CN203799960U - Temperature controllable protective tube - Google Patents

Abstract

A temperature controllable protective tube is characterized in that a tube body of the temperature controllable protective tube is provided with a bimetallic strip and a PTC heating body, one side of the bimetallic strip is provided with a first metal elastic sheet and a second metal elastic sheet, one end of the first metal elastic sheet is connected with a first copper sleeve through a first contact plate, the other end of the first metal elastic sheet is provided with a moving contact corresponding to a conductive connecting sheet, and the conductive connecting sheet is connected with a second copper sleeve through a second contact plate; and one end of the PTC heating body is connected with the first metal elastic sheet, and the other end of the PTC heating body is electrically connected with the second contact plate through a PTC connecting sheet. When a load circuit operates normally, the protective tube conducts the circuit; and when the current of the load circuit exceeds a set value, the bimetallic strip is heated to bend and to push the first metal elastic sheet, so that the moving contact and the conductive connecting sheet are separated to cut off the circuit, the PTC heating body is conducted with the circuit for heating continuously, and the bimetallic strip is reset to make the moving contact to be in contact and conducted with the conductive connecting sheet by cutting of the circuit manually, thereby the temperature controllable protective tube has the advantages of being able to be used repeatedly and being high in safety.

Description

Controllable temperature protective tube

[technical field]

The utility model relates to use for electronic products Thermal Cutoffs, particularly relates to a kind of controllable temperature protective tube.

[background technology]

For guaranteeing circuit safety, prevent from when electric current is excessive causing danger, in circuit, be conventionally all provided with Thermal Cutoffs, when load current is excessive, described Thermal Cutoffs automatically fuses and cuts off circuit, to avoid the generation of fire.Thermal Cutoffs can be divided into multiple: organic substance type Thermal Cutoffs and porcelain tube type Thermal Cutoffs.Described organic substance type Thermal Cutoffs consists of moving contact, spring, fusable links.Before Thermal Cutoffs starts, electric current flows to moving contact from left side lead-in wire, by metal shell, goes between to the right mobile.When external temperature reaches design temperature, the fusing of organic substance fusable links, Compress Spring fluffs and makes moving contact separated with left side lead-in wire, thereby cuts off circuit.Described porcelain tube type Thermal Cutoffs by axisymmetric lead-in wire, under set point of temperature fusible fusible alloy and for preventing that special mixture and porcelain tube of its fusing oxidation forms.When environment temperature rises, mixture starts liquefaction, and when reaching fusing point, the fusible alloy having melted is shrunk to rapidly spherical under capillary effect centered by the lead-in wire of two ends, thus permanent cut-off loop.No matter be the Thermal Cutoffs of which kind of type, it is had no progeny and just cannot reuse at high temperature melting, and it can only move once, therefore after fusing, needs the Thermal Cutoffs that often more renews, uses comparatively and bothers.

[summary of the invention]

The utility model is intended to address the above problem, and provide a kind of, capable of circulationly repeatedly uses, and can not automatically reset, thereby can guarantee the controllable temperature protective tube of Electrical Safety before disconnection fault is eliminated.

For realizing the purpose of this utility model, the utility model provides a kind of controllable temperature protective tube, it is characterized in that, this protective tube is provided with body, in the end, two ends of described body, be socketed with respectively the first copper sheathing and the second copper sheathing that importing and derived current are used, in described body, be provided with bimetal leaf and PTC heater, a side at described bimetal leaf is provided with the first metal clips and the second metal clips, one end first contact plate of this first metal clips is connected with the first copper sheathing, the other end of this first metal clips is free end, this free end end is provided with moving contact, in the body corresponding with described moving contact, be provided with conductive connecting piece, this conductive connecting piece is connected with the second contact plate, the second contact plate is connected with described the second copper sheathing, one end second metal clips of described PTC heater is connected with the first metal clips, the other end of this PTC heater is electrically connected to described the second contact plate through PTC brace, and the electric current of the load connecting when controllable temperature protective tube is during in normal range (NR), electric current is through the first copper sheathing, the first metal clips, conductive connecting piece, the second contact plate, the second copper sheathing and conducting, when the electric current of the load connecting when controllable temperature protective tube surpasses set point, bimetal leaf heated bending and promote the first metal clips, the moving contact that makes the first metal clips and open circuit separated with conductive connecting piece, simultaneously PTC heater and circuit turn-on and persistent fever, while only having hand off circuit, described bimetal leaf resets and makes moving contact contact conducting with conductive connecting piece.

Described PTC brace is located in body, on described PTC brace, is provided with vertical with it dielectric support block, and the other end of this back-up block is connected with described bimetal leaf and the first metal clips.

