CN112466709A - Over-temperature protection device with over-temperature protection and highest-temperature permanent cut-off circuit - Google Patents

Abstract

The invention belongs to the technical field of over-temperature protection, in particular to an over-temperature protection device with over-temperature protection and a highest-temperature permanent cut-off circuit, which comprises a device shell, a thermal fuse, a thermal protector, a first electrode and a second electrode; the inside integrated into one piece of device shell has been seted up hot fuse-link installation cavity and hot protector installation cavity, and hot fuse-link and hot protector are fixed mounting respectively in hot fuse-link installation cavity and hot protector installation cavity, and seal structure passes through seal installation groove and sealing rib and installs in the left end of device shell, and first electrode one end is passed seal structure's mounting through-hole and is connected with metal pin II. The invention serially connects the thermal protector and the thermal fuse link in the shared shell, uses one pole of the thermal protector and one pole of the thermal fuse link as the input and output poles of the over-temperature protection module with temperature control protection and maximum temperature permanent cut-off circuit, and has the characteristics of consistent temperature sensing effect of the thermal protector and the thermal fuse link and convenient installation and replacement.

Description

Over-temperature protection device with over-temperature protection and highest-temperature permanent cut-off circuit

Technical Field

The invention belongs to the technical field of over-temperature protection, and particularly relates to an over-temperature protection device with over-temperature protection and a highest-temperature permanent cut-off circuit.

Background

The PTC heater is also called as PTC heating body, and is composed of PTC ceramic heating elements and an aluminum tube. The PTC heater has the advantages of small thermal resistance and high heat exchange efficiency, and is an automatic constant-temperature and electricity-saving electric heater. The high-temperature plastic electrode comprises a galvanized outer pressing plate, a stainless steel corrugated spring piece, a galvanized inner pressing plate, a single-layer aluminum heat dissipation piece, a PTC heating piece, a double-layer aluminum heat dissipation piece, a nickel-plated copper electrode terminal and a PPS high-temperature plastic electrode sheath. Due to the adoption of the U-shaped corrugated radiating fins, the radiating rate of the PTC heating element is improved, the advantages of adhesion and mechanical type are integrated, various thermal and electrical phenomena of the PTC heating element during working are fully considered, and the PTC heating element is strong in binding force, excellent in heat conduction and radiating performance, high in efficiency, safe and reliable.

The constant temperature heating PTC thermistor has the constant temperature heating characteristic, and the principle is that after the PTC thermistor is electrified, the resistance value is heated by self-heating to enter a jump zone, the surface temperature of the constant temperature heating PTC thermistor keeps a constant value, and the temperature is only related to the Curie temperature and the applied voltage of the PTC thermistor and is basically unrelated to the ambient temperature. The PTC heater is a heating device designed by utilizing the constant temperature heating characteristic of the constant temperature heating PTC thermistor. The constant temperature heating PTC thermistor can be manufactured into various shapes and structures and different specifications, and is commonly in a disc shape, a rectangle shape, a strip shape, a circular ring shape, a honeycomb porous shape and the like. The PTC heating element and the metal component are combined to form various forms of high-power PTC heaters.

At present, one of the more widely applied fields of the PTC heater is an air conditioner PTC corrugated heater which is a self-control temperature heater. The principle is that the PTC thermistor is heated by self-heating after being electrified so that the resistance value enters a jump zone, the surface temperature of the PTC thermistor heated at constant temperature keeps a constant value, and the temperature is only related to the Curie temperature and the applied voltage of the PTC thermistor and is basically unrelated to the ambient temperature. The PTC heating element is designed by utilizing the constant temperature heating characteristic of the constant temperature heating PTC thermistor. In the middle and small power heating occasions, the PTC heating element has the advantages of constant temperature heating, no open fire, high heat conversion rate, little influence of power supply voltage, long natural life and the like which cannot be compared with the traditional heating element, and the application of the PTC heating element in an electric heating appliance is more and more favored by research and development engineers. The constant temperature heating PTC thermistor can be manufactured into various shapes and structures and different specifications, and is commonly in a disc shape, a rectangle shape, a strip shape, a circular ring shape, a honeycomb porous shape and the like. The PTC heating element and the metal member are combined to form various forms of high-power PTC heating elements.

