CN2325704Y

CN2325704Y - Electric heater

Info

Publication number: CN2325704Y
Application number: CN98208819U
Authority: CN
Inventors: 约翰·C·泰勒; 劳伦斯·迪阿斯
Original assignee: Strix Ltd
Current assignee: Strix Ltd
Priority date: 1997-02-17
Filing date: 1998-02-17
Publication date: 1999-06-23
Anticipated expiration: 2008-02-17
Also published as: EP1013148B1; CN1248384A; ES2171290T3; HK1029484A1; DE69803586D1; CN1130108C; GB2322273B; DE69803586T2; GB9703225D0; EP1161120A2; WO1998036618A1; EP1013148A1; GB2322273A; ZA981287B; EP1161120A3; AU6224398A

Abstract

The utility model discloses a thick-film electric heater 1 with an insulating base body. The insulating base body has the heating track 7 of a thick-film resistance, wherein, the heating track 7 of a thick-film resistance comprises at least two separating parts which are connected by a bridge 11 which is formed from materials whose resistivities are lower than the resistivity of the heating track 7 of a thick-film resistance, such as silver.

Description

Electric heater

The utility model relates to a kind of thick film electric heater that comprises the resistance thick film heating track that is applied on the electrical insulating substrate, relates in particular to a kind of electric heater that is used for heating vessel.The example of this heater has been described in WO 96/18331 and WO 96/14796.

In order to make heater with minimum cost, planned course layout importantly like this makes and utilizes material best.The whole resistance of track is determined by the length and the width of trace material and track.For given operating voltage, the output of the power of track is determined by its resistance with by the micro-power density (power density of track itself) that the length and the width of track are determined.

Yet track does not cover whole insulating body, because for example must provide spacing between the various piece of track.Thereby (on the zone that is covered by insulating barrier) micro-power density of whole heater will be significantly smaller than the power density of track.The ratio of these two power densities is represented the amount of space of wasting thereby also is the quantity of material that is used to make heater of waste.In existing heater design, this is than less than 60%.

In general, the power output that requires heater 50Wcm for example under certain density ^-2Be set to certain value, 3KW is for example determined the length and the width of trace material then by the resistance of trace material.The length of track and width product provide micropower density, simultaneously length is determined horizontal bar in the front of a carriage used as an armrest rate divided by width.In theory, the track layout will be wanted to the greatest extent can be closely knit, so that reduce waste of material, and still will satisfy the required power output and the maximum micropower density of track simultaneously.Yet the fine and close track layout of design is called the restriction of " current concentrated " phenomenon.According to this phenomenon, electric current is tending towards getting around the path of the resistance minimum of the inside of turning round of track.This is even more important in rapid corner, and electric current gathers and causes that the track of the inside of turning round is superheated to so degree there, to cause the track fracture.

According to existing design, as described in WO 96/17496, adjacent wide resistance track couples together with the big camber line loop of track, to avoid current concentrated.Yet this causes the big matrix area in the loop zone not covered by track, makes total micropower density of heater reduce.

Another kind method is to use a plurality of narrow gauge marks, can significantly reduce current concentrated effect like this.Track is arranged in parallel on electric, thereby makes an overall width that the single track that is equivalent to required width is arranged.Yet being appreciated that needs to leave spacing between adjacent track, so that the intersection heating between electric insulation and the minimizing track.Thereby, if a plurality of tracks are provided abreast, then owing to the spacing between these adjacent parallel track is wasted suitable space.This has reduced total micropower density of heater again.

Thereby, in order to increase total micropower density of heater, need make track wide as far as possible, because the track that each track must be adjacent with it is separately, be electrically connected and the starting the arc so that stop.Like this, track is wide more, and the number of turns and the amount of space between the track of the track of the whole insulating body of needs covering are few more, make that the space of waste is few more.Yet for reaching this purpose, must find a kind of method, be used for overcoming the current concentrated problem that the track between the adjacent turn of track takes place.

In addition, heater may have the barrier that must be avoided by resistance track, for example is used for the contact pad of control device, or the contact installation site.Avoid these barriers and on matrix, just produce the space, thereby also reduced total power density of heater.

