KR20160014289A - Apparatus for controling temperature of electric cook-top - Google Patents

Abstract

The present invention relates to a temperature adjusting device for an electric cooktop. The device comprises: a metal bar unit which is extended or contracted in a longitudinal direction in accordance with a temperature change of an electric heating coil; a bar fixing unit configured to fix the metal bar unit to an inner surface of a heat insulation case unit; a first contact point unit configured to stop the electric heating coil when a first fixation contact point and a first operation contact point are separated; and a second contact point unit configured to stop a temperature lamp when a second fixation contact point and a second operation contact point are separated. Therefore, the device minimizes damage.

Description

[0001] APPARATUS FOR CONTROLLING TEMPERATURE OF ELECTRIC COOK-TOP [0002]

The present invention relates to a temperature controller, and more particularly, to a temperature controller for an electric cooktop for controlling the temperature of an electric cooktop.

In general, the electric cooktop is an eco-friendly, low-carbon, low-emission cooking utensil, safe and hygienic, has no harmful gas or soot, does not emit oxygen deficiency or carbon monoxide and can always be cooked in a clean and pleasant environment, The time to reach maximum firepower is short due to the use of new materials of heat source and it is recognized as an energy saving product because it maintains a constant temperature by using temperature sensor.

In addition, special ceramic tempered glass, which is resistant to heat, is silk printed and cleaned easily. It is designed to be in close contact with the sink.

The electric cooktop is composed of a cooktop case forming an outer appearance, a heating body fixed to the cooktop case and radiating high-temperature radiant heat, and a glass plate provided on the upper side of the cooktop case and on which a cooking vessel is placed, So that the cooking vessel is heated while the radiant heat is released, and the food is cooked.

On the other hand, when using an electric cooktop, the temperature controller for the electric cooktop is required to transmit three different signals according to the temperature of the heating coil. Specifically, in the initial state, which is the first step, the heating coil must be operated and the temperature of the heating plate is low. Therefore, when the heating plate reaches a predetermined temperature or more, . Next, in the second step, in which the heating coil starts to be heated and reaches a temperature at which the user is at risk of burning, the heating operation of the heating coil must be maintained and the temperature lighting lamp should be turned on. Next, in the third step of reaching the heating target temperature, the heating operation of the heat transfer coil must be stopped, and the temperature illumination lamp should be kept turned on. Then, when the temperature of the heating coil is lower than the heating target temperature after the heating coil stops the heating operation, the heating operation of the heating coil must be restarted. Therefore, on-off control of the heating coil must be continuously performed.

U.S. Patent Publication No. 06304165 (Oct. 16, 2001)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a temperature controller for an electric cooktop for precisely controlling an electric heating coil, It has its purpose.

It is another object of the present invention to provide a temperature control device for an electric cooktop which can prevent malfunctions in a high temperature environment and repeated three-step switch operation, and can minimize breakage and damage of the device.

Further, in the present invention, when the temperature of the heating coil is lower than the heating target temperature after the heating operation of the heating coil is stopped, the heating operation of the heating coil must be restarted. Therefore, And to provide a temperature control device for an internal combustion engine.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems to be solved by the present invention, which are not mentioned here, can be understood by referring to the following description to those skilled in the art It will be understood clearly.

A thermostat for an electric cooktop according to the present invention comprises: a heat insulating case part which accommodates a heat transfer coil and has a through hole formed on a side surface thereof; A metal rod portion extending inward and outward of the heat insulating case portion through the through hole and extending or contracting in the longitudinal direction according to the temperature change of the heat transfer coil; A rod fixing portion mounted on the outer periphery of the metal rod portion and fixing the metal rod portion to the inner side surface of the heat insulating case portion; A first fixed contact is fixed from the outside of the heat insulating case portion and a first operating contact is provided to be operable in accordance with the state of the metal rod portion and the heating coil is operated when the first fixed contact and the first operating contact come into contact, And a first contact part for stopping the heat transfer coil when the first operation contact is released; And a second fixed contact is fixed at the outside of the heat insulating case part and a second operating contact is provided to be operable in accordance with the state of the metal rod part and a temperature lighting lamp is operated when the second fixed contact and the second operating contact are contacted, And a second contact section for stopping the temperature illumination lamp when the contact point and the second operation contact point are separated. In the normal state of the metal rod section, the first contact section is brought into contact with the heat transfer coil and the second contact section is released, When the temperature of the electrothermal coils reaches the first target temperature, the first contact portion maintains the contact state, the second contact portion is contacted by the elongation of the metal rod portion to operate the temperature illumination lamp, When the temperature reaches the second target temperature higher than the first target temperature, the metal rod portion is further elongated to separate the first contact portion, stop the heat transfer coil, and maintain the contact state of the second contact portion It shall be.

The temperature regulating device for an electric cooktop of the present invention is characterized in that the first operating contact is formed at the end of the metal rod portion with a larger diameter than the metal rod portion and the second operating contact is formed at the end of the metal rod portion with a diameter larger than that of the metal rod portion A first non-conductive material is formed between the first and second operating contacts and between the first and second operating contacts, and one end of the first non-conductive material is fastened to the outer surface of the heat insulating case part And a fixed contact support portion formed parallel to the metal rod portion, wherein the first fixed contact is in the form of a metal bar of an elastic material, and is disposed on the outer peripheral surface of the first operating contact, And the second fixed contact is formed in the shape of a metal bar of an elastic material and is directed from the side face of the fixed contact supporting portion toward the second operating contact and is formed on the outer peripheral face of the second operating contact It characterized in that the catalyst formed of a possible length.

In the temperature regulation device for an electric cooktop of the present invention, the first fixed contact is brought into contact with the outer circumferential surface of the first operating contact in the normal state of the metal rod portion, and the second operating contact is moved in the longitudinal direction of the metal rod portion, When the temperature of the heat transfer coil reaches the first target temperature, the first fixed contact is in contact with the outer circumferential surface of the first operating contact, and the second fixed contact is in contact with the outer circumferential surface of the first operating contact The second operating contact advances in the longitudinal direction of the metal bar portion and the second fixed contact contacts the outer peripheral face of the second operating contact, and when the temperature of the heating coil reaches the second target temperature higher than the first target temperature , The first operating contact advances in the longitudinal direction of the metal rod portion to separate the first fixed contact from the outer peripheral surface of the first operating contact and keep the second fixed contact in contact with the outer peripheral surface of the second operating contact The.