The PTC heater is widely used in air conditioners, warm air blowers, clothes dryers and other household appliances, but the PTC heater may exceed the design temperature and even the safety temperature during the use process, so a resettable thermal protector and a thermal fuse body for preventing the safety temperature from being exceeded are usually installed on the PTC heater for temperature control and over-temperature prevention. However, the thermal protector and the thermal fuse link are usually provided by different manufacturers and installed at different positions of the PTC heater, so that the temperature sensing effects are asynchronous, and the thermal protector and the thermal fuse link need to be installed respectively, and are not convenient to install and use.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides an over-temperature protection device with over-temperature protection and a highest-temperature permanent cut-off circuit, which is characterized in that a thermal protector and a thermal fuse link are connected in series and assembled in a common shell, one pole of the thermal protector and one pole of the thermal fuse link are used as an input pole and an output pole of an over-temperature protection module with temperature control protection and the highest-temperature permanent cut-off circuit, and the over-temperature protection device has the characteristics of consistent temperature sensing effect of the thermal protector and the thermal fuse link, convenience in installation and replacement, reasonable and novel structure and higher popularization value.

In order to achieve the purpose, the invention provides the following technical scheme: an over-temperature protection device with over-temperature protection and a highest-temperature permanent cut-off circuit comprises a device shell, a thermal fuse body, a thermal protector, a first electrode, a second electrode and a sealing structure; the device comprises a device shell, a thermal fuse body mounting cavity and a thermal protector mounting cavity, wherein the device shell is internally and integrally formed, the thermal fuse body and the thermal protector are respectively and fixedly mounted in the thermal fuse body mounting cavity and the thermal protector mounting cavity, and two ends of the thermal fuse body are respectively connected with a metal pin I and a metal pin II; the sealing structure is arranged in the left port of the device shell through the sealing installation groove and the sealing ribs, the sealing structure is provided with a sealing plate, the sealing plate is provided with an installation through hole, and one end of the first electrode penetrates through the installation through hole of the sealing structure to be connected with the metal pin II; one end of the second electrode penetrates through the mounting through hole of the sealing structure and is connected with the thermal protector; and filling and arranging first sealing epoxy resin at the left port of the device shell.

Furthermore, the thermal fuse link comprises a metal pin I, an insulator, a thin spring, a star-shaped reed, a copper sheet I, a thick spring, a copper sheet II, an organic temperature sensing body, a copper shell and a metal pin II; an opening part is arranged at one end of the copper shell, a through hole is arranged at the other end of the copper shell, an insulator, a thin spring, a star-shaped reed, a copper sheet I, a thick spring, a copper sheet II and an organic matter temperature sensing body are sequentially arranged in the copper shell from left to right, the insulator is arranged in the opening part at one end of the copper shell, one end of a metal pin I penetrates through the insulator and is connected with one side of the star-shaped reed, the thin spring is arranged between the insulator and the star-shaped reed, the copper sheet I is connected and arranged at the other side of the star-shaped reed, an electric erosion resistant conductive alloy layer is arranged at the pier head end part of the metal pin I, a layer of electric erosion resistant conductive film is arranged on the surface of the star-shaped reed, the temperature sensor is connected with one end of an organic temperature sensing body, the other end of the organic temperature sensing body is connected with a copper sheet II, and a coarse spring is arranged between the copper sheet I and the copper sheet II; and a second sealing epoxy resin is arranged at the opening part at one end of the copper shell in a sealing way.

Furthermore, the thermal protector comprises a base, a fixed seat, a static contact piece, a movable contact piece and a temperature sensing piece; the right end of the base is provided with a movable contact piece through a temperature sensing piece in a connecting way, the left end of the base is provided with a static contact piece through a fixed seat, and the movable contact piece is in contact with the static contact piece; one end of the second electrode penetrates through the sealing structure and is connected with the static contact piece; the base is electrically connected with the metal pin I.

Further, the thermal protector also comprises a thermal protector shell.

Further, the shape of the device shell adopts a square shape or a circular shape; the device shell is provided with a mounting hole and a mounting inserting pin, and the device shell is mounted on the PTC heater device through the mounting hole and the mounting inserting pin.

Furthermore, the metal pin I and the base are electrically connected in a welding or riveting mode; the end of the first electrode is welded with the metal pin II.

Furthermore, the device shell is made of PBT, nylon and PPS thermoplastic temperature-resistant insulating materials, and the device shell is made of ceramic and bakelite temperature-resistant insulating materials.

Further, the operating temperature of the organic temperature-sensing body is 60-260 ℃.

Further, the electric corrosion resistant conductive alloy layer is composed of three metals of tin, bismuth and indium, and the weight percentage of the three metals of tin, bismuth and indium is 40: 7: 53.

further, the operating temperature of the electric corrosion resistant conductive alloy layer is 70-230 ℃.

