TR2024008399T - A ROTARY KNOB FOR A COOKING DEVICE - Google Patents

Abstract

The invention relates to a rotary adjustment knob for a cooking appliance, which is placed on a control panel (14) fixed on the front of a housing (12) and which includes a collar (22) defining a grip area on a knob head (20). In the rotary adjustment knob, a radially outward facing lateral wall (24) of the collar (22) is in the form of a dome that narrows towards the edges of the collar (22).

Description

DESCRIPTION E: A ROTARY KNOB FOR A COOKING APPLIANCE TECHNICAL FIELD The invention relates to a rotary knob for a cooking appliance that includes a hollow cylindrical collar with a grip area for rotation. STATE OF THE ART In the literature, a single or multiple rotary adjustment knobs may be found on a cooking appliance. Generally, there are separate rotary control knobs for each operating function or temperature adjustment parameter of the cooking appliance. The rotary control knob generally has a cover that is located in an opening on a panel on the body and fits over a shaft that allows the operation of a control element such as a switch or gas valve to be adjusted. The cover transfers the torque applied to the knob from the grip area to the shaft connected to the control element. A hollow knob structure resembling a cylindrical cup is commonly used in rotary control knobs. The radial outer portion of this knob defines the grip area. The circular, flat front wall covers the grip area circumferentially, thus covering the hole drilled in the panel where the knob is located. The invention CN203960628U discloses a rotary knob. The knob, which consists of a knob head, a knob housing, and positioning fasteners, is connected to the knob head housing. The knob housing is equipped with the positioning fasteners. A mounting is provided at the top of the knob housing. The knob housing is also equipped with an indicator protrusion, a protrusion, and a mounting hole. BRIEF DESCRIPTION OF THE INVENTION The purpose of the invention is to facilitate adjustment using a knob in cooking appliances with a cylindrical rotary knob. To achieve these objectives, the invention relates to a rotary adjustment knob for a cooking appliance comprising a housing; a control panel fixed to the front of the housing; a collar defining a grip area on a knob head. In the rotary adjustment knob, a radially outward-facing lateral wall of the collar is at least partially curved, tapering toward the edges of the collar. The curved shape creates a grip angle, allowing the rotary knob to be easily grasped by hand. Particularly in cooking appliance controls, where precise control of temperature settings is required, it has been determined that the dome shape reduces the likelihood of erroneous adjustments when adjusting desired parameters, such as gas flow or switch steps. In a preferred embodiment of the invention, the button head is in the form of a hollow cylindrical container. The collar forms the lateral wall of the cylindrical container, allowing the user to easily grasp the button head from any part of the lateral wall. A preferred embodiment of the invention includes a flat cover that is positioned on the button head to cover the front portion of the collar, bounded by the outer circular wall. The flat cover protects the inside of the button head from external factors such as dirt. In a preferred embodiment of the invention, the grip angle defined by the tangent of the curve relative to the rotation axis passing through the center of the bracelet is set wider toward the rear edge than toward the front edge. This allows for a firm grip, even with oily fingertips, especially in a kitchen environment, and allows for precise temperature adjustments. It has been determined that this unexpected advantage stems from the grip position of the bracelet, which, due to the hand anatomy, allows the fingers to extend outward from the center of the button. In a preferred embodiment of the invention, an outer portion of the bracelet contains a closed geometric pattern arranged to increase the radial friction area, achieved by distributing multiple visual elements in rows and distances, covering the entire outer portion. The patterns facilitate gripping the ring with its curved surface, allowing for torque application and increasing product diversity through different geometric variations. In a preferred embodiment of the invention, the pattern is laser engraved or screen printed. In this way, the button head can be mass-produced by increasing the friction area of the curved portion of the ring. In a preferred embodiment of the invention, the ring is made of a metallic material, specifically aluminum. This has been shown to provide additional frictional force, compared to plastic counterparts, to support torque transmission between the finger and the curved portion. In a preferred embodiment of the invention, the ring includes a coating that covers the outer portion of the ring. The coating is used in applications where increased friction force is desired but the entire control knob is not made of solid metal and assists in precise control adjustment. BRIEF DESCRIPTION OF THE FIGURES Figure 1 is a front perspective view of an oven in which a representative embodiment of a rotary adjustment knob of the invention is located. Figure 2 is a front perspective view of a plain collar. Figure 3 is a side normal and cross-sectional view of the plain collar cross-section shown in Figure 2. Figure 4 is a front and cross-sectional view of a plain collar cross-section. Figure 5 is a perspective view and cross-sectional view of a control