According to the utility model, a kind of thick film electric heater that comprises the insulating body with thick-film resistor heating track is provided, wherein resistance track comprises at least two separated portions that connect by the bridging of the resistivity material lower than the resistivity of resistance track.

Like this, by means of the utility model, when forming compact track layout, can avoid turning round of deep camber, because this available bridge that turns round replaces.In addition, bridge can be used to walk around the barrier on the heater.The high conductivity of bridge prevents or substantially minimize any current concentrated effect of turning round in the bridge, and is because in this material, so not remarkable to the resistance difference of outer rim from the inner edge that turns round.Correspondingly, if desired, can adopt the rapider conductive traces that turns round, this is used under the situation of cut-through thing at this type of bridge be very important.The ring that replaces the long radius be used to connect the track part makes the track layout compact more, this means that heater can realize higher grand power density, this means, for given power output, heater can be less, thereby save a large amount of Master Costs that is used for metal profile, heating track and insulating layer material.

In addition, preferably bridge can be much narrower than resistance track, so as to keeping the micropower density that micropower density approaches resistance track, uses little space simultaneously on matrix.For example, if use 0.1 the material of resistivity, then when keeping equal-wattage density, can make 0.1 times of width to track width as the resistivity of trace material.

In order to reduce the quantity of used bridge material, preferably make bridge be essentially straight line, the width that preferably has substantial constant.Certainly, also can use the bridge of other suitable shape.For example, when connecting the two ends of two parallel track, bridge can be a straight line, and perhaps avoiding obstacles if desired then can be a curve.

Preferably bridge strides across the width extension of track part fully, flows into bridge equably so that guarantee electric current.Best bridge vertically strides across track and partly extends.

Preferably resistance track comprises at least two parallel track parts that linked to each other by conducting bridge in corresponding endpoint.Can design various track configurations, this depends on the shape of heater plates or matrix to a certain extent.For example, track can be arranged to a series of parallel straight part, and the end points of its adjacent part links to each other.This is particularly useful for square or rectangular heater.In another kind of structure, the nested spiral of two parallel resistance tracks can be set on matrix.

Have thereon under the situation of circular base of two helical trajectories, in the zone of spiral outer end, inevitable some insulating barrier is not covered by resistance track.According to the utility model, preferably make double-helical inside and outside track extend to the outward flange of heater matrix basically, and two ends are connected with two or more conducting bridges.In this way, the coverage rate of helical trajectory can make and avoid required turning round in this zone as much as possible to the expansion of the neighboring of matrix.

But, in most preferred embodiment, resistance track is the shape that concentric C shape is encircled.For the covering of maximum, each ring can extend 360 ° basically, thereby is used between the only remaining end points to insulate and forms enough intervals of bridge.The end points of ring can interconnect in couples by bridge, makes to form continuous conductive path.This is especially favourable when being used for circular shape heater.The central area of heater can not have track, for example is used for holding the temperature detection storage tank (sensingsump) in the heater that discloses as WO97/04694.This does not have the zone of track can be quite little, and only is subjected to the restriction of current concentrated condition.

In one embodiment, track has constant width basically.In order to provide required power output, can calculate the total length and the area of track.Have been found that the heating power and the about 50Wcm that use standard trajectory material production 3KW with every square 0.1 Ω resistance ^-2Micropower density, approximately 5.7mm is wide for track, 100mm is long.

The abutting end of adjacent ring is connected together by bridging, makes the sense of current change from a track part to a track part.In another structure, alternately the opposite end of ring is connected together by bridging.This produces the track of hairpin shape in fact in the shape of a spiral, and allows the terminal portion of track close to each other, and this is favourable, for example needs the situation of big voltage drop with the controlled inefficacy that helps to be carried out by the mechanism that WO 97/39603 describes between these parts.

As mentioned above, present locos film heater has less than 60% the grand micropower density ratio that is heated that track covers.The utility model can reach higher ratio, for example surpasses 70% or even 80% to 85%.Therefore, from another point of view, the utility model provides a kind of and preferably surpasses the thick film heater that 80% insulating regions is covered by the heating track more than 70%.

