JP2012160375A - Thermal protector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a thermal protector which obtains good robustness and airtightness, is efficiently produced by an inexpensive apparatus, and reduces the size and the height with a simple structure.SOLUTION: In manufacturing of a thermal protector, an arm and a metal plate are insert-molded with a resin while contacting with each other to form a cover part. Then, a base part where an inversion type heat sensitive element and a temperature thermistor are placed is covered by the cover part to form a case. Further, the arm and the base part are joined by welding at a blind hole ranging from a surface of the cover part to the metal plate. A weld mark is left at the blind hole in the case after the cover part and the base part are joined.

Description

  The present invention relates to a thermal protector. More specifically, the present invention relates to a thermal protector that can be efficiently produced with a low-cost apparatus and that can be reduced in size and height and a method for manufacturing the same.

  Lithium secondary batteries used in notebook computers, etc. are equipment parts that store a large amount of highly reactive chemical energy in small sections, and it is necessary to have a safety device to prevent heat generation and smoke generation. is there. In recent years, computer products such as notebook computers have become increasingly portable, and there has been an increasing demand for smaller and lower batteries, and thermal protectors such as the above-mentioned safety devices have been further reduced in size and height. It is pressed.

  Various techniques have been proposed in response to such demands. For example, the thermal protector disclosed in Patent Document 1 is a film that seals the upper opening of the case where a resin case integrally molded with an external connection terminal penetrating surrounds the switch mechanism. The cover member is formed, and then a metal reinforcing member is placed thereon. Patent Document 2 discloses a thermal protector in which a PTC element is arranged between opposing surfaces of a fixed piece and a movable piece, and a thermally responsive element is placed on the upper surface of the PTC element.

  In one of these conventional products, after the arm (switch mechanism unit, movable piece) is placed on the case and joined to the terminal in the case, the cover (cover member, lid) closes the case. Even in the form in which the arm and the metal plate (metal plate) are integrally formed on the cover by insert molding, the metal plate in the cover is not chemically joined to the arm. In addition, the resin portion of the cover only joins the arm and the metal plate at a portion surrounding the cover.

  However, if the arm is chemically bonded and not fixed (Patent Document 1), the thermal protector is vulnerable to terminal twisting. Furthermore, if the thickness of the cover resin part is insufficient (Patent Document 2), the cover is likely to be damaged, the overall strength including the joining of the arm is reduced, and the internal contact is affected, and the contact resistance is likely to fluctuate. Become. Insufficient joint strength of the arm is a cause of deterioration of the quality of the thermal protector. On the other hand, there is a limit to miniaturization of the thermal protector if the arm is placed on the case and then joined to the terminal sufficiently firmly in the case. This is because, if the welding jig used for joining the arm and the terminal is made small in accordance with the downsizing of the thermal protector, the jig is severely worn, and there is a limit in maintaining productivity.

  Next, in order to clarify the difference between the present invention and the prior art, the form of the prior art will be illustrated. FIG. 6 (a) conceptually illustrates a method for manufacturing a thermal protector according to the prior art. FIG. 6B is an exploded cross-sectional view of another conventional thermal protector.

  In the manufacturing method illustrated in FIG. 6A, the arm 2 is placed on the base terminal 52c (corresponding to the joining metal portion), and this arm is pressed by the jig 6, more specifically, by the jig tip 6a. In the state, these were welded to join the arm. However, it is difficult to further reduce the size of the jig 6 that holds the arm 2. This is because if the jig 6 is made smaller, the jig tip 6a is consumed quickly, resulting in an increase in manufacturing cost, and in addition, a decrease in the pressing force of the jig 6 causes a deterioration in quality.

  In the thermal protector illustrated in FIG. 6B, the lid 51 (corresponding to the cover) is integrally formed with the movable piece 2 (arm) and the metal plate 51b (metal plate) by insert molding. However, the upper surface of the metal plate is not covered with the resin, and the portion corresponding to the resin portion 51a only covers the outer edge portion 51b1 that is thinner than the center on the metal plate 51b. In such a structure, the metal plate 51b to be used has to be considerably increased in thickness in order to obtain strength. Moreover, if the design of the lid 51 is reduced as it is, loss of mechanical strength is inevitable. Therefore, the prior art illustrated in FIG. 6 (b) has a limit to miniaturization and low profile.