Compared with the prior art, the invention has the beneficial effects that:

the invention connects the thermal protector and the thermal fuse link in series, assembles in a common shell, uses one pole of the thermal protector and one pole of the thermal fuse link as the input and output poles of the over-temperature protection module with the temperature control protection and the highest temperature permanent cut-off circuit, has the characteristics of consistent temperature sensing effect of the thermal protector and the thermal fuse link, convenient installation and replacement, reasonable and novel structure and stronger popularization value.

Before the thermal fuse link acts, the thick spring is in a compressed state; when the thermal fuse-link senses the environmental temperature change and reaches the designed action temperature, the thermal fuse-link of the organic matter temperature sensing body starts to melt, the thin spring pushes the star-shaped reed, the star-shaped reed is electrically disconnected with the metal pin I, and the thermal fuse-link acts to realize the protection function of the circuit where the thermal fuse-link is located.

The invention can be directly arranged on a plastic seat or a metal bracket of the PTC heater; the mounting mode can be suitable for screw mounting, buckle mounting and the like according to design requirements. One pole of the over-temperature protection module with the temperature control protection and the highest temperature permanent cut-off circuit can be directly connected with a live wire of electric equipment; the other pole can be directly connected with the input end of the PTC heating frame, and an over-temperature protection module with a temperature control protection and highest temperature permanent cut-off circuit is connected in series in the main circuit.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an over-temperature protection device with over-temperature protection and a maximum temperature permanent cut-off circuit according to the present invention;

FIG. 2 is a schematic structural diagram of a thermal fuse link in an over-temperature protection device with over-temperature protection and a maximum temperature permanent cutoff circuit according to the present invention;

FIG. 3 is a schematic structural diagram of a thermal protector in an over-temperature protection device with over-temperature protection and a maximum temperature permanent cutoff circuit according to the present invention;

fig. 4 is a schematic top view of a thermal protector in an over-temperature protection device with over-temperature protection and a maximum temperature permanent cut-off circuit according to the present invention.

In the figure:

1. a device housing; 2. a thermal fuse; 3. a thermal protector; 4. a first electrode; 5. a second electrode; 6. a sealing structure; 7. sealing the ribs; 8. a first sealing epoxy resin; 9. a metal pin I; 10. a metal pin II; 11. a thermal fuse mounting cavity 11; 12. a thermal protector mounting cavity; 21. a metal pin I; 22. an insulator; 23. a thin spring; 24. a star-shaped reed; 25. a copper sheet I; 26. a coarse spring; 27. a copper sheet II; 28. an organic temperature-sensitive body; 29. a copper shell; 31. a base; 32. a fixed seat; 33. a static contact piece; 34. a movable contact spring; 35. a temperature sensing tablet; 37. a thermal protector housing; 91. an electrolytic corrosion resistant conductive alloy layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Example 1

Referring to fig. 1-4, the present invention provides the following technical solutions: an over-temperature protection device with over-temperature protection and a highest-temperature permanent cut-off circuit comprises a device shell 1, a thermal fuse 2, a thermal protector 3, a first electrode 4, a second electrode 5 and a sealing structure 6; a thermal fuse body mounting cavity 11 and a thermal protector mounting cavity 12 are integrally formed in the device shell 1, a thermal fuse body 2 and a thermal protector 3 are fixedly mounted in the thermal fuse body mounting cavity 11 and the thermal protector mounting cavity 12 respectively, and two ends of the thermal fuse body 2 are respectively connected with a metal pin I9 and a metal pin II 10; the sealing structure 6 is arranged in the left port of the device shell 1 through a sealing installation groove and a sealing rib 7, a sealing plate is arranged on the sealing structure 6, an installation through hole is formed in the sealing plate, and one end of the first electrode 4 penetrates through the installation through hole of the sealing structure 6 to be connected with the metal pin II 10; one end of the second electrode 4 passes through the mounting through hole of the sealing structure 6 to be connected with the thermal protector 3; a first sealing epoxy resin 8 is filled and disposed at the left port of the device case 1.

Specifically, the thermal link 2 comprises a metal pin I9, an insulator 22, a thin spring 23, a star-shaped reed 24, a copper sheet I25, a thick spring 26, a copper sheet II 27, an organic temperature-sensing body 28, a copper shell 29 and a metal pin II 10; an opening part is arranged at one end of a copper shell 29, a through hole is arranged at the other end of the copper shell, an insulator 22, a thin spring 23, a star-shaped reed 24, a copper sheet I25, a thick spring 26, a copper sheet II 27 and an organic temperature sensing body 28 are sequentially arranged in the copper shell 29 from left to right, the insulator 22 is arranged in the opening part at one end of the copper shell 29, one end of a metal pin I21 penetrates through the insulator 22 and is connected with one side of the star-shaped reed 24, the thin spring 3 is arranged between the insulator 22 and the star-shaped reed 24, the copper sheet I25 is connected and arranged at the other side of the star-shaped reed 24, an electric erosion resistant conductive alloy layer 91 is arranged at the pier head end part of the metal pin I21, a layer of an electric erosion resistant conductive film is arranged on the surface of the star-shaped reed 24, the organic temperature sensing body 28 is arranged in the other end of the, the other end of the organic temperature sensing body 28 is connected with a copper sheet II 27, and a coarse spring 26 is arranged between the copper sheet I25 and the copper sheet II 27; the copper shell 29 has an opening at one end sealed with a second sealing epoxy resin 21.

