US869208A - Electric ignition of explosives. - Google Patents
Electric ignition of explosives. Download PDFInfo
- Publication number
- US869208A US869208A US15202803A US1903152028A US869208A US 869208 A US869208 A US 869208A US 15202803 A US15202803 A US 15202803A US 1903152028 A US1903152028 A US 1903152028A US 869208 A US869208 A US 869208A
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- spark
- ignition
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- gap
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02P—IGNITION, OTHER THAN COMPRESSION IGNITION, FOR INTERNAL-COMBUSTION ENGINES; TESTING OF IGNITION TIMING IN COMPRESSION-IGNITION ENGINES
- F02P9/00—Electric spark ignition control, not otherwise provided for
- F02P9/002—Control of spark intensity, intensifying, lengthening, suppression
Definitions
- This invention relates to electric ignition for use in internal combustion engines, or for blasting or other similar purposes.
- electric ignition for use in internal combustion engines, or for blasting or other similar purposes.
- a charred oil deposit to take place on the plug, practically short circuiting the spark gap and preventing ignition.
- the object of the invention is to render the effectiveness of the spark employed for ignition purposes practically independent of the insulation of the points between which it is caused to occur.
- An advantage of our invention is that there is no need for specially insulating the wires leading to the secondary spark gap.
- the present invention therefore consists in means for causing the secondary spark to effect the ignition of a combustible mixture either in an internal combustion engine, or in an exploder such as is used in firing explosives, so that the ignition may be rendered certain and independent of the insulation of the sparking points, provided always that the primary spark gap is kept clean and properly insulated.
- z- Figure 1 shows one modification of our invention partly in diagram, applied to the sparking plug of a petrol motor
- Fig. 2 shows diagrammatically a similar arrangement but with one of the condensers in connection with the secondary circuit omitted;
- Fig. 3 shows also diagrammatically another arrangement of the connections, Fig.
- FIG. 4 shows a diagram of the connections necessary to produce secondary sparks in more than one cylinder, the secondary sparks being in series while, Fig. 5 shows a similar diagram but with the secondary sparks in parallel. 6 shows the primary coil excited by an alternator, while Fig. 7 shows how sufficient capacity may sometimes be secured by twisting together the secondary leads.
- the condensers m n are preferably small strong capacities of the Leyden jar type, employing glass, ebonite, micanite or similar substance as the dielectricelement.
- -A shunt across the gap indicated in the figure by the dotted liner is preferably provided in the sparking plug portion of the circuit to insure the charging of the condensers; this shunt should have either high resistanceor self induction or' both, in order to prevent its sharing too much in the sudden discharge.
- a positive charge for example
- a negative charge on the coat, m of the jar, m, as indicated in Fig. 1.
- Charges of opposite sign are simultaneously induced re spectively on the other coats of the jars, the function of the shunt, 1), being to allow the jars to charge. While the jars are charging the electrostatic stress across the gap, s, continually increases until the resistance of the air breaks down and the ordinary primary spark passes.
- the primary spark may be arranged in sight if desired and may be inclosed in sealed glass or gauze wire to prevent accidental explosions.
- a second modification shown diagrammatically in Fig. 2, we arrange the connections in just the same way as in Fig. 1, but we omit one of the condensers (say m); the action which takes place is-substantially the same as that already described, but the circuit is less symmetrical.
- This method of connection may be convenient when one of the wires, viz. o, is earthed or replaced by an earth connection, as e. g. the frame of the machine.
- Fig. 3 we show diagrammatically a somewhat different arrangement of parts.
- the primary circuit of the coil is connected up as above; but one of the secondary terminals l for instance, we connect to one terminal of the sparking plug r, the other secondary terminal k and the other sparking plug terminal we connect to the terminals of the sparking point s.
- a shunt shown again by a dotted line with any desired amount of self-induction, should connect the wires connected to r, the function of the shunt, v, in
- spark gaps may be arranged in series within the ignition chamber.
- the sparking plug, 1 should be insulated from the motor body It.
- a coil arranged so as to give a steady stream of primary sparks (as e g.byth'e use of a battery and a trembler) and to insertthemechanical makes and breaks in severalsecondary spark circuits energized from this coil so that any one of them may be opened at the required time and the spark produced in the required place.