JP 2001-351490 A JP 2005-129471 A

  In order to solve the above problems, the present invention provides a thermal protector that satisfies the requirements for miniaturization and low profile while maintaining robustness against torsion of terminals and the like and that does not impair productivity. A manufacturing method is provided.

  (1) In the present invention, the arm and the reversal type thermal element are housed in a case having a cover part and a base part, and the cover part is embedded in the cover resin part together with the metal plate in contact with the arm. In this thermal protector, the cover resin portion covers the upper surface of the metal plate and has a blind hole. Further, the blind hole reaches the metal plate above the contact area where the metal plate and the arm abut, and the bottom surface of the blind hole is used as a welding site.

  (2) Further, according to the present invention, in the thermal protector configured as described above, the arm is welded to the metal plate and / or a joining metal portion embedded in the base portion at the welding site.

  (3) Further, the present invention provides the thermal protector having the above-described configuration, wherein the metal plate has a through hole immediately above the welded part, and the welded part is embedded in the arm and the base part. It is provided.

  (4) Further, according to the present invention, in the thermal protector configured as described above, a part of the metal plate is a cover terminal portion extending outside the case.

  (5) Further, according to the present invention, in the thermal protector configured as described above, a part of the arm is an arm terminal portion extending outside the case.

  (6) Furthermore, in the thermal protector having the above-described configuration, the present invention is characterized in that a part of the joining metal part is a joining-side terminal part extending outside the case.

  (7) Further, according to the present invention, in the thermal protector configured as described above, a welding mark is provided on the bottom surface of the blind hole.

  (8) Moreover, this invention is a manufacturing method of the thermal protector which has a cover part comprised integrally with an arm, Comprising: By insert-molding in resin in the state which contacted and piled up the metal plate on the arm In the cover resin portion covering the upper surface of the metal plate, the step of configuring the cover portion so that a blind hole reaching the metal plate is provided on the contact area where the metal plate and the arm abut, insert molding A step of forming a case by covering a base portion in which an inversion type thermal element is housed with the cover portion, using the bottom surface of the blind hole as a welding site, and using the arm as the metal plate at the welding site; And / or a step of welding with a joining metal part embedded in the base part, and the cover resin part and the base resin part of the base part. Engaged thereby, characterized in that it comprises the step of sealing the case.

  (1) In the present invention, the arm and the reversal type thermal element are housed in a case having a cover part and a base part, and the cover part is embedded in the cover resin part together with the metal plate in contact with the arm. The cover protector covers an upper surface of the metal plate and has a blind hole, and the blind hole is located above a contact area where the metal plate and the arm abut. The metal plate reaches the metal plate, and the bottom surface of the blind hole is smaller and lower in height than the conventional one used for the welded part, and is robust, enabling high productivity.

  Furthermore, the thermal protector of the present invention, in the above-described configuration, the arm is firmly welded through the blind hole and the metal plate and / or the joint metal part embedded in the base part at the welding site. It is more compact and low profile than ever before, and is robust, enabling high productivity.

  Furthermore, the thermal protector of the present invention has the above-described configuration, wherein the metal plate has a through hole immediately above the welded portion, and the welded portion is provided in the joining metal portion embedded in the arm and the base portion. As a result, welding between the external terminal and the arm is ensured, and stable electrical characteristics are realized.

  Furthermore, the thermal protector of the present invention is the above-structured cover terminal part in which a part of the metal plate is extended to the outside of the case, thereby reducing the number of parts and the number of processes and simultaneously reducing the manufacturing cost. Is possible.

  Furthermore, the thermal protector according to the present invention has the above-described configuration, wherein the arm part is an arm terminal portion that extends outside the case, thereby reducing the number of parts and the number of processes and simultaneously reducing the manufacturing cost. Make it possible.

  Furthermore, the thermal protector according to the present invention is excellent in spite of being smaller in size and lower in height than the conventional one by being a junction side terminal portion formed by extending a part of the junction metal portion to the outside of the case in the above configuration. Enables electrical properties and mechanical strength.

  Moreover, the manufacturing method of the thermal protector by this invention can use the jig | tool of the same magnitude | size as the past in the welding operation | work of the product in which size reduction and height reduction were made conventionally. In some cases, there is no need to fix with a jig in the welding operation. At least, a jig for holding the arm is not necessary. Therefore, the required number of maintenance work is smaller than when a smaller jig is used, and the manufacturing cost can be reduced. Quality is not impaired by insufficient pressure.