The center that is preferably in heater provides the one or more joints that are used to connect resistance track.As mentioned above, for example under the situation of circular shape heater, the heater resistance track can not be arranged on the center of heater, because the curvature of track is too big at this moment, current concentrated causing surpasses the overheated of regulation.Like this, must stay some spaces at least, and realize small designization by required element control device being installed at this core at the center of heater.Conducting bridge can be set be used to connect plural track part, for example bridge can form electric branch road, or and connects two or several parts.

It is a kind of new structure that pair of joint itself is set in the central area of locos film heater, and therefore, from another aspect, the utility model provides a kind of locos film heater, and it comprises a pair of electric connection that is arranged on the heater center zone.For circular shape heater, preferably joint is set in the zone that the only about half of radius by insulating body limits, and it is better interior to be arranged on the zone that is limited by about 1/3rd radius.

Conducting bridge can form and comprise for example printed strip of the printing ink of silver of conductive material at high proportion.This printing ink for example is used to form the terminals of track at present, and if to two kinds of identical printing ink of purposes use, form just can operate by one-step print.

Though as mentioned above, track can use constant width, has been found that especially under the logical state of the electric heater stem grafting of heating vessel, and the neighboring area of resistance track is by near the material of matrix and surrounding air cooling.Thereby these zones of track do not form high temperature as those tracks that surrounded by other track.Wish to obtain the uniform heating across whole element, especially under stem grafting poker spare, thereby a temperature-sensitive starter can be arranged on any position of heater to obtain the uniform operation temperature.

According to the utility model, a kind of electric heater is provided, it comprises the insulating body with thick-film resistor heating track, wherein resistance track comprises a plurality of adjacent track parts, the width of each the track part in the heater given area is such, makes that across adjacent track Temperature Distribution partly be constant basically.

Thereby, in general, can make track partly be narrower than track part towards the configuration center towards track configuration edge.In this way, these tracks partly partly produce more heat than other track, thus the heat loss that matrix causes around the compensation.

Thereby, in a broad sense, the utility model provides a kind of electric heater, it comprises the insulating body with thick-film resistor heating track, wherein, resistance track comprises a plurality of adjacent track part that is provided with predetermined configuration, towards the width of the track part at configuration edge less than width towards the track part at configuration center.

In this case, the concentric configuration of C shape track especially advantageously, as mentioned above, because the width of each C shape track can be determined independently with regard to its position on heater.Thereby in a concrete preferred embodiment, heater comprises a series of concentric C shape tracks, and radially outermost and interior track are narrower than the track that radially more leans on the center.Narrow down and the amount of widening can be determined by experiment.Certainly, adopt traditional track, also allow track to narrow down or widen to obtain effect same.

As mentioned above, temperature-sensitive starter for example bimetallic starter is located with respect to the heating track of heater usually, so that the operation of control heater.For example, available bimetallic starter prevents overheated heater.In our UK Patent Application No.9621977.9, propose,, perhaps wish partly to reduce the power density and the temperature of this part track by the resistance track of widening the starter below in order in this control device, to use standard bimetallic starter.Yet track this widened needs extra heater space, not only itself with regard to broad gauge mark part, and for also being like this around the widened section that must occupy by adjacent track.In addition, the heater traces material is expensive, this means that the track of broad will increase material cost.

According to the utility model, a kind of method that reduces the power density of a part of thick-film resistor heating track is provided, wherein this above part track or below a plurality of conductive material parts are set, thereby cover this part track partly.

The utility model also expands to the electric heater that comprises the insulating body with thick-film resistor heating track, wherein heats a part of loam cake of track or is lined with a plurality of conductive material parts that cover this part track partly down.

Be arranged on conductive material some the little zones of the described track part of short circuit effectively above or below the resistance heated track, so as to reducing total resistance of this track part.This just reduces its micropower density and operating temperature.But, it has such advantage, does not realize that the minimizing in heater space reduces loss thereby promptly do not need to increase track width, and reduces Master Cost.