The middle part of described the first metal clips is connected on described back-up block, and this first metal clips is plate body, which is provided with two conductive contacts that protrude from its plane, and these two conductive contacts contact with the two ends of described bimetal leaf respectively.

The body of this protective tube is by upper cover body and lower cover is involutory is formed by connecting, and is respectively equipped with the first copper sheathing and the second copper sheathing outside the end, two ends of described upper cover body and lower cover.

Described the first contact plate is located between described upper cover body and lower cover, and is fixedly connected with described lower cover, and one end of this first contact plate contacts with the first copper sheathing, and its other end contacts with the end of described the first metal clips.

In the end of described the first contact plate, be provided with the first conduction link with the parallel contact of inner face of described the first copper sheathing, on described the first contact plate one side surface, be provided with vertical with it positioning convex, on described lower cover, be provided with the location notch matching with described positioning convex, described positioning convex is plugged in described location notch.

One end of described the second contact plate is connected with described PTC brace, and its other end is connected with described the second copper sheathing contact, on described the second contact plate, is provided with connecting hole.

Described conductive connecting piece is L-type, and its one end is corresponding with described moving contact, and its other end is plugged in the connecting hole of described the second contact plate.

One end of described the first metal clips is located between described the first contact plate and lower cover, on described back-up block, is connected with heating wire, and this heating wire is connected with described bimetal leaf.

Described upper cover body 13 and lower cover are made by insulating material, and described conductive connecting piece is silver sheet metal, and described the first contact plate and the second contact plate are made by electric conducting material.

Contribution of the present utility model is, it efficiently solves the problems referred to above.The utility model is by arranging bimetal leaf and PTC heater, protective tube energy automatic shutoff circuit in the time of not only can making to load on overload or overtemperature, and after circuit because overtemperature overload disconnects, only after eliminating fault, just can make manually circuit reset connect, thereby both can Reusability, can guarantee circuit safety again.Compared with prior art, controllable temperature protective tube of the present utility model can not burn circuit because circuit is excessive, has safe and reliable feature.The utility model has overcome in prior art fuse can only expendable problem, and have simple in structure, easy to install, temperature control is accurate, reliable operation, the feature such as cost-saving.

[accompanying drawing explanation]

Fig. 1 is structural representation of the present utility model.

[embodiment]

The following example is to further explanation of the present utility model and supplements, the utility model is not constituted any limitation.

As shown in Figure 1, controllable temperature protective tube of the present utility model is provided with PTC heater 30, and it can be repeatedly used, and can only could reset manually, thus more convenient use, and use safety.

Controllable temperature protective tube of the present utility model comprises upper cover body 13, lower cover 14, the first copper sheathing 11, the second copper sheathing 12, the first contact plate 51, the second contact plate 52, the first metal clips 41, the second metal clips 42, bimetal leaf 20, conductive connecting piece 60, PTC brace 70 and PTC heater 30.

Specifically, as shown in Figure 1, the body of controllable temperature protective tube of the present utility model is by upper cover body 13 and lower cover 14 is involutory is formed by connecting, in the present embodiment, and its cylindrical body.Described upper cover body 13 and lower cover 14 are made by insulating material, are generally the working condition of being convenient to observe protective tube internal components, and described upper cover body 13 and lower cover 14 can be made by transparent insulation materials such as polymethyl methacrylate.

As shown in Figure 1, for ease of connecting circuit, make protective tube energy turning circuit, at the two ends of described upper cover body 13 and lower cover 14, be arranged with respectively the first copper sheathing 11 and second copper sheathing 12 of tubulose.Described the first copper sheathing 11 and the second copper sheathing 12 are round sleeve shape body, and the end of its size and upper cover body 13 and lower cover 14 matches.By at sheathed the first copper sheathing 11 of upper cover body 13 and lower cover 14 ends and the second copper sheathing 12, not only can make upper cover body 13 and lower cover 14 be fastenedly connected, also can facilitate connecting circuit.Described the first copper sheathing 11 can be connected with circuit by known mode with the second copper sheathing 12, thereby by protective tube place in circuit.For example, can binding post or socket be set in the outer end of the first copper sheathing 11 and the second copper sheathing 12, to peg graft or welding lead, or the first copper sheathing 11 and the second copper sheathing 12 are connected on corresponding metal bracket and are conducted electricity be connected.