According to another aspect of the present invention, there is provided a temperature controller for an electric cooktop, comprising: a second nonconductive body surrounding an end of a metal rod portion; a first operating contact formed in a ring plate shape and movable in a longitudinal direction on an outer peripheral surface of an end of the metal rod portion; And the second operating contact is formed in a ring plate shape and is formed to be movable in the longitudinal direction on the outer peripheral surface of the end portion of the metal rod portion from the end of the metal rod portion to the front side in the longitudinal direction of the metal rod portion from the first operating contact, A first power supply plate and a second power supply plate which are formed to be fixed to the outer circumferential surface of the metal rod portion between the contact and the second operation contact and formed to be spaced apart from each other and a second power supply plate formed between the first operation contact and the first power supply plate And a power supply unit including a first spring and a second spring formed between the second operating contact and the second power supply plate, Wherein the first fixed contact is formed in the form of a metal bar, and the second fixed contact is formed in the shape of a metal bar, facing the first movable contact from the side of the fixed contact supporting portion, And the second fixed contact is formed in a metal bar shape so as to be in contact with the front side of the second operating contact point from the side of the fixed contact supporting portion toward the second operating contact point. do.

In the temperature regulation device for an electric cooktop of the present invention, the front surface of the first fixed contact is brought into contact with the rear surface of the first operating contact in a state where the first spring is compressed in a normal state of the metal rod portion, The contact point is positioned in the longitudinal direction of the metal rod portion to the rear side of the second fixed contact point and the second operating contact point is separated from the second stationary contact point. When the temperature of the heating coil reaches the first target temperature, So that the front side of the first fixed contact is held in contact with the rear side of the first operating contact and the second operating contact advances in the longitudinal direction of the metal rod portion to be fixed to the front side of the second operating contact When the temperature of the heat transfer coil reaches a second target temperature higher than the first target temperature, the first operating contact advances in the longitudinal direction of the metal rod portion, The front side of the fixed contact And the second spring is compressed to keep the rear side of the second fixed contact in contact with the front side of the second operating contact.

According to another aspect of the present invention, there is provided a temperature control apparatus for an electric cooktop, comprising: a first fixed contact formed in an arc shape and spaced apart from a left side or right side of an end of a metal rod portion; The first movable contact is formed such that one end thereof is in contact with the first stationary contact and the other end is located at the other end of the metal rod portion, And a third spring which is formed in a rod shape so as to be rotatable about its center and which is fastened to the outer surface of the heat insulating case part and whose other end is fastened to the other end of the first operating contact, The second operating contact is spaced apart from the front side of the first operating contact, and one end of the first operating contact is connected to the second fixed contact, The other end of which is formed so as to be contactable with the other end of the first operating contact and is formed into a rod shape so that the central portion is rotated, a fourth spring which is fastened to the outer surface of the heat insulating case portion at one end and fastened to the other end of the second operating contact And a contact portion between the first operating contact and the second operating contact is coated by the third non-conducting portion.

In the temperature regulation device for an electric cooktop of the present invention, one end of the first operating contact contacts the first stationary contact, and the other end of the second operating contact contacts the second stationary portion of the metal rod in the longitudinal direction of the metal rod. When the temperature of the heat transfer coil reaches the first target temperature, the other end of the first operating contact and the second operating contact are brought into contact with each other, One end of the first operating contact is pivoted rearwardly and remains in contact with the first fixed contact, one end of the second operating contact is pivoted rearward to be in contact with the second fixed contact, When the temperature of the heat transfer coil reaches a second target temperature higher than the first target temperature, the other end of the first operating contact and the other end of the second operating contact further turn forward, and one end of the first operating contact further rotates So that the first fixed contact Doedoe departure, and the further rotation toward the one end after the second operation from the contact is characterized in that keeping the contact with the second fixed contact.

In the temperature controller for an electric cooktop of the present invention, a first operating protrusion for operating the first operating contact is further formed on one side of the left side or the right side of the end of the metal bar portion, A second actuating projection for actuating a second actuating contact on the other side of the left end or the right side of the end of the metal rod portion on the rear side of the metal rod portion and having a hexahedron shaped working case accommodating an end of the metal rod portion, A first snap spring which is provided on one side of the left or right side of the operating rod and which is rotatable in one lateral direction and forms a third operating projection corresponding to the first operating projection; A second snap spring provided on the other of the first and second actuating projections and having a fourth actuating projection corresponding to the second actuating projection so as to be rotatable in the other lateral direction, And a fifth spring provided on the front surface of the second snap spring to support the metal rod portion in the longitudinal direction backward, wherein the first operating contact is formed at the end of the first snap spring, and the second operating contact is formed at the end of the second snap spring And the first stationary contact is formed on one side of the operating case corresponding to the first operating contact and the second stationary contact is formed on the other side of the operating case corresponding to the second operating contact.

In the temperature regulating device for an electric cooktop of the present invention, in a normal state of the metal rod portion, the first operating projection is brought into contact with the third operating projection, and the first snap spring is rotated in one lateral direction, The first operating contact is brought into contact with the second fixed contact and the second operating contact is released from the second fixed contact. When the temperature of the heat-transfer coil reaches the first target temperature, the first operating projection is advanced, The first operating contact remains in contact with the first stationary contact, the second operating protrusion advances and contacts the fourth operating projection, and the second snap spring pivots in the other lateral direction When the temperature of the heat transfer coil reaches a second target temperature higher than the first target temperature, the first operating projection further advances and is released from the third operating projection, The snap spring rotates in the other direction The first operating contact is disengaged from the first stationary contact and the second operating protrusion is advanced further but remains in contact with the fourth operating protrusion so that the second operating contact remains in contact with the second stationary contact .

Further, the temperature control device for an electric cooktop of the present invention further comprises a fifth operation protrusion for operating the first operating contact in a forward direction at one side edge of the left or right side of the end surface of the metal rod portion, A sixth actuating projection for actuating the second actuating contact point forward from the other side of the left or right side of the operating rod; a hexahedron-shaped actuating case for receiving the end of the metal rod; And an adjusting screw provided on the outer circumferential surface of the end portion of the metal rod portion in the operation case to support the metal rod portion in the longitudinal direction backward, 6 spring, wherein the first stationary contact is in the form of a metal bar, and the left or right side Wherein the first operating contact is formed in the shape of a metal bar of an elastic material and is spaced apart from the front of the first stationary contact with a contact protrusion formed rearward, And the second fixed contact is formed in the shape of a metal bar of an elastic material and is formed toward the metal rod portion from the other side of the left side or the right side in the operation case, The second fixed contact is formed to be in contact with the sixth actuating protrusion so as to protrude more toward the metal rod than the second fixed contact.

