JPS60182919A - electric heat insulator - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to an electric heat insulator suitable for keeping food warm.

Conventional structure and its problems In general, this type of electric heat insulator heats a hot plate with a heater of a certain wattage, without using a temperature controller, and is designed to be used at the saturation temperature of the hot plate. I was doing it. However, in order to eliminate energy loss, improve the temperature control of the object to be kept warm, or keep the hot plate temperature constant, it is preferable to use a temperature controller. Figures 1 and 2 show the configuration of a heater unit in a conventional electric heat insulator. This heater unit is made of an electrical insulator, and one end is attached to both sides of a wound mica 1 that is divided into two parts. A plurality of protrusions a, a'......j, 3' are provided from one end to the other end, and the plurality of protrusions a, a'......
- It is constructed by sequentially winding the resistance wire 2 around j and j' and sandwiching these between two sheets of presser mica 3 (one side is not shown). When winding the resistance wire 2 around the wound mica 1, start winding from one end of the wound mica 1, that is, from the lower part A and A', but after making one turn at the A and A' parts of the trench, , protrusion a of rolled mica 1
, and roll it to a'.

And from these protrusions a, a', the next protrusions b, b/
Then, the mica 1 is wound one after another in this manner, and finally the protrusion 3. Turn the wire and connect it to the lead wires 4 and 5. Normally, it is easier to connect the temperature controller 6 if it is installed on the lead wire extraction side, so the temperature controller 6 is located at the upper part of the heater unit, that is, at the opening shown by diagonal lines. In such a configuration, the resistance of resistance wire 2 may vary due to manufacturing variations or resistance wire 2.
Since there are variations when winding the mica 1, it is necessary to change the length of the resistance wire 2 in order to obtain a constant wattage. Generally, the variation in resistance between lots of resistance wire 2 is usually plus or minus 5%, and in the case of plus or minus 5%,
As shown in FIG. 2, a resistance wire 2 is wound around protrusions 2L and aL at one end of the wound mica 1, and finally connected to lead wires 4 and 5 from protrusions i and 1'. On the other hand, if the resistance variation of the resistance wire 2 is -5%, as shown in FIG.
, al is wound with a resistance wire 2, and after this resistance wire 2 is wound up to the last protrusion C and C' at the other end of the wound mica 1, it is connected to the lead wires 4 and 6. in this case,
As you can see by comparing the two, there is a difference in the winding pattern of the resistance wire 2 at the mouth where the temperature controller 6 is located, so the amount of heat V that flows into the temperature controller 6 naturally differs. As a result, there was a problem in that the hot plate temperatures were different.

OBJECTS OF THE INVENTION The present invention solves the above-mentioned conventional problems, and an object of the present invention is to provide an electric heat insulator that can always control the temperature of the hot plate to be constant.

Structure of the Invention In order to achieve the above object, the present invention provides a resistance wire that is wound in sequence around a plurality of protrusions provided at regular intervals from one end of the wound mica constituting the heater unit to the other end. Adjustment is made at the center of the wound mica. According to this configuration, when absorbing variations in the resistance of the resistance wire, the length of the resistance wire is adjusted at the center of the wound mica. The winding pattern of the resistance wire in the temperature controller part located at the end of the heater unit remains unchanged, so even if the length of the resistance wire is adjusted to absorb variations in the resistance of the resistance wire. , it is possible to always obtain a constant amount of heat generation.