As shown in Figure 1, in described lower cover 14, be provided with PTC brace 70, this PTC brace 70 is sheet metal.At the middle part of this PTC brace 70, be provided with back-up block 80, this back-up block 80 is made by insulating material.The other end at described back-up block 80 is connected with bimetal leaf 20, the first metal clips 41 and heating wire 90.Specifically, the middle part of described bimetal leaf 20 and the first metal clips 41 is connected on described back-up block 80, and described the first metal clips 41 is located at the outside of bimetal leaf 20.Described bimetal leaf 20 is known bimetal leaf 20, when load temperature acquires a certain degree, and the just temperature distortion and crooked laterally of this bimetal leaf 20.Described the first metal clips 41 is plate body, which is provided with two conductive contacts 412 that protrude from its plane.Described conductive contact 412 contacts with the two ends of described bimetal leaf 20 respectively, thus with bimetal leaf 20 conductings.In the present embodiment, described conductive contact 412 is formed V-arrangement bending and forms towards bimetal leaf 20 by the first metal clips 41.Described heating wire 90 is located on back-up block 80, and is connected with the two ends of described bimetal leaf 20, produces heat when switching on.When load temperature reaches set point, described bimetal leaf 20 heated bendings, just can promote described the first metal clips 41 and move laterally.One end of described the first metal clips 41 is connected with described the first copper sheathing 11 by the first contact plate 51, and the other end of this first metal clips 41 is free end, and it is connected with described the second copper sheathing 12 by conductive connecting piece 60 and the second contact plate 52.

As shown in Figure 1, described the first contact plate 51 is made by electric conducting material, and it is located between upper cover body 13 and lower cover 14, and is fixedly connected with described lower cover 14.This first contact plate 51 is plate body, and its one end is connected with the first copper sheathing 11, and the other end is connected with the first metal clips 41.In the end of this first contact plate 51, be provided with the first conduction link 511 that is 90 degree turnovers, this the first conduction link 511 is located between described the first copper sheathing 11 and lower cover 14, thereby can with the first copper sheathing 11 conductings, and increase contact area to improve electric conductivity.On the downside surface of described the first contact plate 51, be provided with vertical outward extending positioning convex 512, this positioning convex 512 intervals and be located at abreast described the first connecting portion one side.On described lower cover 14, be provided with the location notch matching with described positioning convex 512, by described positioning convex 512 is inserted in described location notch, just the first contact plate 51 can be positioned on lower cover 14.

Described the second contact plate 52 is made by electric conducting material, and it is plate body.As shown in Figure 1, one end of this second contact plate 52 is connected with described PTC brace 70 contacts, and its other end is withheld on described lower cover 14, and is connected with described the second copper sheathing 12 contacts.On described the second contact plate 52 and lower cover 14, be provided with the connecting hole of mutual perforation, for connecting described conductive connecting piece 60.

As shown in Figure 1, described conductive connecting piece 60 is L-type, for turning circuit.Described the second contact plate 52 upsides are located in the parallel and compartment of terrain of this conductive connecting piece 60, and its other end vertically inserts in described connecting hole and is connected with described the second contact plate 52 conductings.For preventing that conductive connecting piece 60 from affecting circuit safety performance because of oxidation, in the present embodiment, described conductive connecting piece 60 is selected silver sheet metal, and it is at high temperature not oxidizable yet, thereby can guarantee the fail safe of circuit.

As shown in Figure 1, one end of described the first metal clips 41 is located between the first contact plate 51 and lower cover 14, and is electrically connected to the first contact plate 51.The free end downside surface of this first metal clips 41 is provided with moving contact 411, itself and 60 conductings of described conductive connecting piece or disconnection.Under normal conditions, when circuit is normally worked, described moving contact 411 contacts and is electrically connected to described conductive connecting piece 60, thereby makes protective tube turning circuit.When the electric current of the load circuit connecting when protective tube surpasses set point, the heat that described heating wire 90 produces increases, and described bimetal leaf 20 heated bendings just can drive described moving contact 411 separated with described conductive connecting piece 60, thus open circuit.

As shown in Figure 1, after being disconnected, circuit continues to remain open state, circuit automatically resets and turning circuit when preventing that fault from not getting rid of, in one end of described PTC brace 70, be provided with PTC heater 30, the other end of this PTC heater 30 is connected with described the first metal clips 41 by the second metal clips 42.

During controllable temperature protective tube of the present utility model work, when load circuit is normally worked, electric current by the first copper sheathing 11 through the first contact plate 51, the first metal clips 41, conductive connecting piece 60, the second contact plate 52 and the second copper sheathing 12 and conducting load circuit.And when circuital current exceeds safe range value, be that circuit temperature is while surpassing the design temperature of bimetal leaf 20, described bimetal leaf 20 heated bendings, and then promote the first metal clips 41 and move up and make moving contact 411 separated with described conductive connecting piece 60, thereby circuit cut off rapidly.And meanwhile; PTC heater 30 is in conducting state; due to its high resistant performance; these PTC heater 30 persistent fevers; its heat causes bimetal leaf 20 to maintain deformation state always; make moving contact 411 with conductive connecting piece 60 in off-state, thereby make the first copper sheathing 11 and the second copper sheathing 12 and power supply and load also in off-state, to realize the object of protection load.Now, only have manual deenergization, make PTC heater 30 because power down stops heating, just can make bimetal leaf 20 reset, and then moving contact 411 is contacted and turning circuit again with conductive connecting piece 60.