- two such sparking gaps r r are shown in series each being short circuited by paths of small resistance and inductance having switches at x normally closed but opened by mechanically operated makes and breaks such as the cams, x so as to precipitate a secondary spark at the particular gap required.
- a batterycand tremblerzare shown by way of example for exciting the coil.
- the condenser 11 is either dispensed with orpreferably placed in series with the alternator and coil primary and is of carefully adjusted capacity.
- transformer or oscillation converter may be used, without departing from our invention, as well as any device having capacity.
- apparatus for firing a secondary spark gap disposed within the combustible mix- I a secondary spark gap disposed within the combustible ture, means connecting said sparkgap to the condensing mixture, a condenser in parallel with said spark gaps and means, and a connection normally keeping said sparking a connection in parallel with said secondary spark gap, as plug at the same potential, as and for the purposes deand for the purposesdescribed. scribed. In lwitness'whereot we have'hereunto set our hands in 2.
- apparatus for firing Presence ofiwo witnesses a combustible mixture, comprising in combination, a low OLIVER JOSEPH LODGE.
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- Engineering & Computer Science (AREA)
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- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Ignition Installations For Internal Combustion Engines (AREA)
Description
No. 869,208. PATENTED OCT. 22. 1907. 0. J. & A. M. LODGE.
ELECTRIC IGNITION 0F EXPLOSIV-ES.
APPLICATION FILED APB-.10, 1903.
4 SHEETS-SHEET 4.
UNITED STATES PATENT OFFICE.
OLIVER JOSEPH LODGE AND ALEXANDER MARSHALL LODGE, OF BIRMINGHAM, ENGLAND.
ELECTRIC IGNITION OF EXPLOSIVES.
Specification of Letters Patent.
Patented Oct. 22, 1907.
Application filed April 10, 1903- Serial No. 152.028.
To all whom it may concern:
Be it known that we, Sir OLIVER Josnrn Lonon, Knight, a subject of the King of Great Britain and heland, principal of the Universityof Birmingham, and ALEXANDER MARsHALL LODGE, engineer, a subject of the King of Great Britain and Ireland, both of Mariemont, Edgbaston, in the city of Birmingham, England, have invented certain new and useful Improvements Relating to the Electric Ignition of Explosives, (for which we have have made application for Letters Patent in Great Britain, No. 2,162, dated January 29, 1903,) of which the following is a specification.
This invention relates to electric ignition for use in internal combustion engines, or for blasting or other similar purposes. For example, in internal combustion engines with ordinary electric ignition, and especially in oil engines, it is common for a charred oil deposit to take place on the plug, practically short circuiting the spark gap and preventing ignition.
Now the object of the invention is to render the effectiveness of the spark employed for ignition purposes practically independent of the insulation of the points between which it is caused to occur.
It has been pointed out by the first named of the present applicants that when a condenser or condensers are charged from a high potential electric supply and the electrostatic strain thereby produced is suddenly released by a primary spark taking place in the circuit, an impulsive rush of current will take place from one coat of the condenser or condensers to another and if a secondary spark gap be provided between the coats of the condenser or condensers a secondary spark caused by the impulsive rush of current will take place at the secondary spark gap. It has further been noted that such secondary sparks have the peculiar property that they are notmaterially affected by the defects in the insulation of the spark gap. The gap may even be short circuited by a loop of conducting material, without stopping the spark, on account of the self induction of the loop. I
An advantage of our invention is that there is no need for specially insulating the wires leading to the secondary spark gap.
The present invention therefore consists in means for causing the secondary spark to effect the ignition of a combustible mixture either in an internal combustion engine, or in an exploder such as is used in firing explosives, so that the ignition may be rendered certain and independent of the insulation of the sparking points, provided always that the primary spark gap is kept clean and properly insulated.
It will be seen that the essentials of our system of spark ignition consist in a circuit which includes two spark gaps and one or more condensers, and in some cases an inductance, the whole forming an oscillating system, whose period depends jointly upon its total electrostatic capacity and its total self induction.