DESCRIPTION OF EMBODIMENTS An embodiment of the present invention will be described below with reference to the accompanying drawings. In Figures 3 to 6, 11 is an opening 11 in the center.
12 is a back plate attached to the back side of the frame plate 11 and has installation legs 13 at the bottom; 14 is an opening 1' of the frame plate 11; This hot plate 1 facing
4 is attached on the back plate 12. Reference numeral 16 denotes a heater unit pressed against the back surface of the hot plate 14 by a presser spring plate 19, and this heater unit 15 is
As shown in the figure, a wound mica 16 made of an electrical insulator and divided into two, and a plurality of protrusions a provided at a certain interval from one end of the wound mica 16 to the other end.
, a'...j, j', the resistance wire 17 sequentially wound around the plurality of protrusions @, z'...j, j', and the two wires sandwiching these. This heater unit 15 is pressed against the hot plate 11 by a presser spring plate 19 via a reflective plate. 2
0 is a temperature controller located on the extraction side of the lead wires 21 and 22 of the heater unit 15 and fixed to the electrically insulating mica plate 23.

The electrically insulating mica plate 23 is attached to a support plate 24 fixed to the heater unit 15.

26 is a power supply section.

Next, how to wind the resistance wire 17 in the heater unit 15 will be explained based on FIG. 5. The resistance of the resistance wire 1 is due to manufacturing variations and variations when the resistance wire 17 is wound around the mica 16, so it is necessary to adjust the length of the resistance wire 17 in order to obtain a constant wattage. However, in this case, start winding the resistance wire 17 from one end of the two-divided wound mica 16, that is, the lower portions A and A', and turn it at the projections a and a' at both ends of the wound mica 16,
After that, in the same way, successively the protrusions from bL to C2C
’. In this case, first measure the resistance value of the resistance wire 17 to be used, and if the resistance value is larger than the standard, shorten the length of the resistance wire 17, and conversely, if the resistance value is smaller than the standard, the length of the resistance wire 17 will be shortened. It is sufficient to adjust the length of the wound mica 16 to a longer length, and the length adjustment is performed at the center of the rolled mica 16. That is, when the resistance value of the resistance wire 17 is larger than the standard value, as shown in FIG. If the value is high, connect the resistance wire 17 to the protrusion d.

By winding from d' to g to g', the length of the resistance wire 17 can be reduced accordingly.

In this case, if the resistance wires 1 and 1 are wound at the same pitch, the temperature at the center of the wound mica 16 will naturally become higher. Therefore, in order to make the temperature of the hot plate 14 uniform, It is necessary to wrap the resistance wire 17 tightly around the mica 16 and loosely around the center.

In this way, when adjusting the length of the resistance wire 1a, it can be done at the center of the wound mica 16, that is, at the center of the heater unit 15, so that the partial opening where the temperature controller 2o is located is fixed. Since the resistance wire is wound in a 1-length state, stable temperature control is possible, and the heating plate 14
The temperature distribution can also be made uniform.

Effects of the Invention As described above, according to the present invention, when absorbing variations in the resistance of the resistance wire, the length of the resistance wire is adjusted at the center of the wound mica. The winding pattern of the resistance wire on the temperature controller part that is installed in Since the temperature can be controlled, the temperature distribution on the hot plate can also be made uniform.

[Brief explanation of drawings]

1 and 2 are front views showing a conventional heater unit, FIG. 3 is a back view of an electric heat insulator showing an embodiment of the present invention, and FIG. 4 is a side sectional view of the electric heat insulator, and FIG. FIG. 6 is a front view of the heater unit in the electric heat insulator. 11... Frame board, 11 &... Center opening, 12... Back plate, 14... Heat plate, 15...
... Heater unit, 16 ... ... mica rolls,
17 Resistance wire for..., 19...-pressing spring plate, 2
0...Temperature controller, &, a'~J. d′... Protrusion. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure 2 Figure 3 Figure 5

Claims (1)

[Claims] A frame plate having an opening in the center, a back plate attached to the back side of the frame plate, a heating plate facing the opening of the frame plate, and a presser spring plate attached to the back side of the heating plate. The heater unit includes a heater unit fixed by the back plate, and a temperature controller installed at an end of the heater unit near the power supply, and the heater unit includes a wound mica and one end of the wound mica. A resistance wire is wound sequentially around a plurality of protrusions provided at a certain interval from one end to the other end, and the length of the resistance wire is adjusted at the center of the wound mica. vessel.