In the temperature regulation device for an electric cooktop of the present invention, the first operating contact is brought into contact with the first stationary contact by the contact protrusion in the normal state of the metal rod portion, and the second operating contact When the temperature of the heat transfer coil reaches the first target temperature, the fifth operating projection is moved forward, but the non-contact state is maintained at the first operating contact, and the first operating contact is brought into contact with the first stationary contact The sixth operating protrusion advances and contacts the second operating contact so that the second operating contact advances and contacts the second stationary contact, and the temperature of the heating coil is higher than the second target When the temperature is reached, the fifth operating projection further advances and contacts the first operating contact to advance the first operating contact forward so that the first operating contact is disengaged from the first stationary contact, and the sixth operating projection further advances And the second operating contact point By further advancing toward the second fixed contact point, first it is characterized in that the second contact maintain the operating condition in contact with the second fixed contact.

According to the solution of the above problem, the temperature control device for an electric cooktop of the present invention has an effect of accurately controlling the electrothermal coils and the temperature lighting lamp in three steps according to the temperature change of the electrothermal coils.

In addition, the temperature controller for an electric cooktop of the present invention prevents malfunctions in a high-temperature environment and in repeated three-step switch operation, and minimizes breakage and damage of the apparatus.

Further, in the temperature control apparatus for an electric cooktop of the present invention, when the heating operation of the electric heating coil is stopped and the temperature of the heating coil is lower than the heating target temperature, the heating operation of the electric heating coil must be restarted, There is an effect that can be done continuously.

1 is a view showing an electric cooktop according to a first embodiment of the present invention.
2 is a view illustrating a temperature controller for an electric cooktop according to a first embodiment of the present invention.
FIG. 3 is a view showing the operation characteristics of the temperature controller for an electric cooktop according to the first embodiment of the present invention in stages.
4 is a view illustrating a temperature controller for an electric cooktop according to a second embodiment of the present invention.
FIG. 5 is a view showing the operation characteristics of the temperature controller for an electric cooktop according to the second embodiment of the present invention in stages.
6 is a view illustrating a temperature controller for an electric cooktop according to a third embodiment of the present invention.
FIG. 7 is a view showing operation characteristics of the temperature controller for an electric cooktop according to a third embodiment of the present invention in stages.
8 is a view illustrating a temperature controller for an electric cooktop according to a fourth embodiment of the present invention.
FIG. 9 is a view showing the operation characteristics of the temperature controller for an electric cooktop according to the fourth embodiment of the present invention in stages.
10 is a view showing a modified embodiment of the temperature controller for an electric cooktop according to the fourth embodiment of the present invention.
11 is a view illustrating a temperature controller for an electric cooktop according to a fifth embodiment of the present invention.

The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in more detail with reference to the accompanying drawings.

≪ Embodiment 1 >

1 to 3 are views for explaining a temperature controller for an electric cooktop according to a first embodiment of the present invention. 1 is a view showing an electric cooktop according to a first embodiment of the present invention. FIG. 2 is a view showing a temperature control apparatus for an electric cooktop according to a first embodiment of the present invention, FIG. 2 is a diagram illustrating the operation characteristics of the temperature controller for an electric cooktop according to a first embodiment of the present invention.

1 to 3, the temperature controller for an electric cooktop according to the first embodiment of the present invention includes a heat insulating case 110, a metal rod 120, a rod fixing 130, 1 contact portion 140 and a second contact portion 150. [

The heat insulating case 110 is formed of a heat insulating material and accommodates the heat transfer coil 10 and blocks the heat of the heat transfer coil 10 from being discharged to the outside on the side surface and the bottom surface except the upper side. A through hole 111 is formed in a side surface of the heat insulating case part 110 to function to draw the metal rod part 120 from the inside of the heat insulating case part 110 to the outside.

The metal rod portion 120 extends inward and outward of the heat insulating case portion 110 through the through hole 111 and elongates or contracts in the longitudinal direction on the heat side according to the temperature change of the heat transfer coil 10.

The rod fixing part 130 is mounted on the outer periphery of the metal rod part 120 and fixes the metal rod part 120 on the inner side surface of the heat insulating case part 110. That is, the rod fixing part 130 prevents the metal rod part 120 from moving inward and outward, and serves as a reference point when the metal rod part 120 extends or contracts outside the heat insulating case part 110.

The first contact part 140 is fixed to the outside of the heat insulating case part 110 and the first contact point 142 is operable according to the state of the metal rod part 120 do. The first contact part 140 operates the heat transfer coil 10 when the first fixed contact 141 and the first operating contact 142 are in contact with each other and the first fixed contact 141 and the first operating contact 142 142), the heating operation of the heat transfer coil (10) is stopped.

The second contact point 150 is fixed to the outside of the heat insulating case 110 and the second contact point 152 is operable according to the state of the metal rod 120 do. The second contact section 150 operates a temperature illumination lamp (not shown) when the second fixed contact 151 and the second operation contact 152 are in contact with each other and the second fixed contact 151 and the second operation The temperature illumination lamp is stopped when the contact 152 is released. The temperature illumination lamp is a light for notifying the user that the heating plate is hot when the heating plate is heated to a predetermined temperature or more. The heating coil 10 is heated so that the heating coil 10 is heated and turned on at a first target temperature, do.

The temperature regulating device for an electric cooktop having such a configuration has the following operating characteristics.

In the normal state of the metal rod part 120 as the first step, the first contact part 140 is contacted to operate the heat transfer coil 10, the second contact part 150 is released, and the temperature illumination lamp is stopped.

When the temperature of the heat transfer coil 10, which is the second step, reaches the first target temperature, the first contact part 140 maintains the contact state, (150) is brought into contact to operate the temperature illumination lamp.

When the temperature of the heat transfer coil 10, which is the third step, reaches the second target temperature, which is higher than the first target temperature, the metal rod portion 120 is further elongated to disengage the first contact portion 140, The first contact portion 10 is stopped and the second contact portion 150 is maintained in the contact state. The second target temperature is a temperature for cooking, and when the temperature is higher than the second target temperature, food is burnt or there is a risk of fire.

When the temperature of the heat-transfer coil 10 is lower than the second target temperature after the heat-generating operation of the heat-transfer coil 10 is stopped by the third step, the heat-generating operation of the heat-transfer coil 10 must be resumed, The on-off control of the heat transfer coil 10 is continuously performed by the contact portion 140.

2 and 3, the actual structure and operation characteristics of the first contact part 140 and the second contact part 150 will be described in more detail.

Referring to FIG. 2, the first operating contact 142 is formed at the end of the metal rod portion 120 with a larger diameter than the metal rod portion 120. The second operating contact 152 is formed to be separated from the first operating contact 142 at the end of the metal rod portion 120 to a front side in the longitudinal direction of the metal rod portion 120 with a diameter larger than that of the metal rod portion 120 do.

A first nonconductive conductor 121 is further formed at the ends of the metal rod 120 between the first and second operating contacts 142 and 152 so that the first operating contact 142, And the second operating contact 152 to prevent electrical connection.