We are aware that insome previous systems of ignition two spark gaps have been employed, one inside the ignition chamber and one outside, but this has been done with a view to guarding against the short circuiting of the actual ignition spark gap by charred particles or the like preventing the tension in the wire reaching its maximum value; and some benefit has been thereby derived. Our invention, however, involves the special employment of a condenser or preferably a pair of con densers ozLeyden jars in the circuit, in addition, so as I to cause the precipitation of a secondary spark (having the peculiar properties mentioned above) immediately on the passing of the primary spark.
Referring to the accompanying drawings z-Figure 1 shows one modification of our invention partly in diagram, applied to the sparking plug of a petrol motor;
Fig. 2 shows diagrammatically a similar arrangement but with one of the condensers in connection with the secondary circuit omitted; Fig. 3 shows also diagrammatically another arrangement of the connections, Fig.
4 shows a diagram of the connections necessary to produce secondary sparks in more than one cylinder, the secondary sparks being in series while, Fig. 5 shows a similar diagram but with the secondary sparks in parallel. 6 shows the primary coil excited by an alternator, while Fig. 7 shows how sufficient capacity may sometimes be secured by twisting together the secondary leads.
The same reference letters are used throughout the drawings to denote similar parts.
According to the modification of our invention which we prefer as the best arrangement, shown in Fig. l, we use an ordinary induction coil having primary windings a, and secondary windings b. In the primary circuit wearrange a battery or other current source 0, and switch (1. We also arrange a mechanical break 2 suitably geared to the shaft f of the motor h. We
' preferably insert a condenser 11 in the primary, as a shunt across the point of make and break in the manner well understood. 7
Each of the secondary terminals k, l, we connect to one element m 11 of the separate condensers m, n,
respectively, the other elements m, n, being con nected by the leads 0 p to the terminals of the sparking plug r. The secondary terminals are likewise connected direct to the sparking point 8, as shown. The condensers m n are preferably small strong capacities of the Leyden jar type, employing glass, ebonite, micanite or similar substance as the dielectricelement.
-A shunt across the gap indicated in the figure by the dotted liner is preferably provided in the sparking plug portion of the circuit to insure the charging of the condensers; this shunt should have either high resistanceor self induction or' both, in order to prevent its sharing too much in the sudden discharge.
Considering, now, the action of the apparatus described above, every time a current is induced in the secondary circuit of the induction coil, a positive charge (for example) accumulates on the coat, m, of the Leyden jar, n, and a negative charge on the coat, m of the jar, m, as indicated in Fig. 1. Charges of opposite sign are simultaneously induced re spectively on the other coats of the jars, the function of the shunt, 1), being to allow the jars to charge. While the jars are charging the electrostatic stress across the gap, s, continually increases until the resistance of the air breaks down and the ordinary primary spark passes. Meanwhile, however, it is to be noted that there has been, no such growth of stress across'the secondary gap, 1', the difference of potential between the terminals of this gap remaining at zero. On the passing of the primary spark, the jars are discharged and the charges acl cumulated on the coats, m n,, are set free and surge impulsively along the wires, 0, p. The shunt, 1), however, which was sufiiciently conductive to allow of the comparatively slow charging of the jars, offers a high resistance to the passage of the surging rush of electricity set free on the passing of the primary spark and induces the current to take the alternative path offered by way of the gap, r, thus giving rise to the secondary spark required.
The primary spark may be arranged in sight if desired and may be inclosed in sealed glass or gauze wire to prevent accidental explosions.
According to a second modification, shown diagrammatically in Fig. 2, we arrange the connections in just the same way as in Fig. 1, but we omit one of the condensers (say m); the action which takes place is-substantially the same as that already described, but the circuit is less symmetrical. This method of connection may be convenient when one of the wires, viz. o, is earthed or replaced by an earth connection, as e. g. the frame of the machine.
,In Fig. 3 we show diagrammatically a somewhat different arrangement of parts. The primary circuit of the coil is connected up as above; but one of the secondary terminals l for instance, we connect to one terminal of the sparking plug r, the other secondary terminal k and the other sparking plug terminal we connect to the terminals of the sparking point s. We also arrange the condenser it, between the secondary terminals of the coil, as shown in the figure; but instead of the spark gaps being connected in parallel through one or two condensers as in Figs. 1 and 2 we connect them in series and place the condenser in parallel with them both.
