Oil filled electrical device

An oil-filled electrical device comprising a casing, an electrical device element in the casing and an insulating oil consisting essentially of one or more 2-diphenylalkylether having the structural formula of ##SPC1## Wherein R is the alkyl group expressed as C.sub.n H.sub.2n.sub.+1 wherein R is 1.ltoreq.n423.8.

BACKGROUND OF THE INVENTION

This invention relates to an oil-filled or oil-immersed electrical device.

Various types of electrical devices which are filled with insulating oil are widely used in, for example, power systems. Recently, with ever increasing demand for a greater and greater supply of electrical power, such electrical devices are becoming of greater and greater capacity and more and more capable of withstanding higher voltages.

One of the factors that determine the operating efficiency of such oil-filled or oil-immersed electrical devices is the characteristics of the oil that fills the device together with other component parts thereof. At present mineral oils and diphenyl chloride are most widely used for this purpose. However, mineral oils have lower dielectric constants and strength and also are less gas-absorbent so that they cannot provide sufficient properties required for high voltage and capacity types of such electrical devices and with such mineral oils it is difficult to make the device compact in size.

On the contray, diphenyl chloride has a higher dielectric constant and strength. However, it is so toxic to the human as well as animal life that in view of environmental pollution the use of this material is undesirable.

Accordingly, the primary object of the invention is to provide such electrical devices which have high operating efficiency.

Another object of the invention is to provide oil-filled or oil-immersed electrical devices having high operating efficiency which is achieved by the use of such insulating oils having good characteristics as such oils.

Still another object of the invention is to provide oil-immersed or oil-filled electrical devices employing insulating oils which are not toxic to life.

Still another object of the invention is to improve the characteristics of oil-filled electrical devices through utilization of those insulating oils which have greater dielectric constants and strengths and are more gas-absorbent than the mineral oils hitherto employed for the same purpose.

A further object of the invention is to provide such oil-filled electrical devices as aforesaid which are compact in size.

Additional object of the invention is provide an insulating oil for use in oil-filled or oil-immersed electrical devices, which has a higher dielectric constant and strength and is more gas-absorbent than the conventional mineral oils.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be described with reference to the accompanying drawings, wherein:

FIG. 1 is a front view, partly broken, of an oil-filled condenser constructed in accordance with the invention;

FIG. 2 is a perspective view of a partly broken element used in the condenser of FIG. 1; and

FIG. 3 is a front view, partly broken, of an oil-filled transformer constructed in accordance with the invention.

SUMMARY OF THE INVENTION

This invention is directed to oil-filled electrical devices comprising a casing, an electrical device element disposed in the casing and an insulating oil consisting essentially of one or more 2-diphenylalkylethers (ortho substituted compounds) wherein the alkyl group contains from 1 to 8 carbon atoms. These 2-diphenylalkylethers have the structural formula ##SPC2##

wherein R is the alkyl group expressed as C.sub.n H.sub.2n.sup.+1 wherein 1.ltoreq.n.ltoreq.8.

The 2-diphenylalkylether compound include any type of isomers i.e. normal chain, branched chain and primary, secondary and tertiary alkyls.

The oil-filled electrical devices of the invention employ the above compounds either singly or in mixture.

DETAILED DESCRIPTION OF THE INVENTION AND THE PREFERRED EMBODIMENTS

The characteristics of the compounds as compared with those of the conventional mineral oil are given in below TABLE I. In TABLE I through V, (A) to (M) indicate the insulating oils of the present invention with which the electrical apparatus of the invention may be filled, while (N) indicates an insulating oil to be compared with those of the present invention and (P) is the mineral oil used in the conventional oil-filled electrical apparatus.

In TABLE I, the visible gas generating voltage is the voltage level at which a piece of paper immersed with the oil on which an increasing voltage is impressed comes to produce gas immediately before dielectric breakdown occurs. Generally, the visible gas generating voltage may be considered as a measure of the dielectric breakdown voltage of the oil-immersed paper.