The temperature regulating device for an electric cooktop according to the first embodiment of the present invention further includes a fixed contact support part 160 which is fastened to the outer surface of the heat insulating case part 110 at one end and is formed in parallel with the metal rod part 120 ).

The first fixed contact 141 is formed in the form of an elastic metal bar to prevent damage due to frequent friction. The first fixed contact 141 faces the first operating contact 142 on the side of the fixed contact supporting part 160, As shown in Fig. The second fixed contact 151 is formed in the shape of a metal bar of an elastic material and has a length that can be contacted to the outer peripheral surface of the second operating contact 152 from the side of the fixed contact supporting portion toward the second operating contact 152 It is possible. Here, the first stationary contact 141 and the second stationary contact 151 are spaced apart from each other in the longitudinal direction of the metal rod part 120.

3, the operating characteristics of the first contact part 140 and the second contact part 150 will be described in more detail. In a normal state of the metal rod part 120 as the first step, The first fixed contact 141 is brought into contact with the outer circumferential surface of the metal rod portion 142 and the second operating contact 152 is located behind the second fixed contact 151 in the longitudinal direction of the metal rod portion 120, The operating contact 152 is disengaged from the second stationary contact 151.

When the temperature of the heat transfer coil 10 in the second step reaches the first target temperature, the first fixed contact 141 remains in contact with the outer peripheral surface of the first operating contact 142. At this time, the second operating contact 152 advances in the longitudinal direction of the metal rod 120, and the second fixed contact 151 contacts the outer circumferential surface of the second operating contact 152.

When the temperature of the heat transfer coil 10 as the third step reaches a second target temperature higher than the first target temperature, the first operating contact 142 advances in the longitudinal direction of the metal rod portion 120, The first fixed contact 141 is detached from the outer circumferential surface of the operating contact 142. At this time, the second fixed contact 151 can be kept in contact with the outer circumferential surface of the second operating contact 152.

As described above, the temperature controller for the electric cooktop according to the first embodiment of the present invention can precisely control the electrothermal coils 10 and the temperature lighting lamp in three steps according to the temperature change of the electrothermal coils 10, And it is possible to minimize the breakage and damage of the device.

In the temperature controller for an electric cooktop according to the first embodiment of the present invention, after the heating operation of the electric heating coil 10 is stopped, the temperature of the electric heating coil 10 is lower than the heating target temperature, The on-off control of the heat-transfer coil 10 can be continuously performed, for example, when the operation is to be restarted.

≪ Embodiment 2 >

4 and 5 are views for explaining a temperature controller for an electric cooktop according to a second embodiment of the present invention. 5 is a diagram illustrating steps of operating the temperature controller for an electric cooktop according to a second embodiment of the present invention .

4 and 5, the thermostat for an electric cooktop according to the second embodiment of the present invention includes an insulating case 210, a metal rod 220, a rod fixing 230, 1 contact portion 240 and a second contact portion 250. [

The heat insulating case 210, the metal bar 220 and the bar fixing 230 of the temperature regulating device for the electric cooktop according to the second embodiment of the present invention are the same as those of the first embodiment of the present invention, 1 to 3 have the same or similar structure and operating characteristics as the heat insulating case portion 210, the metal rod portion 220 and the rod fixing portion 230 of the cooktop temperature control device, The first embodiment of the present invention will be referred to and the following description will be omitted.

Referring to FIGS. 4 and 5, the structure and operation characteristics of the first contact part 240 and the second contact part 250 will be described in more detail.

4, in order to insulate the metal rod portion 220, the first contact portion 240, and the second contact portion 250 from each other, the metal rod portion 220 has an end The second insulator 221 is formed.

The first operating contact 242 is formed in a ring plate shape and is formed to be movable in the longitudinal direction on the outer peripheral surface of the end of the metal rod portion 220. The second operating contact 252 has a ring plate shape, And is formed to be movable in the longitudinal direction on the outer circumferential surface of the end of the metal rod portion 220 by being separated from the first operating contact 242 at the end of the metal rod portion 220 to the front side in the longitudinal direction of the metal rod portion 220.

In addition, in the second embodiment of the present invention, a first power source (not shown) formed to be fixed to the outer circumferential surface of the metal bar portion 220 between the first operating contact 242 and the second operating contact 252, A first spring 273 formed between the first operation contact 242 and the first power supply plate 271 and a second spring 273 formed between the second operation contact 252 And a second spring 274 formed between the first power supply plate 272 and the second power supply plate 272. The first operating contact 242 and the second operating contact 252 are respectively connected to the first power supply plate 271 and the second power supply plate 272 through the first spring 273 and the second spring 274, The first spring 273 and the second spring 274 are formed of a metal material.

The temperature regulating device for an electric cooktop according to the second embodiment of the present invention further includes a fixed contact support part 260 which is fastened to the outer surface of the heat insulating case part 210 at one end and is formed in parallel with the metal rod part 220 ).

The first fixed contact 241 is formed in the shape of a metal bar and has a length which is in contact with the rear side of the first operating contact 242 from the side of the fixed contact supporting part 260 toward the first operating contact 242. The second fixed contact 251 is formed in the shape of a metal bar and is formed to have a length that is in contact with the front side of the second operating contact 252 from the side of the fixed contact supporting portion 260 toward the second operating contact 252 do.

5, the operating characteristics of the first contact part 240 and the second contact part 250 will be described in more detail. In a normal state of the metal rod part 220 as the first step, 273 are compressed, the front side of the first stationary contact 241 is brought into contact with the rear side of the first operating contact 242. At this time, the second operating contact 252 is positioned in the longitudinal direction of the metal rod 220 rearward than the second fixed contact 251, and the second operating contact 252 is separated from the second fixed contact 251 .

When the temperature of the heat transfer coil 10 in the second stage reaches the first target temperature, the first spring 273 expands and the first fixed contact 241 is connected to the rear side of the first operating contact 242 The front side surface remains in contact with the surface. At this time, the second operating contact 252 advances in the longitudinal direction of the metal bar portion 220, and the rear side of the second stationary contact 251 contacts the front side of the second operating contact 252.

When the temperature of the heat transfer coil 10 as the third step reaches a second target temperature higher than the first target temperature, the first operating contact 242 advances in the longitudinal direction of the metal rod portion 220, The front side of the first stationary contact 241 is released from the rear side of the operating contact 242. At this time, it is possible that the second spring 274 is compressed and the rear side of the second fixed contact 251 is kept in contact with the front side of the second operating contact 252.

As described above, the temperature controller for the electric cooktop according to the second embodiment of the present invention can precisely control the electrothermal coils 10 and the temperature lighting lamp in three steps according to the temperature change of the electrothermal coils 10, And it is possible to minimize the breakage and damage of the device.

