wheel 39 installed in each of them periodically touches the lap element 41 of the lap of the elastic element 4; therefore, this prevents the occurrence of unwanted tripping, (FIG. 5). As a result, the optical roller provides more stable operation.

Thus, the roller control device for inputting signals, made according to the utility model, prevents unwanted operation during operation of the optical rollers of the second device for inputting two-dimensional coordinates, is an easy-to-use device that provides ease of operation for the user, preserving the appearance of the mouse coordinate arm without any complications.

The above description of the preferred embodiment of the utility model should not serve as a basis for narrowing or limiting the scope of the claimed utility model. All equivalent design options arising from the description

utility model, illustrated by the drawing (for example, the grooves on the top cover, their location, which can be performed taking into account the requirements of the user), are included in the scope of the claimed technical solution, which is determined by the formula of the utility model.

Claims (5)

1. A roller control device for inputting signals, comprising a mouse coordinate manipulator, including a base and a top cover, wherein at least two grooves are made in the upper cover, and a drive mechanism of the mouse coordinate manipulator and a mounting plate are placed on the base, the circuit board contains a control unit for controlling the input and output of multi-axis signals, and an input device of two or more coordinates mounted on the circuit board, characterized in that the input device of two and whether more coordinates mounted on the circuit board include at least two sets of an optical roller of the X-axis and an optical roller of the Y-axis, with the arched peripheral parts of the optical rollers protruding from the grooves in the top cover.  2. The roller control signal input device according to claim 1, characterized in that the shape of the grooves in the top cover and their location are selected taking into account the requirements of the user.  3. The roller control signal input device according to claim 1, characterized in that the Central part of each optical roller on the receiving side of the light flux is made in the form of a protruding gear wheel, and a lot of holes transmitting the light flux are made on the peripheral rim next to the gear wheel.  4. The roller control signal input device according to claim 3, characterized in that each of the optical rollers is equipped with an axial strut located on the outer periphery of the optical roller on its side facing the light flux and an elastic element, one end of which is mounted on an axial strut and the other end of the elastic element is adapted to mesh with the gear of the corresponding optical roller. 5. Roller control signal input device according to claim 4, characterized in that the elastic element is made in the form of a torsion spring or other element with equivalent functions.