Specifically, the thermal protector 3 includes a base 31, a fixed seat 32, a static contact piece 33, a movable contact piece 34, and a temperature sensing piece 35; a movable contact piece 34 is connected and arranged on the right end of the base 31 through a temperature sensing piece 35, a static contact piece 33 is arranged on the left end of the base 31 through a fixed seat 32, and the movable contact piece 34 is in contact with the static contact piece 33; one end of the second electrode 5 passes through the sealing structure 6 to be connected with the static contact piece 33; the base 31 is electrically connected to the metal pin i 9.

Specifically, the thermal protector 3 further includes a thermal protector housing 37; the thermal protector housing 37 may or may not be mounted.

Specifically, the shape of the device shell 1 is square or circular; the device shell 1 is provided with a mounting hole and a mounting pin, and the device shell is mounted on the PTC heater device through the mounting hole and the mounting pin.

Specifically, the metal pin I9 and the base 31 are electrically connected in a welding or riveting mode; the end of the first electrode 4 is welded with a metal pin II 10.

Specifically, the device shell 1 is made of PBT, nylon and PPS thermoplastic temperature-resistant insulating materials, and the device shell 1 is made of ceramic and bakelite temperature-resistant insulating materials.

Specifically, the operating temperature of the organic temperature sensing body 28 is 60 to 260 ℃.

Specifically, the corrosion-resistant conductive alloy layer 91 is composed of three metals, namely tin, bismuth and indium, and the weight percentage of the three metals is 40: 7: 53.

specifically, the operating temperature of the etching-resistant conductive alloy layer 91 is 70 to 230 ℃.

The invention can be directly arranged on a plastic seat or a metal bracket of the PTC heater; the mounting mode can be suitable for screw mounting, buckle mounting and the like according to design requirements. One pole of the over-temperature protection module with the temperature control protection and the highest temperature permanent cut-off circuit can be directly connected with a live wire of electric equipment; the other pole can be directly connected with the input end of the PTC heating frame, and an over-temperature protection module with a temperature control protection and highest temperature permanent cut-off circuit is connected in series in the main circuit.

When the device is used, the thermal protector 3 and the thermal fuse link 2 are connected in series and assembled in a common device shell 1, one pole of the thermal protector 3 and one pole of the thermal fuse link 2 are used, and the metal pin I9 and the base 31 are electrically connected in a welding or riveting mode; the end of the first electrode 4 is welded with a metal pin II 10; one end of the second electrode 5 passes through the sealing structure 6 to be connected with the static contact piece 33; the temperature sensing circuit is used as an input electrode and an output electrode of an over-temperature protection module with temperature control protection and a highest temperature permanent cut-off circuit, and has the characteristics of consistent temperature sensing effect of a thermal protector and a thermal fuse link and convenience in installation and replacement;

before the thermal fuse link 2 is actuated, the coarse spring 26 is in a compressed state; when the thermal fuse-link 2 senses the environmental temperature change and reaches the designed action temperature, the thermal fuse-link of the organic temperature sensing body 28 starts to melt, the thin spring 23 pushes the star-shaped reed 24, the star-shaped reed 24 is electrically disconnected with the metal pin I9, and the thermal fuse-link 2 acts to realize the protection function of the circuit where the thermal fuse-link is located.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An excess temperature protection device with excess temperature protection and highest temperature permanent cut-off circuit, its characterized in that: the device comprises a device shell (1), a thermal fuse body (2), a thermal protector (3), a first electrode (4), a second electrode (5) and a sealing structure (6); a thermal fuse body mounting cavity (11) and a thermal protector mounting cavity (12) are integrally formed in a device shell (1), a thermal fuse body (2) and a thermal protector (3) are fixedly mounted in the thermal fuse body mounting cavity (11) and the thermal protector mounting cavity (12) respectively, and two ends of the thermal fuse body (2) are respectively connected with a metal pin I (9) and a metal pin II (10); the sealing structure (6) is installed in the left port of the device shell (1) through a sealing installation groove and a sealing rib (7), a sealing plate is arranged on the sealing structure (6), an installation through hole is formed in the sealing plate, and one end of the first electrode (4) penetrates through the installation through hole of the sealing structure (6) to be connected with the metal pin II (10); one end of the second electrode (4) penetrates through the mounting through hole of the sealing structure (6) to be connected with the thermal protector (3); a first sealing epoxy resin (8) is filled and arranged at the left port of the device shell (1).