In the temperature controller for an electric cooktop according to the second embodiment of the present invention, the temperature of the heating coil 10 is lower than the heating target temperature after the heating operation of the heating coil 10 is stopped, The on-off control of the heat-transfer coil 10 can be continuously performed, for example, when the operation is to be restarted.

≪ Third Embodiment >

6 and 7 are views for explaining a temperature controller for an electric cooktop according to a third embodiment of the present invention. 6 is a view illustrating a temperature controller for an electric cooktop according to a third embodiment of the present invention. FIG. 7 is a flowchart illustrating an operation of the temperature controller for an electric cooktop according to a third embodiment of the present invention, Fig.

6 and 7, the temperature controller for the electric cooktop according to the third embodiment of the present invention includes a heat insulating case 310, a metal rod 320, a rod fixing 330, 1 contact portion 340 and a second contact portion 350. [

The heat insulating case part 310, the metal rod part 320 and the rod fixing part 330 of the temperature regulating device for an electric cooktop according to the third embodiment of the present invention are the same as those of the first embodiment 1 to 3, since the heating rod 110 has the same or similar structure and operating characteristics as the heat insulating case 110, the metal rod 120 and the rod fixing part 130 of the cooktop thermostat, The first embodiment of the present invention will be referred to and the following description will be omitted.

Referring to FIGS. 6 and 7, the actual structure and operation characteristics of the first contact part 340 and the second contact part 350 will be described in more detail.

6, the first stationary contact point 341 has an arcuate shape and is spaced apart from the left or right of the end of the metal rod 320. The second stationary contact point 351 has an arcuate shape, And is located on the other side of the left end or the right side of the end of the rod portion 320 and is located forward of the second fixed contact 351 in the longitudinal direction of the metal rod portion 320. The circular arc shape of the first stationary contact 341 and the second stationary contact 351 is a shape corresponding to the first operating contact 342 and the second operating contact 352 that perform the rotating operation.

The first operating contact 342 is formed so as to be in contact with the first stationary contact 341 at one end thereof and in contact with the end of the metal rod portion 320 at the other end thereof, do. In addition, the third spring 343, one end of which is fastened to the outer surface of the heat insulating case part 310 and the other end is fastened to the other end of the first operating contact 342, The right angle state of the first operating contact 342 is supported. On the other hand, it is also possible to further form a first rotating shaft support 344 for supporting the center rotating shaft of the first operating contact 342.

The second operating contact 352 is spaced apart from the front of the first operating contact 342 and is formed such that one end is contactable with the second stationary contact 351 and the other end is connected to the other end of the first operating contact 342 And is formed into a rod shape so that the central portion is rotated. In addition, the fourth spring 353, one end of which is fastened to the outer surface of the heat insulating case part 310 and the other end is fastened to the other end of the second operating contact 352, The right angle state of the second operating contact 352 is supported. On the other hand, it is also possible to further form a second rotating shaft support 354 for supporting the central rotating shaft of the second operating contact 352.

Here, the contact portions of the first and second operation contacts 342 and 352 are coated with the third non-conductive material 345 so as to be insulated from each other.

Referring to FIG. 5, the operating characteristics of the first contact part 240 and the second contact part 250 will be described in more detail with respect to the first contact part 340 and the second contact part 350, One end of the first operating contact 342 is brought into contact with the first stationary contact 341 in a normal state of the metal rod 320 as the first step. At this time, one end of the second operating contact 352 is located on the front side of the second fixed contact 351 in the longitudinal direction of the metal rod portion 320, and the second operating contact 352 is connected to the second fixed contact 351, One end of which is disengaged.

When the temperature of the heat transfer coil 10 at the second stage reaches the first target temperature, the other end of the first operating contact 342 and the other end of the second operating contact 352 rotate forward, One end of the contact point 342 is rotated to the rear side, and remains in contact with the first stationary contact point 341. At this time, one end of the second operating contact 352 is rotated to the rear side and contacts the second stationary contact 351.

When the temperature of the heat transfer coil 10 in the third step reaches a second target temperature higher than the first target temperature, the other end of the first operating contact 342 and the other end of the second operating contact 352 are forward And one end of the first operating contact 342 is further pivoted to the rear side to disengage from the first stationary contact 341. [ At this time, one end of the second operating contact 352 is further rotated to the rear side, and it is possible to maintain the contact state with the second stationary contact 351.

As described above, the temperature controller for the electric cooktop according to the third embodiment of the present invention can precisely control the electrothermal coils 10 and the temperature lighting lamp in three steps according to the temperature change of the electrothermal coils 10, And it is possible to minimize the breakage and damage of the device.

Further, in the temperature controller for an electric cooktop according to the third embodiment of the present invention, after the heating operation of the electrothermal coils 10 is stopped, the temperature of the electrothermal coils 10 is lower than the heating target temperature, The on-off control of the heat-transfer coil 10 can be continuously performed, for example, when the operation is to be restarted.

<Fourth Embodiment>

8 and 9 are views for explaining a temperature controller for an electric cooktop according to a fourth embodiment of the present invention. 8 is a view illustrating a temperature controller for an electric cooktop according to a fourth embodiment of the present invention. FIG. 9 is a flowchart illustrating an operation of the temperature controller for an electric cooktop according to a fourth embodiment of the present invention. Fig.

8 and 9, the temperature controller for an electric cooktop according to the second embodiment of the present invention includes a heat insulating case part 410, a metal rod part 420, a rod fixing part 430, 1 contact section 440 and a second contact section 450.

The heat insulating case 410, the metal rod 420 and the rod fixing part 430 of the temperature regulating device for the electric cooktop according to the fourth embodiment of the present invention are arranged in the same manner as in the first embodiment of the present invention, 1 to 3, since the heating rod 110 has the same or similar structure and operating characteristics as the heat insulating case 110, the metal rod 120 and the rod fixing part 130 of the cooktop thermostat, The first embodiment of the present invention will be referred to and the following description will be omitted.

Referring to FIGS. 8 and 9, the actual structure and operation characteristics of the first contact part 440 and the second contact part 450 will be described in more detail as follows.

8, a first actuating protrusion 421 for actuating the first actuating contact 442 is further formed on one side of the left or right of the end of the metal rod portion 420, and the first actuating protrusion 421, A second actuating protrusion 422 for actuating the second operating contact 452 is further formed on the other side of the left or right side of the end of the metal rod portion 420 in the longitudinal direction of the metal rod portion 420.

The temperature regulating device for the electric cooktop according to the fourth embodiment of the present invention further includes a hexahedron-shaped operation case 461 for receiving the end of the metal bar portion 420, A first snap spring 463 provided on one side of the left or right side of the first operation protrusion 421 and having a third operation protrusion 462 corresponding to the first operation protrusion 421 so as to be rotatable in one lateral direction, A fourth actuating projection 464 corresponding to the second actuating projection 422 so as to be rotatable in the other lateral direction and provided on the other side of the left or right side of the metal rod portion 420 in the operating case 461, And a fifth spring 466 provided on the front surface of the operation case 461 and supporting the metal rod portion 420 to the rear side in the longitudinal direction.