It is sectional drawing of the thermal protector by Embodiment 1 of this invention. It is sectional drawing of the thermal protector by Embodiment 2 of this invention. It is sectional drawing of the thermal protector by Embodiment 3 of this invention. It is an assembly-process figure of the thermal protector by Embodiment 1 of this invention. It is the top view which partially saw through the cover part in the present invention. It is a disassembled sectional view of the thermal protector by a prior art.

  Hereinafter, an embodiment of the present invention will be described with reference to FIGS.

(Embodiment 1)
FIG. 1 is a cross-sectional view schematically showing a thermal protector 1 according to Embodiment 1 of the present invention. The arm 2, the bimetal 3 (corresponding to a thermal element), and a positive characteristic temperature thermistor (hereinafter referred to as PTC 4) are housed inside the case 5. The case 5 is configured by sealing the base portion 52 with a cover portion 51 integrated with the arm 2 in advance.

  The arm 2 is a long and thin rectangular metal plate that has excellent springiness and is electrically conductive. The arm 2 is bent and protruded upward, and one end of the arm fixing portion 2 a is fixed to the peripheral portion of the base portion 52. . In the present invention, one end of the arm 2 becomes the arm fixing portion 2 a and is fixed in contact with the cover portion 51. Further, another end of the arm 2 is an arm movable part 2b with a movable contact 2d attached to the tip, and the arm movable part 2b is disposed on the bimetal 3. The portion of the arm fixing portion 2a that comes into contact with the cover portion 51 constitutes a contact area 51e together with the metal plate 51a. The existing design may be applied to the shape, dimensions, material, and the like of the arm 2.

  The bimetal 3 (thermal element) is placed on the PTC 4 and sandwiched between the arm 2 and the PTC 4 from above and below. The bimetal 3 is a rectangular thin metal piece, the four corners are formed in a curved shape, and the center exhibits a gently convex surface upward at room temperature. As the temperature rises, the bimetal 3 is inverted and protrudes downward, lifting the arm movable portion 2b at the outer edge. As described above, the bimetal 3 moves the arm 2 by the reversal operation due to the temperature change, thereby conducting or blocking the thermal protector 1. The material, shape, dimensions, and the like of the bimetal 3 can adopt an existing design, and may be appropriately selected in consideration of conductivity and temperature characteristics. In addition, trimetal can be used for the heat sensitive element instead of bimetal. Furthermore, the arm can be formed of a laminated metal, and the heat sensitive element and the arm can be integrated.

  The PTC 4 (temperature thermistor) is a thin disk-shaped component and is disposed immediately below the bimetal 3. When the bimetal 3 is reversed by the temperature rise, a voltage is applied to the PTC 4. The PTC 4 is a positive temperature thermistor and is a thermal element that rapidly increases in electrical resistance as the temperature rises, and constitutes a self-holding circuit for maintaining the inversion state of the bimetal 3. The material, shape, dimensions, etc. of the PTC 4 can adopt an existing design, and may be appropriately selected in consideration of electrical characteristics and temperature characteristics.

  When it is not necessary to configure the self-holding circuit, a protrusion having the same shape as the PTC 4 may be provided on the bottom surface of the case 5 without providing the PTC 4. Furthermore, if the material, shape, and configuration of the bimetal or the corresponding thermal element and arm are appropriately selected, the bimetal and the arm can be integrated without being separated. In this case, the arm is made of bimetal or trimetal. A part of this arm is provided with a gentle spherical convex portion. A protrusion on the bottom surface of the PTC or the case is positioned immediately below the convex portion.

  The case 5 is a rectangular casing that is flat in the thickness direction as a whole, and accommodates each component therein. The case 5 includes a cover part 51 and a base part 52. Both the cover 51 and the base 52 are made of resin and metal. The cover 51 and the base 52 are preferably formed by insert-molding a metal piece into a resin from the viewpoints of downsizing, low profile, and mechanical strength. The shape, dimensions, material, etc. of the case 5 may be designed by appropriately combining existing ones.

