JPS635057Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention mainly relates to a device for controlling the rotational operation of a temperature control knob.

Conventionally, automatic temperature regulators such as plug-in thermostats have been used in general-purpose electric cookers, but the knobs can easily rotate due to the operator's carelessness. This was inconvenient because the set temperature could change depending on the setting.

From the above, knob rotation control configurations called step rotation, click rotation, etc. have come into use. Next, a conventional example will be explained with reference to the drawings. The knob rotation control device is shown in FIG. This knob 3 is connected to the cylindrical body 12 and this cylindrical body 12.
The shaft support plate 11 includes a top plate 13 that closes one side of the knob 3, and a shaft support plate 11 having a cylindrical portion extending inward from the knob 3 from the center of the top plate 13.
A hole is provided in the center, and the rotating shaft 2 is supported in this hole. The circumferential surface of the rotating shaft 2 has a toothed portion formed in the upward direction of the shaft, which matches the toothed portion provided in the hole of the knob triaxial support plate 11. It is provided so as to protrude from the hole 15 of. A receiving plate 7 is provided on the upper surface of the case 1, and a plurality of recesses 9 are formed in the receiving plate 7 on the center line of the rotating shaft 2. A spring 8 and a steel ball 10 are provided between the inner walls of the cylindrical body 12, and the steel ball 10 is in contact with the receiving plate 7 and coincides with the recess 9 of the receiving plate 7. From this, when turning knob 3,
The steel balls 10 fit intermittently into the recesses 9 of the receiving plate 7. Furthermore, on the top 4 of the rotating shaft 2,
Since a ring-shaped plate spring 6 is provided and a coil spring 5 is provided between the ring-shaped plate spring 6 and the bottom surface of the shaft support plate 11, the knob 3 is always pressed in the direction of the receiving plate 7. That is, the knob 3 is moved by the steel ball 10 and the spring 8 into the receiving plate 7.
Click on the top. A display scale plate 14 is provided on the upper plate 13 of the knob 3.

In the above rotation control device for the knob 3, it is necessary to use a receiving plate 7, and a hole 7' through which the rotation shaft 2 passes must be provided in the center of the receiving plate 7. It takes time and effort to make it separately, and the steel ball 10 position of knob 3,
The work is difficult because the recesses 9 of the receiving plate 7 must be aligned, and furthermore, the steel balls 10 and springs 8 are required, and the number of parts is large.
is pushed up by spring 8 in the axial direction of knob 3.
It has the disadvantage that it is slanted.

The present invention reduces the number of parts and is easier to assemble compared to the conventional rotation control device for the knob 3. Figures 2 to 4 show examples of the rotation control device for the knob 3. The rotation control device is shown, and FIG. 2 is a side sectional view of the knob 3 portion. FIG. 3 is a plan sectional view of the third part of the knob. FIG. 4 is a perspective exploded partial cross-sectional view of the automatic temperature controller. In FIGS. 2 to 4, the same members as those in FIG. 1 showing the conventional example are described with the same reference numerals, and stand up from the top surface of the case 1.
A cylindrical body 16 having a plurality of recesses 20 on its outer peripheral surface, and a rotating shaft 2 provided from inside the case 1 on the axis of this cylindrical body 16.
The rotating shaft 2 is supported in the shaft hole 26 located at the center of the upper plate 13 of the knob 3, and the cylindrical body 1
6. Cylindrical body 1 of knob 3 via ring 17 on the outer peripheral surface.
A protrusion 19 provided on the inner wall surface of the knob 3 is located between a pair of protrusions 21 provided on the outer peripheral surface of the ring 17, with the inner wall surfaces of the knob 3 facing each other, and a protrusion 19 provided on the inner wall surface of the ring 17. It is a rotation control device for the knob 3 in which the part 18 is in contact with the outer peripheral surface of the cylindrical body 16 of the case 1, and the ring 17 is formed of an elastic resin material or uses a metal plate. It is also possible to use a gap formed by cutting a portion of the ring 17. Furthermore, a ring-shaped leaf spring 6 is provided on the top 4 of the rotating shaft 2, and a coil spring 5 is provided between the ring-shaped leaf spring 6 and the bottom surface of the shaft support plate 11, so that the knob 3 can be It is constantly pressed in the direction of the receiving plate 7. The shaft support plate 11 has a cylindrical portion extending from the upper plate 13 of the knob 3 in the axial direction of the cylindrical body 12 of the knob 3, and a bottom surface on this cylindrical portion,
The rotating shaft 2 is supported in a shaft hole 26 provided on the bottom surface.

