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CN1039515C - Thermal protector - Google Patents

Thermal protector Download PDF

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Publication number
CN1039515C
CN1039515C CN95101452A CN95101452A CN1039515C CN 1039515 C CN1039515 C CN 1039515C CN 95101452 A CN95101452 A CN 95101452A CN 95101452 A CN95101452 A CN 95101452A CN 1039515 C CN1039515 C CN 1039515C
Authority
CN
China
Prior art keywords
responsive element
heat responsive
spring leaf
fixed
plate
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
CN95101452A
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Chinese (zh)
Other versions
CN1114782A (en
Inventor
水谷靖和
小关秀树
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ubukata Industries Co Ltd
Original Assignee
Ubukata Industries Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ubukata Industries Co Ltd filed Critical Ubukata Industries Co Ltd
Publication of CN1114782A publication Critical patent/CN1114782A/en
Application granted granted Critical
Publication of CN1039515C publication Critical patent/CN1039515C/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H37/00Thermally-actuated switches
    • H01H37/02Details
    • H01H37/32Thermally-sensitive members
    • H01H37/52Thermally-sensitive members actuated due to deflection of bimetallic element
    • H01H37/54Thermally-sensitive members actuated due to deflection of bimetallic element wherein the bimetallic element is inherently snap acting
    • H01H2037/5463Thermally-sensitive members actuated due to deflection of bimetallic element wherein the bimetallic element is inherently snap acting the bimetallic snap element forming part of switched circuit
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H37/00Thermally-actuated switches
    • H01H37/02Details
    • H01H37/32Thermally-sensitive members
    • H01H37/52Thermally-sensitive members actuated due to deflection of bimetallic element
    • H01H37/54Thermally-sensitive members actuated due to deflection of bimetallic element wherein the bimetallic element is inherently snap acting
    • H01H37/5427Thermally-sensitive members actuated due to deflection of bimetallic element wherein the bimetallic element is inherently snap acting encapsulated in sealed miniaturised housing

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  • Thermally Actuated Switches (AREA)

Abstract

To provide a compact thermal protector having stable performance. A thermal protector 1 has a cover plate 5, a thermal actuation plate support body 6 is fixed on a metal plate 2 of the cover plate 5, and a fixed contact 8 is fixed on a conductive terminal 3 through a fixed contact support body 7. One end of a resilient plate 9 is fixed to the thermal actuation plate support body 6, and a thermal plate 10 is fixed to the other end of the resilient plate 9. A movable contact 12 is fixed to the thermal actuation plate 10 to face the fixed contact 8. The thermal actuation plate 10 is pressed and supported by a screw 13 as a first support part provided in the thermal actuation plate support body 6 around its center. The movable contact 12 is pressed to the fixed contact 8, and around its fixture point to the resilient plate 9 is pressed to a second support part 6A at a forward end of the thermal actuation plate support body 6. Contact parts between the support parts 13, 6A with the thermal actuation plate 10 are insulated by a thin plate of an insulation member 14 having a sufficient heat resistance and flexibility. A bypass current can thus be prevented from generation through the thermal actuation plate support body 6, or unevenness in action of the protector 1 can be eliminated.