Conductive material for example can be above-mentioned silver-colored printing ink.Preferably the current-carrying parts of going up are set more, only make that conductive material just can be realized the low resistance zone in a small amount, so as to the economical with materials expense with speckle, spot or short-term pattern.

Being used to produce temperature required concrete figure and level of coverage can be determined by experiment.

Now with way of example and with reference to description of drawings embodiment more of the present utility model, wherein:

Fig. 1 is the schematic diagram of the utility model first embodiment;

Fig. 2 is the schematic diagram of another kind of structure of the embodiment of Fig. 1;

Fig. 3 is the schematic diagram of the utility model second embodiment;

Fig. 4 is the schematic diagram of the utility model the 3rd embodiment;

Fig. 5 is the schematic diagram of the utility model the 4th embodiment;

Fig. 6 is the detail drawing of the embodiment of Fig. 5;

Fig. 7 is the partial schematic diagram of the feature of the utility model the 5th embodiment; And

Fig. 8 is the schematic diagram of another embodiment of the utility model.

Label identical among the figure is corresponding to the respective element among each embodiment.

Fig. 1 represents electric thick film heater (electric thick film heater) 1, comprises corrosion resistant plate 3, and it is provided with for example insulating barrier 5 of Du Pont (Dupont) 3500 of glass, glass ceramics or pottery.A plurality of C shape resistance thick film heating tracks (track) 7 on the surface of insulating barrier 5, have been printed.Each of four outermost tracks 7 is approximately extended 360 °, and the opposite end is opened by the relatively little separated of the 1.5-2mm order of magnitude.The suitable printing ink (ink) that heating track 7 is added with metal by printing in the prior art manner known for example Du Pont's 3642/45 mixture is formed on the insulating barrier 5.

The interior heating track 7 of heater 1 has terminal portion or joint 9 at the one end, is used for that for example we are called in the name of application on the same day that illustrated that of the undecided patent application of " thick film heater " is a kind of to link to each other with power supply by a suitable controlling organization (not shown).In that application, by joint location for example joint of Du Pont's 7760 materials such as grade connect on the top of base then sintering make connector engages in place and connector engages in track.

C shape resistance heated track 7 is by being printed on conducting bridge 11 interconnection above or below the track end and that be electrically connected with track.The configuration of bridge 11 makes the whole heating track that comprises resistance heated track 7 and silver-colored bridge 11 form the continuous circuits from an end 9 to another end 9.

This configuration is that than the advantage of the configuration of prior art bridge 11 has replaced the anxious part of turning round of requirement of resistance heated track.The heating track increases owing to current concentrated (current crowding) is tending towards in the inboard of turning round in the temperature of this anxious corner.

As mentioned above, the resistivity of bridge material is lower than the resistivity of track 7.The bridge material generally includes ag material, and that uses when at present printing the joint base on heater is a kind of.This has additional advantage, and promptly joint base or joint connect base and can be printed on simultaneously on the terminals 9 of track with bridge 11.This material is known in the art, for example above-mentioned Du Pont 7760.

This conductive material has the resistivity more much lower than trace material, for example is 0.1 even 0.025 times of exemplary trajectory resistivity of material.Therefore, in theory, in order to keep constant power density in track 7, bridge 11 can be much narrower than track, is the same order of magnitude with resistivity ratio for example.Yet so narrow track may not reliably print guaranteeing and accurately align with track and contact, therefore in an illustrated embodiment, and the wide and track about overlapping 0.5mm in end partly of bridge 11 about 1mm.

In the structure of Fig. 1, the internal diameter of interior track 1 is 46mm, and the external diameter of outermost track 7 is 94mm.The width of each track is 4mm, and spacing is 1mm.Joint 9 be set at the radius that just is positioned at the heater insulation zone half with radius on.

Fig. 2 is another configuration of Fig. 1 embodiment, and wherein terminal portion 9 is positioned at second on the track 7.Can know by this embodiment and to find out that according to heater and relevant control device installation requirement, terminals can be positioned on any one of C shape track.But, under present case, preferably terminal portion 9 is installed in the central area of heater, makes the control device of heater can be installed in the center of plate 3, because be so little at the radius of this regional resistance track, so that will take place current concentrated.