The formulae of the compounds employed and the mixing ratios of them are given below in (A) through (N):

A. 2-diphenylmethylether ##SPC3##

B. 2-diphenylethylether ##SPC4##

C. 2-diphenylnormalpropylether ##SPC5##

D. 2-diphenylnormalbutylether ##SPC6##

E. 2-diphenylnormalhexylether ##SPC7##

F. 2-diphenylisopropylether ##SPC8##

G. 2-diphenylisopentylether ##SPC9##

H. 2-diphenyltertiarybutylether ##SPC10##

I. 2-diphenyl-1, 1-dimethylbutylether ##SPC11##

J. mixture of 2-diphenylmethylether (A) and 2-diphenylethylether (B), the ratio of A to B being 30:70.

K. mixture of 2-diphenylethylether (B) and 2-diphenyl-1, 1-dimethylbutylether (I), the ratio of B to I being 70:30.

L. 2-diphenylnormaloctylether ##SPC12##

M. 2-diphenylisooctylether ##SPC13##

N. 2-diphenylnormalnonylether (to be used as a reference compound, with the alkyl group having 9 carbon atoms) ##SPC14##

                                      TABLE I
    __________________________________________________________________________
    Characteristics      Viscosity   Dielectric
    Insulating   Flash Point
                         at 30.degree.C
                               at 75.degree.C
                                     Constant
    Oil          (.degree.C)
                         (cst) (cst) at 80.degree.C
    __________________________________________________________________________
    (A) Single Compound
                 132      9.5  5.0   3.65
    (B)     "    134     10.5  5.5   3.50
    (C)     "    136     10.0  5.5   3.40
    (D)     "    137     11.0  6.5   3.20
    (E)     "    142     16.0  9.5   2.65
    (F)     "    136     10.5  5.0   3.45
    (G)     "    140     15.0  9.0   2.60
    (H)     "    138     11.0  7.0   2.75
    (I)     "    143     16.5  10.0  2.65
    (J) Mixture  133     10.0  5.5   3.56
    (K)   "      136     11.0  6.0   3.10
    (L) Single Compound
                 144     18.5  11.0  2.45
    (M)     "    144     18.0  11.5  2.60
    (N) Single Compound
                 148     24.0  15.5  2.32
    (P) Mineral Oil
                 132     12.0  7.0   2.26
    __________________________________________________________________________
    Character-      Volume Breakdown
                                  Visual Gas
    istics  Dielectric
                    Resistivity
                           Voltage at
                                  Producing
    Insulating
            Loss Tangent
                    at 80.degree.C
                           20.degree.C
                                  Voltage at 20.degree.C
    Oil     at 80.degree.C (%)
                    (.OMEGA.-cm)
                           (kV/2.5mm)
                                  (kV/mm)
    __________________________________________________________________________
    (A) Single
      Compound
            0.070   1.0.times.10.sup.14
                           74     68.5
    (B)    "
            0.047   3.5.times.10.sup.14
                           77     67.5
    (C)    "
            0.040   3.0.times.10.sup.14
                           78     67.0
    (D)    "
            0.040   3.0.times.10.sup.14
                           77     66.0
    (E)    "
            0.035   3.0.times.10.sup.14
                           80     62.5
    (F)    "
            0.040   2.5.times.10.sup.14
                           78     66.8
    (G)    "
            0.030   3.5.times.10.sup.14
                           78     64.5
    (H)    "
            0.030   3.0.times.10.sup.14
                           77     66.2
    (I)    "
            0.030   3.1.times.10.sup.14
                           80     62.0
    (J) Mixture
            0.051   2.5.times.10.sup.14
                           75     67.5
    (K)    "
            0.045   2.5.times.10.sup.14
                           76     64.0
    (L) Single
      Compound
            0.030   3.5.times.10.sup.14
                           79     56.0
    (M)    "
            0.030   3.0.times.10.sup.14
                           78     55.5
    (N) Single
      Compound
            0.025   4.0.times.10.sup.14
                           80     49.0
    (P) Mineral
      Oil   0.030   3.5.times.10.sup. 14
                           79     46.5
    __________________________________________________________________________