- A shunt shown again by a dotted line with any desired amount of self-induction, should connect the wires connected to r, the function of the shunt, v, in
as above.
spark caused by the impulsive electric rush from one coat of a condenser or'pair of condensers suddenly excited across a gap of initially uniform potential by the sudden release of electrostatic strain which had previously existed across another spark gap in connection with the condenser.
For large gas engines or other purposes where it is thought desirable to fire the explosive mixture at more than one point several spark gaps may be arranged in series within the ignition chamber.
With the connections arranged as shown in Figs. 1, 2 and 3, the sparking plug, 1, should be insulated from the motor body It.
When there are a number of cylinders to be fired at different times we prefer to use a coil arranged so as to give a steady stream of primary sparks (as e g.byth'e use of a battery and a trembler) and to insertthemechanical makes and breaks in severalsecondary spark circuits energized from this coil so that any one of them may be opened at the required time and the spark produced in the required place. In Fig. 4, two such sparking gaps r r are shown in series each being short circuited by paths of small resistance and inductance having switches at x normally closed but opened by mechanically operated makes and breaks such as the cams, x so as to precipitate a secondary spark at the particular gap required. A batterycand tremblerzare shown by way of example for exciting the coil.
In Fig. 5 the secondary spark gaps are shown in parallel instead of series with other reference letters In this case each circuit acts as a shunt to the other one but this will not prevent the passing of secondary sparks especially if inductances L are inserted in the circuits.
We may also (see Fig. 6) use a magneto 2, having terminals, 3 geared to the motor and generating an alternating current preferably by means of revolving magnets, so as to avoid sliding contacts, and arrange an automatic make 4 in the circuit, so that the primary of the coil may be excited at the required instant. In this case the condenser 11 is either dispensed with orpreferably placed in series with the alternator and coil primary and is of carefully adjusted capacity.
We also wish it to be understood that we may use any arrangement of partshaving a capacity instead of an actual condenser, as shown in the drawings. Thus, for instance, in some cases the capacity secured by twisting together the secondary leads (as shown inFig. 7) is sufiicient for the purposes of 'our. invention, while in other cases we may rely on the so-called Leyden jar action between the secondary and primary windings of an induction coil.
It will further be obvious that any form of transformer or oscillation converter may be used, without departing from our invention, as well as any device having capacity.
Having now described our invention, what we claim as new and desire to secure by Letters Patent is:
1. In a system of spark ignition, apparatus for firing a secondary spark gap disposed within the combustible mix- I a secondary spark gap disposed within the combustible ture, means connecting said sparkgap to the condensing mixture, a condenser in parallel with said spark gaps and means, and a connection normally keeping said sparking a connection in parallel with said secondary spark gap, as plug at the same potential, as and for the purposes deand for the purposesdescribed. scribed. In lwitness'whereot we have'hereunto set our hands in 2. In a system of -spark ignition, apparatus for firing Presence ofiwo witnessesa combustible mixture, comprising in combination, a low OLIVER JOSEPH LODGE.
tension circuit, a source of current in said circuit, and! ALEXANDER MARSHALL LODGE. terrupter in-said circuit, a high tension circuit inductively arranged with relation to said 10w tension circuit, a spark gap in said high tension circuit, a sparking plug forming Witnesses p HUME 'CHANCELLQB PINSENT, FRANCIS MARTIN ToiuKINsoN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US15202803A US869208A (en) | 1903-04-10 | 1903-04-10 | Electric ignition of explosives. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US15202803A US869208A (en) | 1903-04-10 | 1903-04-10 | Electric ignition of explosives. |
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Publication Number | Publication Date |
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US869208A true US869208A (en) | 1907-10-22 |
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US15202803A Expired - Lifetime US869208A (en) | 1903-04-10 | 1903-04-10 | Electric ignition of explosives. |
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1903
- 1903-04-10 US US15202803A patent/US869208A/en not_active Expired - Lifetime
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