Fig. 3 is the another kind of track configuration according to an embodiment of the present utility model.In this case, to utilize silver-colored bridge 11 to connect into right for C shape resistance track 7.Current path from fire line terminal 9a through a loop up to arriving first silver-colored bridge 11, cross another loop in this its cross-over connection in next C shape track 7 and reverse flow.This carries out in a similar manner up to reaching outermost resistance track 7.Outermost resistance track 7 links to each other with interior resistance track 7 by long silver-colored bridge 11a.Interior resistance track 7 is linked to each other with neutral terminal 9b by another silver-colored bridge 11.It is believed that and constantly make current reversal can reduce the EMF radiation.

Fig. 4 is another embodiment of the present utility model, wherein the track 7a on dielectric base 5 to 7f and silver-colored bridge 11 fundamental sums shown in Figure 1 quite.But, in the present embodiment, the internal diameter of interior track 7a is 9.87mm, and the outer warp of outermost track 7f is 46.57mm.Orbit interval is 0.5mm.This Trajectory Design is used to produce the power output of 3KW.In order to utilize constant track width to produce this output, the path length of 1000mm and have every square of (per square) trace material of 0.1 Ω resistivity and will need the track width of 5.7mm.But, in the present embodiment, the width of track changes to the value shown in its periphery according to the form below from the center of heater.

Track	Width (mm)
Track	Width (mm)	7a	5.13
7b	5.70	7a	5.13
7b	5.70	7c	6.27
7d	6.27	7c	6.27
7d	6.27	7e	5.70
7f	5.13	7e	5.70

Like this, the width of

track

7b and 7e is set to 5.70mm, and the width of adjacent track increases respectively and reduces 10%.Because its width is narrower, the resistance of the per unit length of track 7a, 7f is greater than the resistance of the per unit length of track 7c, 7d.Not exclusively track 7f, the 7a that is surrounded by adjacent track makes the bigger power output of track 7a, 7f per unit area be compensated by the environmental loss of the increase of these tracks in the loss of heater edge or the center loss greater than centrode 7c, 7d.Therefore, the change of track width guarantees to keep stationary temperature distribution more in the radius of heater 1.

In the present embodiment, suppose that dielectric base 5 has the internal diameter of 7.5mm and the outer warp of 48.94mm, and total insulation area of heater is approximately 7350mm ²Actual track area is approximately 5860mm ², this means that about 80% insulating surface of heater is covered by track, promptly to have numerical value be grand little (Macro to micro) power density ratio of 0.8 to heater.

In addition, joint 9 is arranged on about 1/3rd the radius of heater insulation zone radius.

Fig. 5 represents another embodiment of the present utility model, and wherein heater 1 is provided with two not on the same group tracks.This configuration for example can be used for selectively giving the high power portion of track and the steam pot (airpot) of partial low-power energising.This steam pot has been described in WO 97/04694.First group of outer track 7a (width 1.2mm) is provided, and to connect by silver-colored bridge 11a at adjacent end portion with respect to the described configuration of Fig. 3.Track 7b (width 3.4mm) is also connected by silver-colored bridge 11b in respective end in second group.Track 7 is electrically connected, and specifically is at fire line terminal 9a, indirect line end 9b and neutral terminal 9c.

Track part 7a has the resistance of about 490 Ω, and part 7b has the resistance of about 90 Ω, thereby when power supply is connected to

terminal

9b and 9c, will produce the power of 600W.This is enough to make the liquid boiling in the container.Yet, when power supply is connected to 9a, 9c, only producing the power of 100W, this is enough to for example endure the liquid of simmering boiling.

The silver-colored bridge 11a of the track configuration of Fig. 6 presentation graphs 5 and the details of outer track 7a.

Fig. 7 represents the feature of the utility model the 5th embodiment with the form of local figure, and wherein silver-colored bridge 11 is used to form the conductive path of walking around the barrier on the substrate surface.Heater traces 7 is disconnected near barrier 13, and barrier 13 for example can be a connection bump that is used for heater control device, but the electrical connection between the breaking part of track 7 is realized by silver-colored bridge 11.In this way, can avoiding obstacles 13, and do not need wide the turning round of required in the prior art track 7.