Although the utility model is disclosed by above embodiment, but scope of the present utility model is not limited to this, do not departing under the condition of the utility model design, the similar or equivalent element that above each member can be understood with affiliated technical field personnel is replaced.

Claims (10)

1. a controllable temperature protective tube, it is characterized in that, this protective tube is provided with body, in the end, two ends of described body, be socketed with respectively the first copper sheathing (11) and the second copper sheathing (12) that importing and derived current are used, in described body, be provided with bimetal leaf (20) and PTC heater (30), a side at described bimetal leaf (20) is provided with the first metal clips (41) and the second metal clips (42), one end first contact plate (51) of this first metal clips (41) is connected with the first copper sheathing (11), the other end of this first metal clips (41) is free end, this free end end is provided with moving contact (411), in the body corresponding with described moving contact (411), be provided with conductive connecting piece (60), this conductive connecting piece (60) is connected with the second contact plate (52), the second contact plate (52) is connected with described the second copper sheathing (12), one end second metal clips (42) of described PTC heater (30) is connected with the first metal clips (41), and the other end of this PTC heater (30) is electrically connected to described the second contact plate (52) through PTC brace (70), and

The electric current of the load connecting when controllable temperature protective tube is during in normal range (NR), and electric current is through the first copper sheathing (11), the first metal clips (41), conductive connecting piece (60), the second contact plate (52), the second copper sheathing (12) and conducting; When the electric current of the load connecting when controllable temperature protective tube surpasses set point, bimetal leaf (20) heated bending and promote the first metal clips (41), the moving contact (411) that makes the first metal clips (41) and open circuit separated with conductive connecting piece (60), simultaneously PTC heater (30) is with circuit turn-on and persistent fever, while only having hand off circuit, described bimetal leaf (20) resets and makes moving contact (411) contact conducting with conductive connecting piece (60).

2. controllable temperature protective tube as claimed in claim 1, it is characterized in that, described PTC brace (70) is located in body, on described PTC brace (70), be provided with vertical with it dielectric support block (80), the other end of this back-up block (80) is connected with described bimetal leaf (20) and the first metal clips (41).

3. controllable temperature protective tube as claimed in claim 2, it is characterized in that, the middle part of described the first metal clips (41) is connected on described back-up block (80), this first metal clips (41) is plate body, which is provided with two conductive contacts (412) that protrude from its plane, these two conductive contacts (412) contact with the two ends of described bimetal leaf (20) respectively.

4. controllable temperature protective tube as claimed in claim 3, it is characterized in that, the body of this protective tube, by upper cover body (13) and involutory being formed by connecting of lower cover (14), is respectively equipped with the first copper sheathing (11) and the second copper sheathing (12) outside the end, two ends of described upper cover body (13) and lower cover (14).

5. controllable temperature protective tube as claimed in claim 4, it is characterized in that, described the first contact plate (51) is located between described upper cover body (13) and lower cover (14), and be fixedly connected with described lower cover (14), one end of this first contact plate (51) contacts with the first copper sheathing (11), and its other end contacts with the end of described the first metal clips (41).

6. controllable temperature protective tube as claimed in claim 5, it is characterized in that, in the end of described the first contact plate (51), be provided with the first conduction link (511) parallel with the inner face of described the first copper sheathing (11), on described the first contact plate (51) one side surfaces, be provided with vertical with it positioning convex (512), on described lower cover (14), be provided with the location notch matching with described positioning convex (512), described positioning convex (512) is plugged in described location notch.

7. controllable temperature protective tube as claimed in claim 6, it is characterized in that, one end of described the second contact plate (52) is connected with described PTC brace (70), and its other end is connected with described the second copper sheathing (12) contact, on described the second contact plate (52), is provided with connecting hole.

8. controllable temperature protective tube as claimed in claim 7, is characterized in that, described conductive connecting piece (60) is L-type, and its one end is corresponding with described moving contact (411), and its other end is plugged in the connecting hole of described the second contact plate (52).

9. controllable temperature protective tube as claimed in claim 8, it is characterized in that, one end of described the first metal clips (41) is located between described the first contact plate (51) and lower cover (14), on described back-up block (80), be connected with heating wire (90), this heating wire (90) is electrically connected to described bimetal leaf (20).

10. controllable temperature protective tube as claimed in claim 9, it is characterized in that, described upper cover body 13 and lower cover (14) are made by insulating material, and described conductive connecting piece (60) is silver sheet metal, and described the first contact plate (51) is made by electric conducting material with the second contact plate (52).