Description

Thermal protector
The present invention relates to thermal protector; this protector comprises heat responsive element and at least one pair of contact of bimetallic or three metals; this heat responsive element has discoidal sweep; this sweep response environment variation of temperature is jerked and is made it oppositely crooked; this pair of contact is because jerking of heat responsive element and make-and-break contact, prevents that thus electrical equipment such as electro-motor is overheated and flows through excessive electric current.
In the open No.62-88232 of Japanese unexamined patent application (publishing in 1987), announced the overheat protector of the above-mentioned type.With reference to Fig. 5; disclosed thermal protector 101 comprise pack into switching mechanism and have open end outer cover 113, be used for the sealing cover open end and have the metal end plate 102 and the conductive electrode pin 104 of through hole; this electrode pin 104 is passed the through hole of end plate 102 and is fixed in this through hole with insulation materials 103 such as for example glass, and electrode pin 104 and end plate 102 are electrically insulated from each other.The following describes switching mechanism, an end of supporting member 105 is fixed on the end plate.The end that the fixed contact supporting member 107 of fixed contact 106 is housed on it is fixed on the electrode pin 104.An end of spring leaf 108 is fixed on this supporting member at the anchor portion place near supporting member 105.For example be fixed on the brace 110 end of bimetal piece by thermal deformation element or heat responsive element 109, this brace is fixed on another end of spring leaf 108 again.Heat responsive element 109 comprises the sweep 109A that discoidal middle part is superficial, and when reaching predetermined operating temperature, the unexpected quick action of this sweep makes it oppositely crooked.Heat responsive element 109 has the moving contact 111 that is fixed on its another end, and this moving contact 111 contacts with separated with fixed contact 106 along with jerking of heat responsive element 109.Supporting member 105 has a middle part through hole about the middle part, the screw 112 that is used for proofreading and correct the heat responsive element operating temperature is screwed into this through hole.This screw 112 also constitutes first supporting area.The above-mentioned switching mechanism of outer cover 113 gas-tight seals.
The end relative with end fixing moving contact heat responsive element 109 presses against the second supporting area 105A by spring leaf 108 and goes up or push away on the distal portion of supporting member 105, makes heat responsive element 109 be supported rotationally.When heat responsive element 109 was in or is lower than predetermined temperature, the protruding side surface of this element sweep was pressed against on the screw 112 as first supporting area, makes heat responsive element 109 be subjected to the thrust of screw 112.It is the power that banking motion is carried out at the center with the second supporting area 105A that this of thrust generation makes heat responsive element 109.Thereby moving contact 111 is pressed against on the fixed contact 106 with predetermined pressure.When the temperature of heat responsive element 109 surpassed predetermined value, its sweep was jerked, and make it oppositely crooked, thereby moving contact 111 separated with fixed contact 106.So device and equipment by the thermal protector protection can cut off the power supply under predetermined temperature.
In the thermal protector of the above-mentioned type; electric current flows through the main current circuit between outer cover 113 and electrode pin 104, promptly flows through moving contact 111, heat responsive element 109, brace 110, the spring leaf 108 that is electrically connected with electrode pin 104 and is connected electrically in the end plate 102 of the electrode of conduct on the outer cover 113.In addition, electric current also flows through first bypass, flows through moving contact 111, a part of heat responsive element 109, first supporting area 112, a part of supporting member 105 and end plate 102 successively.In addition, electric current also flows through second bypass, promptly flows through moving contact 111, heat responsive element 109, brace 110, the second supporting area 105A, supporting member 105 and end plate 102 successively.Depend on the contact resistance that on each position of first and second supporting areas 112,105A, exists because flow through the electric current of first and second bypasses, alter a great deal so flow through the electric current of every bypass.Thereby also great changes will take place to flow through the electric current of main current circuit.
When the resistance value of spring leaf 108 and heat responsive element 109 is very low, the time spent of doing that makes switching mechanism play temperature switch, promptly heat responsive element 109 is only during the response environment variation of temperature in this switch, and said structure can not produce any problem.But work as spring leaf and heat responsive element and have sizable resistance value; make not only response environment temperature but also respond when operating of heat responsive element 109 by the electric current that flows through it; the heat that produces is just not enough, and the electric current that perhaps flows through main current circuit alters a great deal for different thermal protector products.So just, can not reach stable operating characteristic.
Therefore the purpose of this invention is to provide a kind of thermal protector, in this protector, can stablize response, and the variation because of the easy response time of product can be reduced to minimum electric current.
In order to achieve the above object, thermal protector provided by the invention comprises the end plate of outer cover with open end, gas-tight seal housing opening end and is enclosed in the switching mechanism of outer cover.Switching mechanism comprises the fixed contact of fixed configurations in the end plate side, end is fixed on the metal carrier on the end plate side, spring leaf, heat responsive element, support section and metal correcting unit, spring leaf has predetermined resistance value, one end thereof is fixed on this metal carrier near the side that metal carrier is connected with end plate, heat responsive element is made by the shape-changing material that is heated, it comprises sweep, this sweep response environment variation of temperature forms spill and convex, an end of heat responsive element is being connected on this spring leaf near place, spring leaf the other end, on the other end of heat responsive element, has moving contact, this contact can contact with fixed contact and be separated, on the other end of this metal carrier, form above-mentioned support section, this support section withstands the elastic force of spring leaf and supports the free end of this spring leaf, and make this free end can carry out becoming the banking motion of spill and convex by the heat responsive element sweep, heat responsive element is being connected on the spring leaf near the spring leaf free end, above-mentioned correcting unit is contained on the metal carrier, be used for the correct operation temperature, the sweep of heat responsive element forms depression or projection under this operating temperature, correcting unit is pressed against on the sweep of heat responsive element with predetermined pressure, the contact pressure that this pressure is applied on the fixed contact moving contact increases, and the contact pressure that also makes the free end of spring leaf be applied to support section increases.Switching mechanism is characterised in that and inserts first insulating part between heat responsive element and correcting unit, they are electrically insulated from each other.
