JP2008027308A - Mode switching knob - Google Patents

Abstract

In a mode switching knob unit that selects and decides a specific mode from a plurality of modes, only the portion that needs to be changed for each product is manufactured separately, thereby reducing the labor and time required for development. It is possible to reduce manufacturing costs including mold production costs.
A knob 11 having the same structure and a mode indexing body 4 having a different structure according to each knob unit are separately manufactured, and both are connected by a screw 6 which is a connecting member. The mode index body 4 needs to be manufactured separately for each product, but the knob body 11 can be made common and does not need to be manufactured separately for each product. When the knob body 11 is manually rotated, the mode indexing body 4 is also rotated via the screw 6. The stop position of the mode index body 4 can be selected in accordance with the mode switching, and the leaf spring 3 that is an engagement holding member that engages with the mode index body 4 holds the mode index body 4 at that position. To do.
[Selection] Figure 2

Description

  The present invention relates to a mode switching knob provided on an operation panel of a home appliance in order to select a specific mode from a plurality of use modes provided in the home appliance such as a microwave oven and an oven toaster.

  Conventionally, some home appliances have a plurality of use modes. For example, in a cooking device such as a microwave oven, a plurality of cooking modes are prepared according to the food to be cooked and the cooking technique. In many cases, a mode switching knob is provided on the front surface of the main body of the cooking device so that the user can easily perform the mode switching operation. In general, the mode switching knob is configured to be switched by rotating.

  The knob has an integrally formed structure in which a plurality of grooves are provided in the outer peripheral part of the knob part so as to stop at the mode switching part. An appropriate tension is applied to the knob while attached to the operation panel in a state in which a leaf spring provided with a protrusion engaging with the knob groove is pressed against the outer periphery of the knob. When the knob is rotated, one of the knob grooves engages with the protrusion of the leaf spring, and the knob is stopped with a click feeling, and the mode is switched according to the stop position.

As an example of the manual operation knob for the operation panel provided on the front of the outer box of the microwave oven, the manual operation knob is assembled and arranged on the front of the operation panel so that it is not easily detached during normal use. It has been proposed to make it easy to assemble a device such as a timer on the back side of the machine, and to easily remove the manual operation knob with a tool when repairing and replacing the manual operation knob (see Patent Document 1). That is, the manual operation knob is assembled in such a manner that the connecting shaft is passed through the insertion hole of the operation panel, and the retaining ring is externally fitted to the connection shaft from the back side of the operation panel. A device such as a timer is positioned on the back wall of the operation panel so as to surround the connecting shaft, and is positioned corresponding to the connecting shaft and fixed with a screw or the like. A notch opening is formed in the holding wall, and the manual operation knob can be easily removed from the front side of the operation panel by removing the retaining ring from the connecting shaft with a tool inserted through the opening.
Japanese Utility Model Publication No. 62-19507 (page 4, FIG. 1)

  However, in the conventional mode switching knob, the knob and the mode switching groove, which are the outer appearance, are provided in the knob itself which is a single product molded integrally with resin. Therefore, every time the number of switching modes changes even if the appearance of the knob is the same, the entire knob must be newly designed and manufactured again as a separate knob. As a result, there are problems in the production of a knob, such as time and effort for development, and a cost for creating a mold, resulting in high costs. In addition, a cylindrical rib is provided on the knob to fit the knob and the encoder rotated by the knob. However, this rib causes sink marks on the surface of the knob and reduces the degree of completion. It is also a restriction of the design shape of.

  Therefore, in the knob unit used for mode switching to select and determine a specific mode from a plurality of modes set for home appliances such as a heating cooker, the part that needs to be changed for each product and the other parts There is a problem to be solved in that they are manufactured separately and the structure of other parts is made common.

  An object of the present invention is to make only the part that needs to be changed separately for each product and to share the structure of other parts in a knob used for mode switching in which a specific mode is selected and determined from a plurality of modes. Thus, it is to provide a mode switching knob unit that can reduce the labor and time required for development and can reduce the manufacturing cost including the mold production cost.

  In order to solve the above-described problems, a mode switching knob unit according to the present invention is a knob that can be manually rotated, formed separately from the knob, and disposed at the back end of the knob and switching modes. A mode indexing body capable of selecting a stop position according to the mode, a connecting member for connecting the knob and the mode indexing body, and a stop position selected by engaging with the mode indexing body. It consists of providing the engagement holding member which hold | maintains an index body.