                                      TABLE II
    __________________________________________________________________________
    Character-              Insulating
    istics    Dielectric
                    Dielectric
                            Resistance
                                  Corona
    Insulating
              Constant
                    Less Tangent
                            at 20.degree.C
                                  Start Voltage
    Oil       at 20.degree.C
                    at 20.degree.C (%)
                            (.OMEGA./F)
                                  at 20.degree.C (kv/mm)
    __________________________________________________________________________
    (A)       4.37  0.31    10,000
                                  37
    (B)       4.26  0.25    20,000
                                  36
    (C)       4.18  0.23    18,000
                                  36
    (D)       4.05  0.23    18,000
                                  36
    (E)       3.67  0.21    18,000
                                  35
    (F)       4.22  0.23    17,000
                                  36
    (G)       3.63  0.20    20,000
                                  36
    (H)       3.73  0.20    18,000
                                  36
    (I)       3.67  0.20    19,000
                                  35
    (J)       4.30  0.26    17,000
                                  36
    (K)       3.98  0.24    17,000
                                  34
    (L)       3.53  0.20    20,000
                                  31
    (M)       3.63  0.20    18,000
                                  31
    (N)       3.43  0.19    22,000
                                  31
    (P)       3.40  0.20    20,000
                                  30
    __________________________________________________________________________
    Characteristics
                 Corona
                 Extinction
                           Long Time
    Insulating   Voltage at 20.degree.C
                           Withstand AC
    Oil          (kV/mm)   Voltage Ratio
                                    Volume Ratio
    __________________________________________________________________________
    (A)          13        128      48
    (B)          13        124      52
    (C)          14        124      53
    (D)          12        124      55
    (E)          14        120      64
    (F)          12        124      52
    (G)          10        124      61
    (H)          13        124      59
    (I)          11        120      64
    (J)          14        124      52
    (K)          12        120      59
    (L)           9        108      83
    (M)           9        106      83
    (N)           7        103      93
    (P)           6        100      100
    __________________________________________________________________________

			

			

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• Hydraulic circuit for a pipelayer

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• Light beam deflection system
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• Spiker blade
• Reel for a cable
• Physiological waveform detector
• Collapsible reel
• Convenience closure with safe edges
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TABLE III __________________________________________________________________________ Characteristics Insulating Corona Dielectric Dielectric Resistance Start Voltage Insulating Constant Loss Tangent at 20.degree.C at 20.degree.C Oil at 20.degree.C at 20.degree.C (%) (.OMEGA./F) (kV/mm) __________________________________________________________________________ (A) 2.82 0.06 38,000 81 (B) 2.64 0.05 43,000 80 (C) 2.63 0.05 42,000 80 (D) 2.60 0.05 42,000 79 (E) 2.52 0.05 42,000 76 (F) 2.63 0.05 41,000 80 (G) 2.52 0.05 43,000 78 (H) 2.54 0.05 42,000 79 (I) 2.52 0.05 42,000 75 (J) 2.65 0.05 41,000 80 (K) 2.59 0.05 41,000 77 (L) 2.50 0.05 43,000 68 (M) 2.52 0.05 42,000 66 (N) 2.48 0.05 44,000 63 (P) 2.46 0.05 43,000 61 __________________________________________________________________________ Characteristics Corona Long Time Extinction Withstand Insulating Voltage at AC Voltage Oil 20.degree.C (kV/mm) Ratio Volume Ratio __________________________________________________________________________ (A) 45 126 55 (B) 42 125 60 (C) 43 124 60 (D) 40 123 62 (E) 44 117 67 (F) 42 124 61 (G) 45 121 67 (H) 39 123 64 (I) 41 119 70 (J) 46 125 59 (K) 40 121 65 (L) 36 112 79 (M) 33 110 81 (N) 18 104 92 (P) 8 100 100 __________________________________________________________________________ First, the characteristics of the oil-filled condenser with insulating paper only used as the dielectric (which will be refered to as the Pa oil-filled condenser) will be considered. As is obvious from TABLE II, in the Pa oil-filled condenser with the compounds A - M of the present invention used as the insulating oil the dielectric constant is 4 to 28% higher, the corona start and extinction voltages are 3 to 23% and 50 to 230% higher, respectively, and long time withstand AC voltage is 6 to 28% higher than those of the Pa oil-filled condenser filled with the mineral oil N, and consequently the volume of size is reduced to 48 to 83% of that of the conventional mineral oil-filled condenser.