  The cover part 51 is configured such that the cover resin part 51a covers almost the entire upper surface of the metal plate 51b. The metal plate 51 b is a member for ensuring the mechanical strength of the thermal protector 1. Furthermore, when the cover resin portion 51a covers almost the entire upper surface of the metal plate 51b, the mechanical strength of the thermal protector 1 is improved. On the lower surface of the metal plate 51b, the metal plate 51b is positioned so as to cover the entire arm 2, and the metal plate 51b and the arm fixing portion 2a are brought into contact with each other to form a contact area 51e in the cover resin portion 51a. Insert molded. On the lower surface of the cover portion 51, a side wall portion 51f made of the resin portion 51a surrounds a range where the metal plate 51b and the arm 2 are stacked.

  A welding hole 51d (blind hole) for welding is provided on the upper surface of the cover portion 51 and immediately above the contact area 51e. The weld hole 51d is formed by exposing the upper surface of the metal plate 51b without covering the portion directly above the contact area 51e with the cover resin portion 51a. The weld hole 51d is a through hole for the cover resin portion 51a, and is a blind hole having the cover resin portion 51a as a side surface and the metal plate 51b as a bottom surface. The shape, dimensions, etc. of the welding hole 51d need only be large enough to allow a welding operation W described later. The illustrated one is circular and provided at one point, but the shape of the blind hole 51d is linear within the range in which the mechanical strength due to the metal plate 51b being covered with the cover resin portion 51a is not impaired. Or you may make it planar and may provide multiple. In addition, if there is no problem in the welding operation W, it is not necessary to form a complete through hole in the cover resin portion 51a.

  The bottom surface of the welding hole 51d becomes a welding part 62 by the welding operation W. The bottom surface of the weld hole 51d is the top surface of the metal plate 51b in the first embodiment, but is not limited thereto. The welded part 62 is a part where the arm 2 and the terminal connected to the external power source are electrically connected by heat melting. In the first embodiment, it is a portion where the former two members and the joint metal portion 52b are melted immediately below the contact area 51e where the arm 2 and the metal plate 51b are in contact with each other. If the metal plate 51b is thick and it is difficult to join the arm 2 to the external terminal part, the bottom of the weld hole 51d is opened in the metal plate 51b so that it is not the metal plate 51b but the arm fixing part 2a. The formed through hole may be a part of the welding hole 51d, or the corresponding portion on the metal plate 51b may be partially thinned.

  The base part 52 is integrated so that the joining metal part 52b and the contact metal part 52e are embedded at both ends of the base resin part 52a, respectively, so that the welding hole 51d comes directly above the joining metal part 52b. . The base portion 52 has a housing shape as a whole, and includes a housing portion 52g that houses the PTC 4 and the bimetal 3 before the cover portion 51 is joined, and a peripheral edge portion 52h that surrounds the housing portion 52g. The contact metal part 52e is positioned so as to be electrically connected to the PTC 4 and the bimetal 3.

  The fixed contact 52d is formed by welding, plating, clad or the like of silver or the like on a contact metal portion 52e embedded in one end of the base portion 52 opposite to the arm fixing portion 2a. A part of the contact metal part 52 e becomes the contact side terminal part 52 f and extends outside the case 5. The fixed contact 52d contacts or separates from the movable contact 2d due to the swing of the arm 2 due to a temperature change. Thus, the case 5 is designed such that when the cover part 51 is joined to the base part 52, the movable contact 2d at the tip is pressed against the fixed contact 52d at room temperature. The shape, size, material, and the like of the fixed contact 52d may be designed by appropriately combining existing ones.

  The joining metal part 52b is provided on the peripheral part 52e in the base part 52 so as to be directly below the contact area 51e. The joining metal portion 52b and the arm fixing portion 2a are electrically joined by a welding operation W described later. The arm fixing portion 2a is a part of the arm 2 as described above, and is in contact with the metal plate 51b in the contact area 51e when the cover portion 51 is formed. In the contact area 51e, a welding portion 62 is formed in which the metal plate 51b, the arm fixing portion 2a, and the joining metal portion 52b are integrated by a welding operation W on the bottom surface of the welding hole 51d. In the first embodiment, a part of the joining metal part 52b extends from the case 5 to the outside in the direction opposite to the direction of the arm movable part 2b from the arm fixing part 2a and is connected to the external power source. It has become.