Accordingly, the first operating contact 442 is formed at the end of the first snap spring 463, and the second operating contact 452 is formed at the end of the second snap spring 465. The first fixed contact 441 is formed on one side of the operating case corresponding to the first operating contact 442 and the second fixed contact 451 is formed in correspondence with the second operating contact 452, 461 on the other side.

9, the operation characteristics of the first contact part 440 and the second contact part 450 will be described in more detail. In a normal state of the metal rod part 420 as the first step, the first operation protrusions 421 Contacts the third operating projection 462 and the first operating contact 442 contacts the first stationary contact 441 with the first snap spring 463 rotating in one lateral direction. At this time, the second movable contact 452 is separated from the second fixed contact 451.

When the temperature of the heat transfer coil 10 at the second stage reaches the first target temperature, the first operation protrusion 421 is moved forward but remains in contact with the third operation protrusion 462, The contact 442 remains in contact with the first fixed contact 441. [ At this time, the second actuating projection 422 also advances and contacts the fourth actuating projection 464, so that the second snap spring 465 rotates in the other lateral direction, and the second actuating contact 452 is moved to the second stationary contact (451).

Further, when the temperature of the heat transfer coil 10 as the third step reaches the second target temperature higher than the first target temperature, the first operating projection 421 further advances and is released from the third operating projection 462, The first snap spring 463 rotates in the other direction and the first operating contact 442 is disengaged from the first fixed contact 441. [ At this time, the second operation projection 422 is further advanced, but remains in contact with the fourth operation projection 464, so that the second operation contact 452 remains in contact with the second fixed contact 451 It is possible.

10 is a view showing a modified embodiment of the temperature controller for an electric cooktop according to the fourth embodiment of the present invention.

10, it is possible to further form the ceramic tube 530 in place of the rod fixing portion 430 in the modified embodiment of the temperature controller for the electric cooktop according to the fourth embodiment of the present invention. In this case, since the metal rod portion 420 is formed to be movable in the longitudinal direction in the ceramic tube 530, when the metal rod portion 420 is contracted, the metal rod portion 420 is provided on the front surface of the operation case 461, The metal rod portion 420 can be returned by the fifth spring 466 that supports the rod portion 420 to the rear side in the longitudinal direction.

As described above, the temperature controller for the electric cooktop according to the fourth embodiment of the present invention can precisely control the electrothermal coils 10 and the temperature lighting lamp in three steps according to the temperature change of the electrothermal coils 10, And it is possible to minimize the breakage and damage of the device.

In the temperature control apparatus for an electric cooktop according to the fourth embodiment of the present invention, after the heating operation of the electric heating coil 10 is stopped, the temperature of the electric heating coil 10 is lower than the heating target temperature, The on-off control of the heat-transfer coil 10 can be continuously performed, for example, when the operation is to be restarted.

<Fifth Embodiment>

11 is a view illustrating a temperature controller for an electric cooktop according to a fifth embodiment of the present invention.

11, the thermostat for an electric cooktop according to the fifth embodiment of the present invention includes a heat insulating case part 610, a metal rod part 620, a rod fixing part 630, (640) and a second contact (650).

The heat insulating case part 610, the metal rod part 620 and the rod fixing part 630 of the temperature regulating device for an electric cooktop according to the fifth embodiment of the present invention are the same as those of the first embodiment of the present invention, 1 to 3, since the heating rod 110 has the same or similar structure and operating characteristics as the heat insulating case 110, the metal rod 120 and the rod fixing part 130 of the cooktop thermostat, The first embodiment of the present invention will be referred to and the following description will be omitted.

Referring to FIG. 11, the actual structure and operation characteristics of the first contact portion 640 and the second contact portion 650 will be described in more detail as follows.

11, a fifth operation protrusion 662 for actuating the first operation contact 642 toward the front at one side edge of the left or right side of the end surface of the metal bar portion 620 is further formed. Further, a sixth actuating projection 663 for actuating the second actuating contact 652 toward the front is further formed at the other side edge of the left or right side of the end surface of the metal rod portion 620.

The temperature regulating device for the electric cooktop according to the fifth embodiment of the present invention further includes a hexahedron-shaped operation case 661 for receiving the end of the metal rod portion 620, An adjustment screw 664 provided on the right side of the operation case 661 and supporting the first and second fixed contacts 652 and 651 rearward and adjusting the front and rear positions, And a sixth spring 665 provided on the outer peripheral surface of the end of the metal bar portion 620 to support the metal rod portion 620 in the longitudinal direction.

The first fixed contact 641 is formed in the shape of a metal bar and is formed toward one side of the left side or the right side of the operation case 661 toward the metal rod portion 620. The first movable contact 642 The first fixed contact 641 and the second fixed contact 641 are formed in the shape of a metal bar of an elastic material and are spaced apart from the front of the first fixed contact 641 so that the contact protrusions 643 are formed rearward and protrude more toward the metal rod portion 620 than the first fixed contact 641 So as to be in contact with the fifth operating protrusion 662. [

The second fixed contact 651 is formed in the shape of a metal bar of an elastic material and is formed toward the metal rod portion 620 on the other side of the left side or the right side of the operation case 661 and the second movable contact 652 And the sixth actuating protrusion 663 protrudes further than the second fixed contact 651 toward the metal rod portion 620. The sixth actuating protrusion 663 is formed on the rear side of the second fixed contact 651, As shown in Fig.

The operation of the first contact 640 and the second contact 650 will be described in more detail below. In the normal state of the metal rod 620 as the first step, The first operating contact 642 is brought into contact with the fixed contact 641 and the second operating contact 652 is separated from the second fixed contact 651 by the separation distance.

When the temperature of the heat transfer coil 10 in the second stage reaches the first target temperature, the fifth operation protrusion 662 advances but maintains a state of not contacting the first operation contact 642, The sixth operation protrusion 663 advances and contacts the second operation contact 652 so that the second operation contact 652 is moved forward And contacts the second fixed contact 651.

When the temperature of the heat transfer coil 10 in the third step reaches a second target temperature higher than the first target temperature, the fifth operation protrusion 662 further advances and contacts the first operation contact 642, 1 operating contact 642 is advanced forward so that the first operating contact 642 is disengaged from the first stationary contact 641 and the sixth operating protrusion 663 is further advanced to move the second operating contact 652 It is possible to further advance toward the front second fixed contact 651 to keep the second operating contact 652 in contact with the second fixed contact 651. [

Meanwhile, in the temperature controller for an electric cooktop according to the fifth embodiment of the present invention, the rod fixing part 630 may be formed of a ceramic tube, in which case the metal rod part 620 is formed in the ceramic tube 630 When the metal rod portion 620 is contracted, the sixth spring 665, which is provided in the operation case 661 and supports the metal rod portion 620 backward in the longitudinal direction, The metal rod portion 620 can be returned. On the other hand, the rod fixing portion of the fifth embodiment may be employed as the structure of the rod fixing portions of the first to fourth embodiments.