  According to this mode switching knob unit, a knob having the same structure as any knob unit and a mode indexing body having a different structure according to each knob unit are separately manufactured, and both are connected by a connecting member. The Therefore, it is necessary to manufacture the mode indexing body, which is a part that needs to be changed for each product, separately for each product, but it is possible to share the same knob with the same structure, and it is necessary to manufacture each product separately. There is no. As an operation of the knob unit, when the knob body is manually rotated, the mode indexing body also rotates through the connecting member. The stop position of the mode indexing body can be selected in accordance with the switching of the mode, and the engagement holding member that engages the mode indexing body holds the mode indexing body at that position. Selected and determined.

  In this mode switching knob unit, the knob includes a blindfold hook formed on the back end and covering the mode indexing body in a connected state with the mode indexing body by the connecting member. be able to. The blindfold on the knob at the far end of the knob covers the mode indexing body, so the mode indexing body cannot be seen from the outside, and is simple for the mode switching knob when viewed from the outside. Can create a clean feeling.

  In the mode switching knob unit, the mode index body may include a cylindrical rib that can be fitted to an encoder that rotates the knob unit. By fitting the encoder to the cylindrical rib provided on the mode index body, the amount of rotation of the mode index body can be accurately known by the encoder. Corresponding to the rotation amount, a specific mode selected from a plurality of modes is determined.

  In this mode switching knob unit, the knob is applied in such a manner that at least a part of the knob is exposed to the outside of the operation panel, and the mode indexing body is applicable in a mode of being arranged inside the operation panel. . Since the knob of the mode switching knob is at least partially arranged on the outside of the operation panel, the common knob will appear as an appearance during the product lineup, giving a sense of unity between products. . The mode switching for each product can be handled without appearing on the outside in the mode indexing body arranged inside the operation panel.

  In this mode switching knob unit, the engagement holding member is a leaf spring attached to the operation panel, and a protrusion formed on the leaf spring is formed corresponding to the mode in the mode indexing body. One of the plurality of recesses can be engaged with a click feeling by the elastic force of the leaf spring. The mode index body has a plurality of recesses corresponding to the number of modes, and is formed on a leaf spring attached to the operation panel when the mode index body is rotated by rotating the knob. The protrusion is engaged with one of the recesses with a click feeling by the elastic force of the leaf spring. In the mode index body, a different number of recesses can be formed corresponding to the mode switching depending on the product device. In addition, since a single protrusion can be formed on the leaf spring attached to the operation panel, the leaf spring can be shared.

Since the present invention is configured as described above, when the appearance of the knob is the same and only the number of switching modes is different, only one basic knob is manufactured and the index for switching the mode is obtained. It is only necessary to produce the same type of structural parts. In other words, it is not necessary to re-create the entire unit for each product device, and it is only necessary to re-create only the necessary mode indexing body, and the mode switching knob unit can be manufactured, including its design and development. Can be provided at low cost. In particular, with respect to a mold for manufacturing by resin molding, the size can be reduced, the complexity can be greatly simplified, and the number of molds can be reduced.
In addition, when the hook is provided with the hook, the appearance of the structural part of the mode switching portion cannot be visually observed by the hook, so that it is not necessary to color the material, and it is possible to manufacture with an inexpensive material. Can be reduced.
Furthermore, since it is not necessary to form a rib on the appearance side of the knob, the appearance completeness can be improved, for example, the appearance does not sink, and the design shape of the surface of the knob can be increased.

  Hereinafter, an embodiment of a mode switching knob unit according to the present invention will be described with reference to the accompanying drawings. FIG. 1 is a front view of an operation panel to which a mode switching knob unit according to the present invention is applied. FIG. 2 is a diagram showing a main part of a mode switching knob unit applied to the operation panel shown in FIG. a) is a side sectional view, and (b) is a back view.

  An operation panel 1 shown in FIG. 1 is, for example, an operation panel of a microwave oven as a home appliance, and the uppermost portion is a display window 50 and a knob 51 made of liquid crystal or the like, and the next stage is for pizza switching specialized for pizza cooking. The setting section 52 and its knob 53, the next stage is a mode switching knob unit (hereinafter referred to as "knob unit") 2 according to the invention, and the lowermost stage is a setting section 54 such as a timer, a stop switch 55, and the like. The knob unit 2 includes a knob 11 having a dial knob shape when viewed from the front of the operation panel 1, and the knob 11 can be rotated by manually pulling the dial.

  Regarding the knob unit 2 shown in the figure, six mode displays 12 are drawn at positions spaced apart at equal angular intervals over an angular range of 180 degrees in the upper half. These mode indications 12 are modes prepared and set in advance according to the food and cooking method. A mark 13 is formed on the knob 11 to indicate the current selection mode. As will be described in detail later, the knob unit 2 is positioned at a position where the mark 13 displays each mode, so that the user can check the selected mode while operating the knob unit 2.