  After each component is stored in the base portion 52 and covered with the cover portion 51, in the first embodiment, the metal plate 51b, the arm 2, and the joining metal portion 52b are joined by the welding operation W in FIG. In FIG. 4, a part of the jig 6 and the cover portion 52 used for the welding operation W are seen through, and the arm 2 is visualized. The welding operation W is performed by laser, electron beam, arc discharge, or the like. Of these, lasers are desirable from the viewpoints of cost, processing accuracy, and the like, in consideration of size reduction and burden on the welding material. Existing equipment can be used for laser welding. Since the thermal protector 1 is small, these devices usually include a jig 6 for fixing the thermal protector 1. The welding operation W by laser and other laser and beam outputs, the welding time, the pressing force of the jig 6, and the like depend on the size and nature of the metal member to be joined as the welding material, and the metal plate 51b, the arm 2 and the joining. What is necessary is just to set suitably so that the three of the metal parts 52b may be welded together. Alternatively, depending on the apparatus that performs the welding operation W, the jig tip 6a of the jig 6 or the jig 6 itself becomes unnecessary.

  A welding mark 61 remains on the place where the welding operation W is performed, that is, on the bottom surface of the welding hole 51d. The welding mark 61 shows the welding site | part 62 which is a part with which the arm 2 was joined with the metal plate 51b and the joining metal part 52b. In the case illustrated in FIG. 4, there is one location on the upper surface of the metal plate 51 b. However, the number of welding locations in the welding hole 51d may be one or a plurality of locations. The form of welding is not limited to a dot shape, but may be a linear shape or a planar shape. If the arm fixing | fixed part 2a has the arm wing | blade part 2e, the welding location can also increase many welding locations and can also enlarge joining strength. From the viewpoint of bonding strength, it is desirable that the weld hole 51d is surrounded by the cover resin portion 51a and is formed inside the outer edge portion.

The case 5 is formed of a resin having excellent heat resistance such as polyphenylene sulfide (PPS), liquid crystal polymer (LCP), polybutylene terephthalate (PBT), or the like. The material of the contact metal part 52e and the arm 2 is phosphor bronze,
Use materials that are rich in elasticity and conductivity, such as white and brass. The material of the fixed contact 52d and the movable contact 2d is an alloy mainly composed of silver having good conductivity, such as silver or a silver-nickel alloy, and this is clad, welded, plated, applied, or other methods in the case 5. It attaches to the contact metal part 52e and the arm 2. As the bimetal, a material obtained by laminating a metal material having a large thermal expansion and a metal material having a small thermal expansion and performing a heat treatment to reverse or restore the original shape at a predetermined temperature is used. The existing design may be applied to the dimensions and arrangement of these members.

  As shown in FIG. 1, the thermal protector of the present invention has sufficient mechanical strength even when the entire thermal protector 1 is downsized by covering the upper surface of the metal plate 51 b with the cover resin portion 51 a in the cover 51. Keep big. Similarly, in addition to welding of the cover resin part 51a and the base resin part 52a, the metal plate 51b is welded to the joining metal part 52b, so that the thermal protector 1 is further strengthened against external force. Furthermore, it is not necessary to make the jig 6 smaller in accordance with the downsizing of the product as described above. The jig 6 is of a normal size and can be held with a strong force because it is suppressed from above the cover portion 51. In some cases, it is not necessary to use the jig 6 in the welding operation W. At least a jig for holding the arm 2 may not be present in the present invention. Thus, frequent replacement of the jig 6 is unnecessary even in the manufacture of a further miniaturized product, and there is no shortage of pressing force. Since the pressing force when joining the arm 2 and the joining metal part 52b by welding does not vary individually, the electrical characteristics of all the produced thermal protectors 1 are stabilized.

(Production method)
The assembly of the thermal protector according to embodiment 1 is schematically shown in FIG. In the step of forming the cover portion 51 (FIG. 5A), the cover 2 is formed by insert molding in the resin in a state where the arm 2 and the metal plate 51b formed by molding a metal piece into a predetermined shape are in contact with each other. Part 51 is completed. At this time, the metal plate 51 b is covered with the cover resin portion 51 a on the upper surface of the cover portion 51. However, the cover resin part 51a on the upper surface of the cover part 51 is not filled with resin in the contact area 51e where the arm fixing part 2a of the arm 2 and the metal plate 51b are in contact with each other. 51b is partially exposed to the outside. This space from the surface of the cover resin portion 51a to the metal plate 51b on the surface of the cover portion 51 is used for the welding hole 51d.