According to above-mentioned thermal protector, electric current does not flow through from heat responsive element by first bypass of correcting unit to metal carrier.Therefore by the electric current of main current circuit, promptly order can be stabilized by the electric current of heat responsive element and spring leaf, thus can the steady heat response element to the response of electric current.
Can between the free end of the support section of metal carrier and spring leaf, insert second insulating part, make between them to be electrically insulated from each other.Because electric current does not flow through second bypass, promptly do not flow through metal carrier from the support section of heat responsive element by metal carrier, thereby the further response of steady heat response element.
Metal connecting piece can insert between spring leaf and heat responsive element, so that these two parts are coupled together.First and second insulating parts can be used the insulating material monolithic molding of plate-shaped, and the plate-shaped insulating material can form an opening, and connector passes this opening, makes the plate-shaped insulating material be fixed on the end of heat responsive element.
Following with reference to description of drawings the preferred embodiments of the present invention, will know other purpose of the present invention, feature and advantage more like this.
Fig. 1 is the view in transverse section of the thermal protector of one embodiment of the present of invention.
Fig. 2 is the longitdinal cross-section diagram of thermal protector;
Fig. 3 is the plane graph that is used in the insulating element in the thermal protector;
Fig. 4 is the decomposition diagram that is used in spring leaf, heat responsive element and insulating element in the thermal protector;
Fig. 5 is the view in transverse section of prior art thermal protector.
Referring now to Fig. 1-4 explanation one embodiment of the present of invention.Among Fig. 1, thermal protector 1 of the present invention comprises the end plate 5 that is made of circular metal plate 2.Metallic plate 2 has through hole 2A, and conductive electrode pin 3 passes this hole, and with for example electric insulation such as glass or pottery filler 4 airtight being fixed in this hole.An end of the supporting member 6 of the metal strip of supporting hot response element 10 is fixed on the metallic plate 2.An end in two ends of the supporting member 7 of fixed contact is fixed on the electrode pin 3.Fixed contact 8 is fixed on the other end of fixed contact supporting member 7.
An end of two ends of bar-spring sheet 9 is fixed on this heat responsive element supporting member 6 near the side that heat responsive element supporting member 6 is connected with metallic plate 2.Spring leaf 9 is in substantially parallel relationship to heat responsive element supporting member 6.Heat responsive element 10 a for example end in two ends of bimetal leaf is fixed on the brace 11, and this brace is fixed on again on the other end of spring leaf 9.Heat responsive element 10 comprises the sweep 10A of tray shape, and as following will the explanation, when this sweep 10A reaches predetermined temperature, it will be jerked, and its bending is swung to.Heat responsive element 10 can directly be fixed on the spring leaf 9, and without brace 11.Have moving contact 12 on another end of heat responsive element 10, make this moving contact 12 to contact and break away from and it contact with fixed contact 8.Heat responsive element supporting member 6 has middle part through hole 6C, is screwed into this hole as the screw 13 of calibrator unit.Screw 13 constitutes first supporting area.The distal portion of heat responsive element supporting member 6 has the elastic force that withstands spring leaf 9 and with the support section 6A that the coupling part as itself and heat responsive element 10 of free end of connector 11 or spring leaf 9 is supported, and making that this free end 9A can carry out heat responsive element 10 should heat and banking motion when becoming bending direction.Support section 6A constitutes second supporting area.
In above-mentioned structure, spring leaf 9 is pressed against the coupling part between brace 11 or heat responsive element 10 and the spring leaf 9 on the support section 6A, and heat responsive element 10 is applied a power, and this power is separated moving contact 12 and fixed contact 8.Be passed in through hole (not shown) on spring leaf 9 middle bodies as the metallic screw 13 of first supporting area, it at room temperature is pressed against on the nonreentrant surface of heat responsive element 10, but this screw does not contact with spring leaf 9.The insulating element 14 of configuration plate-shaped on heat responsive element 10 directly contacts with brace 11 with heat responsive element 10 respectively with 6A to prevent first and second supporting areas 13.Insulating element 14 usefulness heat resisting temperatures are higher than the material of heat responsive element 10 operating temperatures.For example, when the operating temperature of heat responsive element 10 was aligned in 150 ℃, insulating element 14 was 200 ℃ or higher material with for example heat resisting temperature preferably, for example uses aromatic polyamides (aramid) paper to make.
The thin sheet form that insulating element 14 forms as shown in Figure 3.The heart takes over insulating element 14 therein that any has rectangular through holes 14A, as shown in Figure 3.Be fixed on brace 11 on the heat responsive element 10 and pass the through hole 14A of insulating element 14 along the direction of Fig. 4 arrow A.Connector 11 and then be fixed on the spring leaf 9 makes insulating element 14 fix in position.Make spring leaf 9 by being fixed on as mentioned above on the heat responsive element supporting member 6 subsequently, make the lengthy motion picture 14B of insulating element 14 between heat responsive element 10 and screw 13, its short-movie 14C then is inserted between brace 11 and the support section 6A.Thereby heat responsive element 10 and screw 13 be electrically insulated from each other, and is electrically insulated from each other between brace 11 and the support section 6A.
The correction of the operating temperature of explanation thermal protector 1 now.The operating temperature aligning gear is included in the elongate slot 6B that processes with pressing on the supporting member 6 and passes the screw 13 of the hole 6C on this seam 6B.Both sides at seam 6B on supporting member 6 also have two elongate slot 6D and 6E along this seam respectively.Owing to have seam 6B, 6D and 6E, thereby form two elongate strip part 6F and 6G.