In the Pa oil-filled condenser filled with the compound N, that is 2-diphenylnormalnonylether, however, only the dielectric constant and the long time withstand AC voltage are a little higher than in the Pa oil-filled condenser filled with the conventional mineral oil. This means that the compound N is not so effective. This is because of the property of 2-diphenylnormalnonylether. It is well known that generally if armoatic compounds have too many carbon atoms of the alkyl group in the side chain (that is, the proportion of the aromatic component in one molecule is small), the electrical characteristics are deteriorated, and this may be the reason why the compound N is not so effective.

Next, the characteristics of the oil-filled condenser employing a combination of insulating paper and plastic film as the dielectric material (which will be referred to as the Pf oil-filled condenser) will be considered. As will be obvious from TABLE III, when the 2-diphenylalkylether compounds A - M of the present invention are employed in the Pf oil-filled condenser, the dielectric constant is 2 to 14% higher, the corona start and extinction voltages are 8 to 32% and 410 to 560% higher, respectively, and the long time withstand AC voltage is 10 to 26% higher than the Pf oil-filled condenser filled with the conventional mineral oil P, and consequently the volume or size is reduced to 55 to 80% of the conventional Pf mineral oil-filled condenser.

On the other hand, in the Pf oil-filled condenser filled with 2-diphenylnormalnonylether compound N the dielectric constant and the long time withstand AC voltage are a little higher than the Pf oil-filled condenser filled with the conventional mineral oil P. This means that the compound N is not very effective.

FIG. 3 shows an oil-filled transformer including an element 30 comprising a core 31 and a plurality of high and low voltage windings 32, 33 and 34 enclosed in a casing 35. Leads 36, 37 and 38 from the windings 32, 33 and 34 are connnected to terminals 42, 43 and 44, respectively, passing through bushings 39, 40, 41. Insulating oil 45 fills the interior space of the casing 35.

TABLE IV shows various characteristics of the transformer with some of the previously mentioned compounds used as the insulating oil. The transformer used for the test is a three-phase, 100kVA and 60 Hz outdoor type. In TABLE IV, the oil amount ratio, the weight ratio and the volume ratio are given for the transformers filled with the respective compounds, with those of the reference transformer filled with the mineral oil P being taken as 100.

                                      TABLE IV
    __________________________________________________________________________
    Characteristics
             Dielectric    Insulating
             Loss Tangent  Resistance
    Insulating
             (%)           (M.OMEGA.)    Oil Amount
    Oil      at 20.degree.C
                    at 80.degree.C
                           at 20.degree.C
                                  at 80.degree.C
                                         Ratio
    __________________________________________________________________________
    (B)      1.0    1.7    8.0.times.10.sup.4
                                  3.0.times.10.sup.3
                                         54
    (D)      0.9    1.6    7.5.times.10.sup.4
                                  3.5.times.10.sup.3
                                         55
    (G)      0.9    1.6    7.0.times.10.sup.4
                                  3.0.times.10.sup.3
                                         55
    (H)      0.8    1.7    7.0.times.10.sup.4
                                  3.5.times.10.sup.3
                                         55
    (N)      0.8    1.6    7.5.times.10.sup.4
                                  4.0.times.10.sup.3
                                         60
    (P)      1.0    2.0    4.5.times.10.sup.4
                                  2.0.times.10.sup.3
                                         100
    __________________________________________________________________________
    Characteristics
    Insulating
    Oil            Weight Ratio     Volume Ratio
    __________________________________________________________________________
    (B)            85               75
    (D)            86               76
    (G)            88               78
    (H)            89               78
    (N)            93               85
    (P)            100              100
    __________________________________________________________________________

                                      TABLE V
    __________________________________________________________________________
    Characteristics    Impulse
             Breakdown AC
                       Strength
                               Dielectric Loss
    Insulating
             Voltage at
                       at 20.degree.C
                               Tangent at 20.degree.C
    Oil      20.degree.C (kV/mm)
                       (kV/mm) (%)
    __________________________________________________________________________
    (A)      58.0      128     0.20
    (C)      57.0      125     0.21
    (E)      56.5      123     0.18
    (F)      55.0      116     0.19
    (N)      47.0      109     0.19
    (P)      46.0      105     0.22
    __________________________________________________________________________