knob of the invention in its disassembled state. Figure 6 is a perspective view of a patterned collar for an oven of the invention. DETAILED DESCRIPTION OF THE INVENTION In this detailed description, the development of the invention is explained without any limitation and only with reference to examples for better explanation. Figure 1 shows the front of an oven (10) in question. Here, there is a casing (12) that carries a cavity (16) that surrounds the oven (10) and limits the cooking chamber. In an upper area at the front of the casing (12), there is a flat front panel (14) that covers the upper area transversely. A single rotary knob (18) is placed in an opening (not shown) on the front panel (14) for adjusting the cooking temperature parameters and the cooking mode by turning. Here, there is a hollow cylindrical ring (22) which is used to grip and rotate the rotary knob (18). The ring (22) is manufactured using die-cast aluminum. A circular cover (27) is mounted on the front of the ring (22) to form a knob head (20). Figure 2 shows a perspective view of the plain ring for the cooking appliance. By gripping the ring (22), it is rotated, for example, clockwise (46), and the temperature of the oven (10) can be adjusted via a functional element to which it is connected, such as a thermostat or an electronic circuit board (not shown). The ring (22) is designed as a thin, flat hollow cylinder. A curvilinear side wall (24) of the ring (22) provides a circular area (26) that forms the grip area. The circular area (26) has a predetermined circular diameter (28). Here, the predetermined circular diameter (28) of the ring (22) is such that the opening is not visible from the outside when the rotary knob (18) is placed in the opening. In addition, the rotary knob (18) is rotated by grasping the side wall (24) of the ring (22) on the button head (20). On an inner wall (30) of the ring (22), there is a mounting opening (40) in the opening structure through which the cover (27) shown in Figure 1 is mounted concentrically to the ring (22). Figure 3 shows a side perspective of a patternless ring section of an oven, the subject of the invention. Here, in order to easily grasp the ring (22) mentioned in Figure 1 and Figure 2, a grip angle is created by giving a curved (34) shape on the outer part (32) of the side wall (24) of the ring (22). In this way, with the grip angle obtained with the curved (34), the rotary knob (18) can be controlled more easily on the outer part (32) of the side wall (24). In the figure, the curved (34) is shown in dashed lines as a representation covering the actual curve (34) for better understanding. The inner part (30), which is opposite to the curved (34) outer part (32), is flat. In Figure 4, the cross-section of the plain ring (22) and the knob head (20) of an oven, which is the subject of the invention, is shown in perspective. The front edge of the collar (22) circumferentially borders a mounting opening (40). The mounting opening (40) is obtained by chamfering the front edge inward. The mounting opening (40) accesses a ring-shaped channel (42) provided on the inner part (30) and forming a radial nail-like form between them. Figure 5 shows the chamfer cut detail and cross-section of the mounting opening (40) of the button head (20) and the plain collar (22) of the button in question, in disassembled condition. The cover (27) is in the form of a flat and straight circular piece that is adjusted to pass through the mounting opening (40). The edge of the cover (27) is radially located along the inner part (30). On the other hand, as shown in the cross-sectional drawing, the bevel (34) does not have a single radius. One radius forms a curvilinear form towards the mounting opening (40), while the second, narrower radius continues, forming the side wall (24) from its rear edge. In this way, the user can easily grasp the button head (20) by grasping the narrow rear portion of the bevel (34) with their fingers in a gripping motion centered on it. Figure 6 shows the patterned collar of the button in question in perspective. The cross-section of the collar (22) includes the inner part (30), the mounting opening (40) provided in the inner part (30), and the outer part (32). Here, the camber (34) provided by the grip angle on the side wall (24) provides ease of grip and ergonomic support. A predetermined pattern (38) can be placed on the bracelet (22), as shown in Figure 6. The pattern (38) is created using laser or screen printing on the outer portion (32) of the side wall (24) where the camber (34) is formed, in a recess or protrusion structure to facilitate grip. For example, the pattern (38) can consist of multiple rows of similarly geometric gap marks created by laser on the bracelet (22), and these gaps facilitate finger insertion. Furthermore, the marks increase the friction area during grip. Pattern (38) can be traced, for example, in the protrusion structure created by the screen printing method on the collar (22). This way, ergonomic features can be achieved during use and a visually appealing rotary knob (18) can be obtained. Furthermore, depending on the color or type of the front panel (14), different metallic, plastic or rubber coatings (44) can be applied on the collar (22). REFERENCE NUMBERS Oven 28 Circular diameter 12 Housing 30 Interior 14 Front panel 32 Exterior 16 Cavity 34 Bevel 18 Rotary knob 36 Wall thickness Button head 38 Pattern 22 Collar 24 Side wall 26 Circular area 27 Cover 40 Mounting opening 42 Channel 44 Coatings `EQ-f# /2 24 32 3 40 TR TR TR TR TR

Claims (1)

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