The internal diameter of perforate 6C is set to the external diameter less than screw 13.When needs correct operation temperature, when screw 13 was screwed into perforate 6C, seam 6B expanded outwardly, and forms helicla flute on the inner peripheral surface of perforate 6C.Owing to each elongate strip part 6F of causing of expansion of seam 6B and the elastic force of 6G can firmly fix screw 13, it can not be rotated, thereby can prevent that screw 13 from returning again after proofreading and correct.In addition, when screw 13 is screwed into perforate 6C, be the surface of protruding side during the room temperature of its far-end by insulating element 14 pushing heat responsive elements 10.The pushing force that adjusting is produced by screw 13 can increase or reduce the contact pressure between the support section 6A of the free end 9A of contact pressure between moving contact 12 and the fixed contact 8 and spring leaf 9 and supporting member 6.Therefore the amount of being screwed into of adjustment screw 13 can make the crooked reverse operating temperature of the bend of heat responsive element 10 accurately be set in required value.Proofread and correct in a manner described after the operating temperature of heat responsive element 10, end plate 5 is fixed on the outer cover 15 airtightly with annular projection welding method.
Be connected on the heat responsive element 10 and have very big rigidity for power, then more be rich in flexibility in power than heat responsive element perpendicular to the directive effect on this plane for it along its in-plane effect so that support the spring leaf 9 of this element.Thereby, during the correct operation temperature, can prevent to form excessive bending stress by the power that screw 13 is applied on the heat responsive element 10.Under the prior art state, the curved shape of heat responsive element 10 is some difference inevitably.When the structure of thermal protector is that an end of heat responsive element 10 is fixed on the supporting member 6 and during without spring leaf 9; when the sweep of heat responsive element 10 has bigger curvature; before the correct operation temperature, just increased the contact pressure between moving contact 12 and the fixed contact 8.Thereby bigger bending stress is applied in the part near its anchor portion of heat responsive element 10.In addition, when the bending curvature of heat responsive element 10 too hour, then to be screwed into screw 13, make the stress that is added on the heat responsive element 10 greater than the pressure that needs usually, between moving contact 12 and fixed contact 8, form enough contact pressures thus.In this case, the part near its anchor portion at heat responsive element 10 also is subjected to bigger bending stress.
Yet in the above-described embodiments, the support side end of heat responsive element 10 is connected on the spring leaf 9.And this coupling part spring leaf free end 9A nearby is supported on the support section 6A of supporting member 6, so that perpendicular to the enterprising line tilt campaign of the direction on heat responsive element 10 planes.Therefore even under thermal response component 10 was subjected to situation than macrobending stress, the free end 9A of spring leaf 9 can carry out banking motion and slide slightly, makes most of bending stress be absorbed by spring leaf 9.Concentrate on the close part of its supporting end of heat responsive element 10 because can prevent bending stress,, can prevent that thus the operating characteristic of thermal protector from changing so heat responsive element 10 can not produce permanent deformation.In addition, can also prevent that thermal protector from causing the problem that descends useful life owing to stress is concentrated.
Thermal protector of the present invention is in response to overcurrent and superheat state and make circuitry cuts.The operating characteristic of thermal protector is relevant with the heat that the various parts that are provided with for this purpose produce.Specifically, make the resistance of heat responsive element 10 and spring leaf 9 have separately predetermined value.For example design heat responsive element 10 and spring leaf 9 like this, even make when ambient temperature is lower than the operating temperature of thermal protector, the electric current that flows through thermal protector also can make this two parts heatings.When the electric current of predetermined value or excessive electric current flow through thermal protector, the temperature of heat responsive element 10 just was raised to it more than correct operation temperature, and heat responsive element 10 is just jerked thus, makes it oppositely crooked, thereby moving contact 12 breaks away from fixed contacts 8.
In above-mentioned thermal protector, electric current flows through electrode pin 3, fixed contact supporting member 7, fixed contact 8, moving contact 12, heat responsive element 10, brace 11, spring leaf 9, portion of hot response element supporting member 6, end plate 5 and outer cover 15 in succession.When not having insulating element 14,, first and second by-pass currents will be arranged, thereby the electric current that flows through spring leaf 9 has reduced as above with reference to the explanation that Fig. 5 did.Because the heat that produce this moment reduces, so can not reach the response characteristic of expection.
Yet in thermal protector of the present invention; because insulating element 14 has been installed; so can not produce from heat responsive element 10 and flow to first by-pass current of supporting member 6, can not produce from heat responsive element 10 and flow to second by-pass current on the supporting member 6 by brace 11 through screws 13.Thereby can prevent that the magnitude of current that flows through spring leaf 9 and heat responsive element 10 from changing and changing with different thermal protectors when each protection is operated.Can keep the response characteristic of expection to overcurrent thus.
When with ceramic making insulating element 14, for example, insulate with single parts in order to make first and second supporting areas, the configuration of this ceramic member is quite complicated, therefore is difficult to make insulating element 14 with pottery.In addition, because pottery does not have elasticity, so be difficult to pottery is made thin sheet form.Pottery also lacks rigidity and is not durable.
Yet in thermal protector of the present invention, insulating element 14 usefulness aromatic polyamides (aramid) paper, polyimides or polyphenylene sulfide film production.These materials can form the plate-shaped insulating element with abundant elasticity and toughness.Therefore insulating element 14 is made and configuration easily.In addition, because insulating element 14 forms plate-shaped, so the space between heat responsive element 10 and the spring leaf 9 can be reduced to minimum, thereby heat can be sent to rapidly on the heat responsive element 10 from spring leaf 9.In addition, so it does not influence the operation of heat responsive element 10 and spring leaf 9 because insulating element 14 has sufficient elasticity.
In the above-described embodiments, insulating element 14 inserts between heat responsive element 10 and screw 13, also is inserted between the support section 6A of brace 11 and supporting member 6.Perhaps, it can only be inserted between heat responsive element 10 and the screw 13, also can obtain desired effects in this structure.
Above-mentioned explanation and accompanying drawing have only illustrated principle of the present invention, can not think the meaning with restriction.The those of ordinary skill in this field can obviously be found out, can carry out various changes and change.All these changes and change then belong to spirit of the present invention, and are included in the definite scope of claims.