As described above, according to the fifth embodiment of the present invention, the electrothermal coil 10 and the temperature lighting lamp can be accurately controlled in three steps according to the temperature change of the electrothermal coil 10, And it is possible to minimize the breakage and damage of the device.

In the temperature controller for an electric cooktop according to the fifth embodiment of the present invention, when the heating operation of the electric heating coil 10 is stopped, the temperature of the electric heating coil 10 is lower than the heating target temperature, The on-off control of the heat-transfer coil 10 can be continuously performed, for example, when the operation is to be restarted.

As described above, it is to be understood that the technical structure of the present invention can be embodied in other specific forms without departing from the spirit and essential characteristics of the present invention.

Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

10: Heating coil
110, 210, 310, 410, 610:
111, 211, 311, 411, 611: through holes
120, 220, 320, 420, 620: metal bar portion
121: the first conductor
130, 230, 330, 430, 630:
140, 240, 340, 440, 640:
150, 250, 350, 450, 650: the second contact portion
141, 241, 341, 441, 641:
142, 242, 342, 442, 642:
151, 251, 351, 451, 651:
152, 252, 352, 452, 652:
160, 260: Fixed contact point support
221: Secondary insulator
270: Power supply
271: first power supply plate
272: second power supply plate
273: first spring
274: Second spring
343: third spring
344: First coaxial support
345: Third conductor
353: fourth spring
354: second coaxial shaft
421: first operating projection
422: second operating projection
461 661: Operating case
462: third operating projection
463: first snap spring
464: fourth operating projection
465: Second snap spring
466: fifth spring
530: Ceramic tube
643: contact protrusion
662: fifth operation projection
663: Sixth operation projection
664: Adjusting screw
665: sixth spring

Claims (11)