  Next, in the step (FIG. 5B), the insert-molded cover portion 51 covers the base portion 52. The case 5 is thus configured. On the other hand, similarly to the cover portion 51, the base portion 52 is configured by insert-molding a metal piece formed in a predetermined shape in a base resin portion 52a. These metal pieces are the joint metal portion 52b and the contact metal portion 52e. In the first embodiment, each of the metal pieces is provided on the peripheral portion 52h, and a part of the metal pieces extends to the outside of the case 5 to join the joint-side terminal portion 52c and the contact point. It becomes the side terminal part 52f. The PTC 4 and the bimetal 3 are sequentially placed on the housing portion 52g of the configured base portion 52 before the cover portion 51 is covered.

  And the cover part 51 and the base part 52 are joined by welding operation W in a process (FIG.5 (c)). In the first embodiment, the joining is performed up to the joining metal part 52b of the base part 52 immediately below the welding hole 52d. The welding operation W is preferably performed by irradiation with heat rays such as laser welding. In addition to laser welding, electron beam welding, arc welding, and the like are also used. Also in other welding methods, there is a case where the jig 6 is usually present in the vicinity of a head that irradiates a laser beam or other heat rays, and the breaker 1 as a welding material may be pressed. In the illustrated embodiment, the jig 6, more specifically, the jig tip 6a presses the cover portion 51 and irradiates the welding hole 52d with a laser or other heat source. In the present invention, in the insert molding process, Since the arm 2 is already in close contact with the external terminal in the contact area 51e, the jig 6 is not necessarily required. Thus, the welded part 62 is formed around the contact area 51e, and the three of the metal plate 52b, the arm fixing part 2a, and the joining metal part 52b are connected. The arm 2 and the joining metal part 52b can be conducted. At this time, a welding mark 61 is left on the bottom surface of the welding hole 51d.

  Subsequently, finally, the product is completed by a step of sealing the case 5 by joining the side wall 51f of the cover 51 and the peripheral edge 52h of the base 52. When the resin part of the case 5 is a thermoplastic resin, this joining may be performed by ultrasonic welding. The thermal protector 1 is completed through the above steps and optionally other processes, and then incorporated into a safety circuit mounted on a substrate and sealed in a battery pack.

  Either of the ultrasonic welding and the laser welding operation W may be performed before or after. After completing the case by ultrasonic welding, the arm 2 and the base 52 can be joined by laser welding, and after the arm 2 is made conductive by the cover 51 by welding operation W, Can be joined to the base portion 52 to complete the case 5. 2 and 3, the arm 2 and the metal plate 51b may be joined by the welding operation W immediately after the cover portion 51 is completed in the form in which the joining side terminal 52c does not exist. The size, shape, and the like of the jig 6 include a head and a jig that use a laser, an electron beam, and arc discharge as a heat source, as well as a conventional welding product, and target a small welding material. You can use something. The operational effects resulting from the above manufacturing method are as described above.

(Embodiment 2)
FIG. 2 is a cross-sectional view showing Embodiment 2 of the present invention. In the thermal protector 1 according to the second embodiment, the joint-side terminal portion 52c does not exist in the base portion 52, and a part of the arm 2 extends outside the case 5 and functions as an arm terminal portion 2c that is connected to an external power source. To do. The arm 2 and the arm terminal 2c are already electrically connected before the welding operation W. However, as the arm 2 is welded to the metal plate 51b as in the present embodiment, an external force is applied to the arm terminal 2c. When added, the robustness will be excellent. In FIG. 2, there is no portion corresponding to the bonding metal portion 52b (see FIG. 1) in the base portion 5, but in order to further improve the robustness, the arm fixing portion 2a is bonded to the opposite side of the fixed contact 52d. The metal member to be used may be embedded in the base portion 52 in advance. On the other hand, as shown in the figure, the construction without the joint metal portion 52b is advantageous in terms of the construction cost in terms of the small number of parts. Furthermore, in the second embodiment, the cover 51 can be completed by the welding operation W, and then the case 5 can be completed by assembling and ultrasonic welding. Other configurations, operational effects, manufacturing methods, and the like of the thermal protector of the second embodiment are the same as those of the first embodiment.