Next, the assembly will be described. A cylindrical body 16 stands up from the upper surface of the case 1, and a rotating shaft 2 provided from inside the case 1 is provided on the axis of this cylindrical body 16. For example, in the embodiment shown in FIG.
4 is inserted into the electric cooking device main body, and at the same time, the plug pins of the electric cooking device main body are inserted into the plug pin receiving holes 23 provided in a pair on both sides of the heat-sensitive rod 24 of the case 1. A power cord 25 is provided on the other end of the case 1, a ring 17 is provided around the cylindrical body 16 of the case 1, and a knob 3 is provided.
A convex portion 19 provided on a portion of the inner wall surface of the ring 17 is aligned between a pair of convex portions 21 provided on a portion of the outer peripheral surface of the ring 17,
The rotating shaft 2 is supported in the shaft hole 26 of the knob 3.
A coil spring 5 is provided on the bottom surface of the shaft support plate 11 of the knob 3 and around the rotating shaft 2, and a ring-shaped leaf spring 6 is attached to the top plate 13 of the knob 3 after being locked to the top 4 of the rotating shaft 2. , a display scale plate 14 is provided. In the above-assembled rotation control device for the knob 3, when the knob 3 is rotated, the ring 17 is engaged with the protrusion 19 of the knob 3 by the protrusion 21 of the ring 17, so that the ring 17 rotates together. , the inward convex portion 18 of the ring 17 is connected to the cylindrical body 16 of the case 1.
The rotation is controlled by the recess 20 of the cylindrical body 16 by sliding on the outer peripheral surface. Also, Figure 5 shows
This is a partial plan cross-sectional view of the knob 3 showing another embodiment, in which a recess 2 is formed in a portion of the inner wall surface of the cylindrical portion 12 of the knob 3.
7 and locks a convex portion 28 on the outer peripheral surface of the ring 17, and the ring 17 is rotated at the same time as the knob 3 is rotated.

Note that when the ring 17 knob 3 is rotated, the force in the rotational direction is dispersed between the pair of convex portions 21 and 18 of the ring 17, so that the force during the rotation operation is evenly balanced.

As described above, the rotation control device for the knob 3 of the present invention does not require the receiving plate 7, the steel ball 10, and the spring 8 that presses the steel ball 10, as in the conventional case, thereby reducing the number of parts. In addition, each part can be easily set along the rotating shaft 2, and the case 1 and the cylinder body 16 can be integrally formed, and the axial direction of the rotating shaft 2 is radial. Since the elastic ring 17 is pressed, the knob 3 is not tilted, and the knob 3 can always be positioned parallel to the upper surface of the case 1.

Furthermore, since the force in the rotational direction of the ring 17 is dispersed between the convex portion 21 and the convex portion 18 of the ring 17, when the user rotates the knob 5, the force during operation is well balanced and the rotation operation is smooth. can be done.

In addition, since the ring 17 is partially cut off, the convex portion 18 of the ring 17 comes into contact with the cylinder 16 with appropriate elasticity, so that the rotation operation can be performed smoothly.

[Brief explanation of the drawing]

FIG. 1 is a side sectional view showing a conventional knob rotation control device. Figures 2 to 5 show a knob rotation control device according to an embodiment of the present invention.
FIG. 2 is a side sectional view of the knob portion. FIG. 3 is a plan sectional view of the knob portion. FIG. 4 is an exploded partial cross-sectional perspective view of a knob rotation control device used in an automatic temperature controller. FIG. 5 is a plan sectional view of a knob portion showing another embodiment. 1... Case, 2... Rotating shaft, 3... Knob,
12... Cylindrical body, 17... Ring, 19... Convex part,
21...Protrusion, 26...Shaft hole.

Claims (1)

[Claims for Utility Model Registration] 1. A cylindrical body 16 that stands up from the top surface of the case 1 and has a plurality of recesses 20 on its outer circumferential surface, a rotating shaft 2 that is provided from inside the case 1 on the axis of this cylindrical body 16, This rotary shaft 2 is supported in a shaft hole 26 located at the center of the upper plate 13 of the knob 3, and a ring 17 is inserted on the outer peripheral surface of the cylinder 16, and a part of the ring 17 is cut to form a gap. The inner wall surfaces of the cylindrical portion 12 of the knob 3 are provided facing each other, and the ring 1
A part of the outer peripheral surface of the ring 17 and a part of the inner wall surface of the knob 3 are engaged with the concave part and the convex part.
A knob rotation control device in which a convex portion 18 provided on the inner wall surface of the case 1 contacts the outer circumferential surface of the cylindrical body 16 of the case 1. 2. The knob rotation control device according to claim 1, wherein the ring 17 is made of an elastic resin material.