A heat insulating case portion accommodating the heat transfer coil and having a through hole formed in a side surface thereof;
A metal rod portion extending inward and outward of the heat insulating case portion through the through hole and extending or contracting in the longitudinal direction according to a temperature change of the heat transfer coil;
A rod fixing part mounted on the outer periphery of the metal rod part and fixing the metal rod part to the inner side surface of the heat insulating case part;
A first fixed contact is fixed to the outside of the heat insulating case part and a first operating contact is provided to be operable according to the state of the metal rod part and the heating coil is operated when the first fixed contact and the first operating contact come into contact, A first contact part for stopping the electric heating coil when the first fixed contact and the first operating contact are off; And
A second fixed contact is fixed on the outside of the heat insulating case part and a second operating contact is provided to be operable in accordance with the state of the metal rod part and a temperature lighting lamp is activated when the second fixed contact and the second operating contact are contacted, A second contact portion for stopping the temperature lighting lamp when the fixed contact and the second operating contact are off;
/ RTI &gt;
In the normal state of the metal rod portion, the first contact portion is brought into contact with the electric heating coil, the second contact portion is released, the temperature lighting lamp is stopped,
Wherein when the temperature of the heat transfer coil reaches a first target temperature, the first contact portion maintains a contact state, the second contact portion is contacted by extension of the metal rod portion,
When the temperature of the heat transfer coil reaches a second target temperature higher than the first target temperature, the metal rod portion is extended further to release the first contact portion and stop the heat transfer coil, and the second contact portion is in a contact state And the temperature of the electric cooktop is maintained. The method according to claim 1,
Wherein the first operating contact is formed at an end of the metal rod portion with a diameter larger than that of the metal rod portion and the second operating contact is formed to have a diameter larger than that of the metal rod portion from the first operating contact at the end of the metal rod portion A first non-conductive portion is formed between the first and second operating contacts and between the first and second operating contacts,
Further comprising a stationary contact supporter, one end of which is fastened to the outer surface of the heat insulating case part and is formed in parallel with the metal rod part,
Wherein the first fixed contact is formed in a shape of a metal bar of an elastic material and is formed to have a length that is able to contact the outer peripheral surface of the first operating contact from the side of the fixed contact supporting portion toward the first operating contact, And is formed in a shape of a metal bar of an elastic material and is formed to have a length which is in contact with the outer circumferential surface of the second operating contact point from the side of the stationary contact supporting portion toward the second operating contact point. 3. The method of claim 2,
The first fixed contact is brought into contact with the outer circumferential surface of the first operating contact and the second operating contact is located behind the second fixed contact in the longitudinal direction of the metal rod portion in the normal state of the metal rod portion, The second movable contact is separated from the second fixed contact,
Wherein when the temperature of the heat transfer coil reaches a first target temperature, the first fixed contact is held in contact with the outer peripheral surface of the first operating contact, and the second operating contact advances in the longitudinal direction of the metal rod portion The second fixed contact is brought into contact with the outer peripheral surface of the second operating contact,
When the temperature of the heat transfer coil reaches a second target temperature higher than the first target temperature, the first operating contact advances in the longitudinal direction of the metal rod portion, and the first stationary contact And the second fixed contact is kept in contact with the outer circumferential surface of the second operating contact. The method according to claim 1,
Wherein the first operating contact is formed in a ring plate shape and is movable in the longitudinal direction on the outer peripheral surface of the end of the metal rod portion, the second operating contact is formed to be movable in the longitudinal direction on the outer peripheral surface of the end of the metal rod portion, And is formed so as to be movable in the longitudinal direction on the outer peripheral surface of the end of the metal rod portion, spaced from the first operating contact at the end of the metal rod portion in the longitudinal direction of the metal rod portion,
A first power supply plate and a second power supply plate formed to be fixed to an outer circumferential surface of the metal rod portion between the first and second operation contacts and spaced apart from each other, And a power supply unit including a first spring formed between one power supply plate and a second spring formed between the second operation contact and the second power supply plate,
Further comprising a stationary contact supporter, one end of which is fastened to the outer surface of the heat insulating case part and is formed in parallel with the metal rod part,
Wherein the first fixed contact is formed in a metal bar shape and is formed to have a length that is able to contact the rear side of the first operating contact from the side of the fixed contact supporting portion toward the first operating contact, And is formed to have a length that is capable of contacting the front surface of the second operating contact point from the side of the stationary contact point supporting member toward the second operating contact point. 5. The method of claim 4,
The front side of the first fixed contact is brought into contact with the rear side of the first operating contact in a state where the first spring is compressed in a normal state of the metal rod portion and the second operating contact is moved in the longitudinal direction of the metal rod portion The second movable contact is located at a rear side of the second fixed contact, and the second movable contact is separated from the second fixed contact,
Wherein when the temperature of the heat transfer coil reaches a first target temperature, the first spring is inflated to maintain the front side of the first fixed contact in contact with the rear side of the first operating contact, The contact is advanced in the longitudinal direction of the metal rod portion and the rear side of the second stationary contact is brought into contact with the front side of the second operating contact,
When the temperature of the heat transfer coil reaches a second target temperature which is higher than the first target temperature, the first operating contact advances in the longitudinal direction of the metal rod portion to move from the rear side of the first operating contact to the first fixed contact And the second spring is compressed to maintain a state in which the rear surface of the second stationary contact is in contact with the front surface of the second operating contact. The method according to claim 1,
Wherein the first stationary contact has an arcuate shape and is spaced apart from one of left and right ends of the metal rod portion,
Wherein the second fixed contact is formed in an arcuate shape and is spaced apart from the other of left and right ends of the end of the metal rod portion and is located forward of the second fixed contact in the longitudinal direction of the metal rod portion,
Wherein the first operating contact is formed in a bar shape such that one end thereof is in contact with the first stationary contact and the other end is in contact with the end of the metal rod portion, And a third spring fixed to the other end of the first operating contact to support the first operating contact in the longitudinal direction of the metal rod portion,
The second operating contact is disposed so as to be spaced apart from a front side of the first operating contact so that one end thereof is contactable with the second stationary contact and the other end is capable of contacting the other end of the first operating contact, A fourth spring which is formed in a bar shape and has one end fixed to the outer surface of the heat insulating case part and the other end fixed to the other end of the second operation contact, Lt; / RTI &gt;
And the contact portion of the first operating contact and the second operating contact is coated by the third non-conductive material. The method according to claim 6,
One end of the first operating contact is brought into contact with the first fixed contact and the other end of the second operating contact is positioned in front of the second fixed contact in the longitudinal direction of the metal rod portion in a normal state of the metal rod portion , One end of the second operating contact is separated from the second fixed contact,
The other end of the first operating contact and the other end of the second operating contact are pivoted forward when the temperature of the heat transfer coil reaches the first target temperature and one end of the first operating contact is pivoted rearward, Wherein one end of the second operating contact is pivoted rearward to be in contact with the second stationary contact,
When the temperature of the heat transfer coil reaches a second target temperature higher than the first target temperature, the other end of the first operating contact and the other end of the second operating contact further turn forward, Is further rotated to the rear side so as to be separated from the first stationary contact, and one end of the second operating contact further rotates to the rear side, while maintaining the state of being in contact with the second stationary contact . The method according to claim 1,
A first actuating projection for actuating the first operating contact is further formed on one side of the left or right side of the end of the metal rod portion, Or a second actuating projection for actuating the second actuating contact on the other side of the right side,
A second operating protrusion provided on the other side of the first operating protrusion so as to be rotatable in one lateral direction of the operating rod; And a fourth operating protrusion provided on the other side of the left or right side of the metal rod portion in the operating case and rotatable in the other side direction, And a fifth spring provided on the front surface of the operation case and supporting the metal rod portion to the rear side in the longitudinal direction,
The first operating contact is formed at an end of the first snap spring, the second operating contact is formed at an end of the second snap spring,
The first fixed contact is formed on one side of the operation case corresponding to the first operation contact and the second fixed contact is formed on the other side of the operation case corresponding to the second operation contact. Temperature regulating device for an electric cooktop. 9. The method of claim 8,
The first actuating projection is brought into contact with the third actuating projection and the first actuating contact is brought into contact with the first stationary contact in a state in which the first snap spring is rotated in one lateral direction in a normal state of the metal rod portion, And the second movable contact is separated from the second fixed contact,
Wherein when the temperature of the heat transfer coil reaches the first target temperature, the first operating projection is advanced and kept in contact with the third operating projection so that the first operating contact is in contact with the first stationary contact Wherein the second operating projection is advanced and contacts the fourth operating projection, the second snap spring pivots in the other lateral direction, and the second operating contact contacts the second fixed contact,
When the temperature of the heat transfer coil reaches a second target temperature higher than the first target temperature, the first operating projection further advances and is disengaged from the third operating projection, and the first snap spring pivots in the other direction The first operating contact is released from the first stationary contact and the second operating protrusion further advances while being kept in contact with the fourth operating protrusion so that the second operating contact contacts the second stationary contact And the temperature of the electric cooktop is maintained. The method according to claim 1,
A fifth actuating protrusion for actuating the first actuating contact is formed forward from one side edge of the left or right side of the end surface of the metal rod portion and a fifth actuating protrusion is formed on the other side edge of the end surface of the metal rod A sixth actuating projection for actuating the second actuating contact is further formed,
A hexahedron-shaped operating case for receiving the ends of the metal rod portions; and a plurality of first and second fixed contacts provided on left and right sides of the front surface of the operating case, respectively, for supporting the first and second fixed contacts backward, And a sixth spring provided on an outer circumferential surface of an end portion of the metal rod portion in the operation case and supporting the metal rod portion in the longitudinal direction backward,
Wherein the first fixed contact is formed in the form of a metal bar and is formed to face the metal rod part on one side of the left side or the right side in the operation case and the first operating contact is in the form of a metal bar of elastic material, A contact protrusion formed on the front side of the contact point, the contact protrusion protruding rearward, protruding more toward the metal rod than the first fixed contact, and being contactable with the fifth operation protrusion,
Wherein the second fixed contact is formed in a metal bar shape of an elastic material and is formed to face the metal rod portion on the left side or the right side of the right side in the operation case, Wherein the second fixed contact is formed to be spaced apart from the rear of the second fixed contact and further protruded from the second fixed contact toward the metal rod so as to be in contact with the sixth actuating projection. 11. The method of claim 10,
The first operating contact is brought into contact with the first fixed contact by the contact protrusion in a normal state of the metal rod portion and the second operating contact is separated from the second fixed contact by the separation distance,
Wherein when the temperature of the heat transfer coil reaches the first target temperature, the fifth operating projection advances and maintains the non-contact state with the first operating contact, and when the first operating contact is in contact with the first stationary contact The sixth actuating projection advances and contacts the second actuating contact so that the second actuating contact advances and contacts the second stationary contact,
When the temperature of the heat transfer coil reaches a second target temperature higher than the first target temperature, the fifth operating projection further advances and contacts the first operating contact to advance the first operating contact forward, The first operating contact is disengaged from the first stationary contact, the sixth operating protrusion further advances, and further advances the second operating contact toward the second stationary contact at the front, (2) is kept in contact with the stationary contact.

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