Fig. 8 represents the details of another embodiment of the utility model.In the present embodiment, the part of track 7 be printed on for example above-mentioned silver-colored printing ink of conductive material Du Pont 7760 figure 8 top or below.The length of conductive material is used for each segment track of short circuit, thereby reduces its micropower density and resistance.

Have at track under the situation of the silver-colored bridge of same material and joint base, they can be printed simultaneously.Correspondingly, preferably figure is printed on above the track 7.

Can adopt other figure of conductive material, for example stride across the band of track, be arranged on material point on the trace material etc.

The utility model relates generally to form economical and effective track configuration.Be used for the required technology that the utility model puts into practice is known in the art.

Claims

1. a thick film electric heater comprises that one is provided with the dielectric base of thick-film resistor heating track, and wherein resistance track comprises the discrete part that at least two bridgings of being made by the resistivity material lower than the resistivity of resistance track connect.

2. heater as claimed in claim 1, wherein said bridge are wire basically.

3. as the described heater of the arbitrary claim in front, the width of its jackshaft is constant basically.

4. as the described heater of the arbitrary claim in front, its jackshaft extends across the width of track part fully.

5. as the described heater of the arbitrary claim in front, its jackshaft extends across the track part is vertical.

6. as the described heater of the arbitrary claim in front, wherein said bridge is narrower than each track part.

7. as the described heater of the arbitrary claim in front, wherein said resistance track comprises at least two parallel track parts, is coupled together by a conducting bridge in end separately.

8. as the described heater of the arbitrary claim in front, wherein each resistance track is the form of concentric C shape ring.

9. heater as claimed in claim 8, wherein the end of each ring is interconnected in couples by each bridge, thereby forms a continuous circuit.

10. heater as claimed in claim 9, wherein the abutting end of adjacent ring is connect by bridging.

11. heater as claimed in claim 9, wherein alternately the opposite end of ring is connected together by described bridging.

12. as the described heater of the arbitrary claim in front, wherein said each track partly is the form of two nested spirals, is coupled together by a conducting bridge in the outer end.

13. as the described heater of the arbitrary claim in front, wherein at least one bridge is configured to walk around the barrier on the dielectric base.

14., wherein be provided with the one or more joints that are connected with resistance track at the center of heater as the described heater of the arbitrary claim in front.

15. as the described heater of the arbitrary claim in front, wherein a bridge is configured to connect plural track part.

16. as the described heater of the arbitrary claim in front, wherein each conducting bridge forms the ink strip of printing, printing ink comprises for example silver of a high proportion of conductive material.

17. a thick film heater comprises a pair of electric connection that is arranged on the heater center zone.

18. a thick film heater, have its more than 70%, best insulating regions more than 80% is heated track and covers.

19. electric heater, comprise that one is provided with the dielectric base of thick-film resistor heating track, wherein, resistance track comprises a plurality of adjacent track parts, the width of each the track part in the heater given area so is provided with, and makes that across adjacent track Temperature Distribution partly be constant basically.

20. electric heater, comprise that one is provided with the dielectric base of thick-film resistor heating track, wherein resistance track comprises a plurality of adjacent track part that is provided with predetermined configuration, towards the width of the track part at configuration edge less than width towards the track part at configuration center.

21. heater as claimed in claim 20, wherein heater comprises a series of concentric C shape tracks, and radially outermost end and inner terminal track are narrower than the track that radially more leans on the center.

22. a method that reduces the power density of a part of thick-film resistor heating track, wherein on described track part or below the conductive material part is set, thereby cover described track part partly.

23. an electric heater comprises that one is provided with the dielectric base of thick-film resistor heating track, wherein heat track a part top or below be provided with a plurality of conductive material parts that cover described track part partly.

24. as claim 22 or 23 described heater or methods, wherein a plurality of current-carrying parts are with the form setting of speckle, spot or short-term pattern.

25. as claim 22 or 23 described heater or methods, wherein conductive material comprises silver.