  As shown in FIG. 2, the knob 11 of the knob unit 2 is a resin molded product having a cylindrical outer shape, and is applied in a manner in which most of the knob 11 is exposed to the outside of the operation panel 1. Except for the necessary portions, the inner side and the inside of the knob 11 are openings or cavities. The knob 11 is fitted in a fitting hole 17 formed in the operation panel 1. A cylindrical rib 13 is formed at the center of the knob 11, and an encoder 18 attached to the control board 5 provided on the operation panel 1 is fitted into the cylindrical rib 13. The encoder 18 measures the amount of rotation when the knob 11 is rotated, and outputs a signal corresponding to the amount of rotation to a control unit (not shown). The control unit can determine a specific mode selected from a plurality of modes by the user based on the signal, and can perform mode control of the product device based on the specific mode.

  The knob unit 2 also includes a mode indexing body 4 formed separately from the knob 11. The mode indexing body 4 is a flat disk-shaped component, and is disposed inside the operation panel 1 and applied concentrically to the back side of the knob 11. The mode indexing body 4 is connected to the knob 11 by a plurality of screws 6 that are connecting members. The mode index body 4 is formed with a central hole 19 larger than the outer shape of the encoder 18 at the center, and therefore does not interfere with the encoder 18. On the other hand, a first protrusion 21 directed toward the operation panel 1 and a second protrusion 22 protruding toward the control board 5 are formed at predetermined positions on the side surface portion of the outer peripheral portion 20 of the mode index body 4. The first protrusion 21 is in contact with the back surface of the front panel of the operation panel 1, and the second protrusion 22 is in contact with the control board 5 side.

  When the knob 11 is turned, the knob 18 is rotated with the center supported by the encoder 18. At this time, the knob 11 is loosely fitted in the fitting hole 17 of the operation panel 1. Does not interfere with. The mode indexing body 4 rotates together with the knob 11 while being sandwiched between the back surface of the front panel of the operation panel 1 and the control board 5 and regulated in the width direction. Therefore, the knob 11 connected to the mode indexing body 4 with the screw 6 is prevented from coming out to the outside because the mode indexing body 4 is regulated by the operation panel 1 and the control board 5. .

  A plurality of recesses 23 are formed on the peripheral surface of the outer peripheral portion 20 of the mode index body 4 so as to correspond to the position of the mode display 12 drawn on the operation panel 1. In the embodiment, one redundant recess 24 is formed on the outer side of the mode display 12 drawn on the operation panel 1. These excessive recesses 24 are dummy recesses having no special function.

  A leaf spring 3 is provided on the operation panel 1 as an engagement holding member that engages with the recess 23 of the mode index body 4 and holds the mode index body 4 in the engaged state. That is, the end portions 26 and 26 of the leaf spring 3 are locked to the locking portions 25 and 25 provided in the vicinity of the mode indexing body 4 on the back side of the operation panel 1. A protrusion 27 is formed at the central portion of the leaf spring 3. As a reaction in which the end portions 26 and 26 are locked to the locking portions 25 and 25, the protrusion 27 can be engaged with the concave portion 23 of the mode indexing body 4 with an elastic force. Therefore, when the knob 11 is rotated, each time the knob 11 reaches the selected position with respect to the mode display 12, the protrusion 27 fits into the recess 23, and the user feels a click. Can be generated. In addition, it is also possible to provide a protrusion and a concave portion in reverse by the mode index body 4 and the leaf spring 3.

  When the knob 11 is rotated and the mark 12 on the knob 11 arrives at a position corresponding to one of the indications 12 on the operation panel 1, the protrusion 27 of the leaf spring 3 is attached to the mode indexer 4. Engages with the corresponding recess 23. Therefore, the stop position of the knob unit 2 is determined according to the switching of the mode selected by the user. When the protrusion 27 of the leaf spring 3 is engaged with the recess 23 of the mode indexing body 4, the mode indexing body 4 is blindly moved, and consequently the knob unit 2 is not blindly moved.

  FIGS. 3A and 3B are diagrams showing a main part of another embodiment of the mode switching knob unit according to the present invention, in which FIG. 3A is a front view and FIG. The example shown in FIG. 3 is the same as the embodiment shown in FIGS. 1 and 2 except that the knob 11 is provided with a blindfold for the blindfold. This will not be described in detail.