2. An over-temperature protection device with over-temperature protection and a maximum temperature permanent cut-off circuit according to claim 1, characterized in that: the thermal fuse link (2) comprises a metal pin I (9), an insulator (22), a thin spring (23), a star-shaped reed (24), a copper sheet I (25), a thick spring (26), a copper sheet II (27), an organic temperature sensing body (28), a copper shell (29) and a metal pin II (10); an opening part is arranged at one end of a copper shell (29), a through hole is arranged at the other end of the copper shell, an insulator (22), a thin spring (23), a star-shaped reed (24), a copper sheet I (25), a thick spring (26), a copper sheet II (27) and an organic matter temperature sensing body (28) are sequentially arranged in the copper shell (29) from left to right, the insulator (22) is arranged in the opening part at one end of the copper shell (29), one end of a metal pin I (21) penetrates through the insulator (22) and is connected with one side of the star-shaped reed (24), the thin spring (3) is arranged between the insulator (22) and the star-shaped reed (24), the other side of the star-shaped reed (24) is connected with the copper sheet I (25), an electric corrosion resistant conductive alloy layer (91) is arranged at the end part of a pier head of the metal pin I (21), an electric corrosion resistant conductive film is arranged on the surface of the star-shaped, one end of the metal pin II (10) is fixedly arranged in one end of the copper shell (29) through a through hole and is connected with one end of the organic temperature sensing body (28), the other end of the organic temperature sensing body (28) is connected with a copper sheet II (27), and a coarse spring (26) is arranged between the copper sheet I (25) and the copper sheet II (27); a second sealing epoxy resin (21) is hermetically arranged at an opening part at one end of the copper shell (29).

3. An over-temperature protection device with over-temperature protection and a maximum temperature permanent cut-off circuit according to claim 1, characterized in that: the thermal protector (3) comprises a base (31), a fixed seat (32), a static contact piece (33), a movable contact piece (34) and a temperature sensing piece (35); a movable contact piece (34) is connected and arranged on the right end of the base (31) through a temperature sensing piece (35), a static contact piece (33) is arranged on the left end of the base (31) through a fixed seat (32), and the movable contact piece (34) is contacted with the static contact piece (33); one end of the second electrode (5) passes through the sealing structure (6) and is connected with the static contact piece (33); the base (31) is electrically connected with the metal pin I (9).

4. An over-temperature protection device with over-temperature protection and a maximum temperature permanent cut-off circuit according to claim 1, characterized in that: the thermal protector (3) further comprises a thermal protector shell (37).

5. An over-temperature protection device with over-temperature protection and a maximum temperature permanent cut-off circuit according to claim 1, characterized in that: the shape of the device shell (1) adopts a square shape or a round shape; the device shell (1) is provided with a mounting hole and a mounting inserting pin, and the device shell is mounted on the PTC heater device through the mounting hole and the mounting inserting pin.

6. An over-temperature protection device with over-temperature protection and a maximum temperature permanent cut-off circuit according to claim 1, characterized in that: the metal pin I (9) and the base (31) are electrically connected in a welding or riveting mode; the end of the first electrode (4) is welded with the metal pin II (10).

7. An over-temperature protection device with over-temperature protection and a maximum temperature permanent cut-off circuit according to claim 1, characterized in that: the device shell (1) is made of PBT, nylon and PPS thermoplastic temperature-resistant insulating materials, and the device shell (1) is made of ceramic and bakelite temperature-resistant insulating materials.

8. An over-temperature protection device with over-temperature protection and a maximum temperature permanent cut-off circuit according to claim 2, characterized in that: the operating temperature of the organic matter temperature sensing body (28) is 60-260 ℃.

9. An over-temperature protection device with over-temperature protection and a maximum temperature permanent cut-off circuit according to claim 2, characterized in that: the electric corrosion resistant conductive alloy layer (91) is composed of three metals of tin, bismuth and indium, and the weight percentage of the three metals of tin, bismuth and indium is 40: 7: 53.

10. an over-temperature protection device with over-temperature protection and a maximum temperature permanent cut-off circuit according to claim 2, characterized in that: the action temperature of the electric corrosion resistant conductive alloy layer (91) is 70-230 ℃.

Images