(Embodiment 3)
FIG. 3 is a cross-sectional view showing Embodiment 3 of the present invention. In the thermal protector 1 of the third embodiment, the base-side 52 does not have the bonding-side terminal portion 52c, and a part of the metal plate 51b extends to the outside and functions as a cover terminal 51c that is connected to an external power source. By the welding operation W, the arm 2 and the cover terminal 51c are electrically connected. In FIG. 3, there is no portion corresponding to the bonding metal portion 52b (see FIG. 1) in the base portion 5, but a metal member to be bonded to the arm fixing portion 2a is provided in advance on the opposite side of the fixed contact 52d. The metal member 52 may be embedded and provided with the same effect as described above. The thermal protector of the third embodiment is the same as that of the first embodiment in other configurations, operational effects, manufacturing methods, and the like.

  Moreover, in the form which uses a part of metal plate 51b as a terminal, it is extended from the case 5 to the exterior toward the opposite direction of the arm movable part 2b from the arm fixing | fixed part 2a, and becomes the cover terminal part 51c. In addition to what is illustrated in FIG. 3, a form in which the cover terminal portion is extended in the opposite direction to the above is also mentioned. Alternatively, a part of the cover resin part 51a is excluded to such an extent that the mechanical strength is not impaired, the metal plate 51b is exposed, and the cover resin part is excluded at a part of the upper surface of the cover part 51 and the exposed part of the metal plate 51b. There may be a form in which the metal part is applied to the cover terminal part without extending beyond the outer edge of the cover resin part 51a. Furthermore, the form in which the joining metal part 52b does not exist is advantageous in that the number of parts is smaller than the form in which the arm 2 is welded to the joining metal part 52b. Further, in the third embodiment, it is possible to complete the cover 51 by the welding operation W, and then complete the case 5 by assembling and ultrasonic welding.

  As described above, the embodiment of the present invention has been described, but in the present invention, the resin portion covers the metal plate, the cover portion and the arm are integrally formed, and is welded in the blind hole of the cover portion. However, the present invention is not limited to the above embodiment.

1 Thermal protector,
2 arms,
2a arm fixing part,
2b arm movable part,
2c arm terminal part,
2d movable contact,
3 Bimetal (thermal element),
4 PTC (temperature thermistor),
5 cases,
51 cover part,
51a cover resin part,
51b metal plate,
51c cover terminal part,
51d Weld hole (blind hole),
51e contact area,
52 base part,
52a base resin part,
52b bonding metal part,
52c joint side terminal part,
52d fixed contact,
52e contact metal part,
52f Contact side terminal part,
6 Welding jig,
61 welding marks,
62 welding sites,
W welding operation,

Claims (8)

The arm and the inversion type thermal element are housed in a case having a cover part and a base part,
The cover part is embedded in the cover resin part together with the metal plate in contact with the arm,
The cover resin portion covers the upper surface of the metal plate, has a blind hole,
The thermal protector, wherein the blind hole reaches the metal plate at a position above a contact area where the metal plate and the arm abut, and the bottom surface of the blind hole is used as a welding site.   2. The thermal protector according to claim 1, wherein the arm is welded to the metal plate and / or a joining metal portion embedded in the base portion at the welding portion. In one of Claim 1 or Claim 2, the said metal plate has a through-hole just above the said welding part,
The thermal protector, wherein the welded portion is provided in the joining metal portion embedded in the arm and the base portion.   3. The thermal protector according to claim 1, wherein a part of the metal plate is a cover terminal portion extending outside the case.   4. The thermal protector according to claim 1, wherein a part of the arm is an arm terminal portion extending outside the case.   4. The thermal protector according to claim 1, wherein a part of the joining metal part is a joining side terminal part extending outside the case. 5.   7. The thermal protector according to claim 1, wherein a weld mark is formed on a bottom surface of the blind hole. By insert molding into the resin in a state where the metal plate is brought into contact with the arm, the cover resin portion covering the upper surface of the metal plate has a contact area where the metal plate and the arm are in contact with each other. A step of configuring the cover part so that a blind hole extending to the metal plate is provided;
A step of forming a case by covering the base portion in which the inversion-type thermal element is accommodated with the insert-molded cover portion;
Using the bottom surface of the blind hole as a welding site, and welding the arm to the metal plate and / or the joining metal portion embedded in the base portion at the welding site;
And a method of manufacturing a thermal protector, comprising the step of joining the cover resin portion and the base resin portion of the base portion to seal the case.

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