  An annular gap 33 tends to occur outside the knob 11 that fits loosely into the fitting hole 17 of the operation panel 1. Since the knob 11 is an appearance member, the surface is subjected to processing such as polishing, but the mode indexing body 4 is basically a member disposed inside the operation panel 1, so that the material and surface treatment Such appearance is not considered. Therefore, the mode indexing body 4 connected to the back end 31 of the knob 11 may be seen from the annular gap 33 formed between the periphery of the fitting hole 17 and the outside of the knob 11. In the knob unit 30 shown in FIG. 3, the knob body 11 is provided with a blindfolding collar 32 that partially covers the mode indexing body 4 at the back end 31. It is sufficient that the flange portion 32 has a width corresponding to the gap 33. Due to the presence of the collar portion 32, the mode index body 4 cannot be viewed from the outside through the gap 33, so that the knob unit 30 can be simple and clean when viewed from the outside. In addition, since the collar part 32 provides the support surface for the mode index body 4 when connecting the mode index body 4 to the knob body 11 with the screw 6, the connection with the knob body 11 is further stabilized. -And it can be strengthened.

  4A and 4B are diagrams showing the main part of another embodiment of the mode switching knob unit according to the present invention, in which FIG. 4A is a front view, FIG. 4B is a sectional view taken along line BB in FIG. FIG. The example shown in FIG. 4 is the same as the embodiment shown in FIGS. 1 and 2 except for the mutual relationship between the knob 11 and the mode indexing body 4 connected thereto, Are given the same reference numerals, and the detailed description thereof is omitted.

  In the knob unit 40 shown in FIG. 4, the knob 41 is formed in a bottomed cylindrical shape that gives an appearance, and does not have an internal structure like the columnar rib 13 of the knob 11 shown in FIGS. 1 to 3. . On the contrary, the mode index body 44 includes a cylindrical head 45, and includes an internal structure held by the knob 11 inside thereof, that is, a columnar rib 43 into which the encoder 19 is fitted. With such a structure, the knob 41 needs to have only appearance, and the role sharing with the mode indexing body 44 is further advanced. Further, since the cylindrical head portion 45 of the mode indexing body 44 is fitted and connected to the inside 42 of the knob 41, the knob 41 and the mode indexing body 44 can be connected with more unity. .

The front view of the operation panel assembly which shows an example of the operation panel to which the knob for mode switching by this invention is applied. The figure which shows the principal part of one Embodiment of the mode switching knob unit by this invention. The figure which shows the principal part of another embodiment of the mode switching knob unit by this invention. The figure which shows the principal part of other embodiment of the mode switching knob unit by this invention.

Explanation of symbols

1 operation panel 2 mode switching knob unit 3 leaf spring (engagement holding member)
4 Mode indexing body 5 Control board 6 Screw (connection member)
DESCRIPTION OF SYMBOLS 11 Picking body 12 Mark 13 Cylindrical rib 16 Mode display 17 Fitting hole 18 of the operation panel 1 Encoder 19 Center hole 20 Outer peripheral part 21 1st protrusion 22 2nd protrusion 23 Recessed part 24 Excessive recessed part 25 Locking part 26 End part 27 Protrusion 30 Knob unit 31 Back end 32 Gutter 33 Gap 40 Knob unit 41 Knob body 42 Inside 43 Cylinder rib 44 Mode index body 45 Cylindrical head 50 Display window 51 Display section knob 52 Pizza switching setting section 53 Pizza switching setting section Knob 54 Setting section of timer 55 Stop switch

Claims (5)

  A knob that can be manually rotated, a mode indexing body that is formed separately from the knob and that is arranged at the back end of the knob and whose stop position can be selected according to mode switching, and the knob A mode switch comprising: a connecting member that connects the mode indexing body; and an engagement holding member that holds the mode indexing body at a stop position selected by engaging with the mode indexing body. Picking unit.   The said knob | pick body is provided with the collar part for a blindfold which is formed in the said back end and covers the said mode index body in the connection state with the said mode index body by the said connection member. The mode switching knob described in 1.   The mode switching knob unit according to claim 1 or 2, wherein the mode index body includes a cylindrical rib that can be fitted to an encoder that rotates the knob unit.   4. The knob according to claim 1, wherein the knob is applied in such a manner that at least a part of the knob is exposed to the outside of the operation panel, and the mode indexing body is applied in a form of being arranged inside the operation panel. The mode switching knob unit according to any one of the above.   The engagement holding member is a leaf spring attached to the operation panel, and a protrusion formed on the leaf spring is one of a plurality of recesses formed in the mode indexing body corresponding to the mode. 5. The mode switching knob unit according to claim 1, wherein the mode switching knob unit can be engaged with a click feeling by the elastic force of the leaf spring.