Claims (3)

1. thermal protector; it comprises an outer cover with an open end; the end plate of a hermetic closed described housing opening end and a switching mechanism that is enclosed in the described outer cover; described switching mechanism comprises the fixed contact of a fixed configurations in described end plate one side; one end fixed configurations is at the metal carrier of described end plate one side; a spring leaf and a heat responsive element; this spring leaf has predetermined resistance value; an end of this spring leaf is fixed on this described metal carrier near the side that described metal carrier is connected with described end plate; this heat responsive element is made of heat deformable material; it comprises a sweep; this sweep response environment variation of temperature becomes spill and convex; an end of described heat responsive element is being connected on this spring leaf near place, the free-ended end of another conduct of described spring leaf; has a moving contact on the other end of described heat responsive element; this moving contact can contact with described fixed contact or separate; provide a support section in the other end of described metal carrier side; support the free end of this described spring leaf so that withstand the elastic force of described spring leaf; and make this free end can carry out becoming the banking motion of spill and convex by described heat responsive element sweep; on described metal carrier, be provided for proofreading and correct the metal correcting unit that described heat responsive element sweep becomes the operating temperature of spill and convex; this correcting unit is pressed against on the described heat responsive element sweep with predetermined pressure; pressure so acts on; make and to be added in the contact pressure on the described fixed contact and all to increase by the contact pressure that the free end of described spring leaf is added on the described support section by described moving contact; this protector is characterised in that; between described heat responsive element and described correcting unit, insert one first insulating part, make them form electric insulation each other.
2. a thermal protector as claimed in claim 1 is characterized in that, inserts one second insulating part between the free end of the support section of described metal carrier and described spring leaf, makes them form electric insulation each other.
3. thermal protector as claimed in claim 2; it is characterized in that; between described spring leaf and described heat responsive element, insert a metal connecting sheet; they are linked together; described first and second insulating parts are by the insulating material monolithic molding of a slice plate-shaped; described plate-shaped insulating material has perforate, and described brace passes this hole, and described plate-shaped insulating material is fixed on the side of described heat responsive element.
CN95101452A 1994-02-01 1995-01-28 Thermal protector Expired - Lifetime CN1039515C (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP6030966A JP2827079B2 (en) 1994-02-01 1994-02-01 Thermal protector
JP30966/94 1994-02-01

Publications (2)

Publication Number Publication Date
CN1114782A CN1114782A (en) 1996-01-10
CN1039515C true CN1039515C (en) 1998-08-12

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Application Number Title Priority Date Filing Date
CN95101452A Expired - Lifetime CN1039515C (en) 1994-02-01 1995-01-28 Thermal protector

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CN (1) CN1039515C (en)

Families Citing this family (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH099578A (en) * 1995-06-14 1997-01-10 Sanyo Electric Co Ltd Thermal protector and manufacture thereof
DE19909059C2 (en) * 1999-03-02 2003-10-16 Marcel Hofsaes Switch with welding protection
WO2010052750A1 (en) * 2008-11-05 2010-05-14 株式会社生方製作所 Protective device of three-phase motor
JP5422310B2 (en) * 2009-09-04 2014-02-19 東芝キヤリア株式会社 Reactor and air conditioner outdoor unit equipped with reactor
CN102412095B (en) * 2011-07-28 2014-03-12 匡法荣 Three-phase current temperature overheat protector
CN106847616B (en) * 2017-03-31 2019-07-05 扬州德宝电器科技有限公司 A kind of self-locking power-off delay protection device
JP7311165B2 (en) * 2018-12-12 2023-07-19 ウチヤ・サーモスタット株式会社 temperature switch
JP7083742B2 (en) * 2018-12-14 2022-06-13 ボーンズ株式会社 Thermal response element, breaker, safety circuit and secondary battery pack

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6288232A (en) * 1985-10-14 1987-04-22 生方 眞哉 Heat sensing snap switch

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6288232A (en) * 1985-10-14 1987-04-22 生方 眞哉 Heat sensing snap switch

Also Published As

Publication number Publication date
JP2827079B2 (en) 1998-11-18
CN1114782A (en) 1996-01-10
JPH07220595A (en) 1995-08-18

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Granted publication date: 19980812