US911687A - Hot-air syringe. - Google Patents

Hot-air syringe. Download PDF

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US911687A
US911687A US45103008A US1908451030A US911687A US 911687 A US911687 A US 911687A US 45103008 A US45103008 A US 45103008A US 1908451030 A US1908451030 A US 1908451030A US 911687 A US911687 A US 911687A
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lever
valve
spring
circuit
push button
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Hugo E Vogel
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H3/00Air heaters
    • F24H3/02Air heaters with forced circulation
    • F24H3/04Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element
    • F24H3/0405Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element using electric energy supply, e.g. the heating medium being a resistive element; Heating by direct contact, i.e. with resistive elements, electrodes and fins being bonded together without additional element in-between
    • F24H3/0423Air heaters with forced circulation the air being in direct contact with the heating medium, e.g. electric heating element using electric energy supply, e.g. the heating medium being a resistive element; Heating by direct contact, i.e. with resistive elements, electrodes and fins being bonded together without additional element in-between hand-held air guns

Definitions

  • the air duct is normally closed by a valve which opens against a yielding spring resistance.
  • the appliance is also provided with lever for opening the valve, a spring resistance between the valve and the lever, and a spring contact member arranged on the lever as a push button, the other contact member being fixed upon the lover.
  • the air passage is at one end portion of the appliance continued by a set of relatively small air passages extending axially through spirally formed heating coils and arranged to discharge into a duct in the nozzle end part of the device.
  • the operator When it is desired to use only cold air, the operator will move the lever forward to an extent to open the valve, and at the same time hold the push button so that the circuit will remain broken. l i hen desired, the portion containing the heating coils can be removed and an electric lamp bulb substituted therefor. In such case the operator can move the lever forward to an extent to establish the circuit but not to open the valve.
  • Figure 1 is a section centrally and lon itudinally through a hot air syringe embodying my inmetallic circuit with suitable Specification of Letters Pat-en Patented Feb. 9, 1909.
  • Fig. 2 is a section through Fig. 1 on line on a somewhat larger scale.
  • Fig. 3 illustrates the substitution of an electric lamp for the coil heater, the bulb being in elevation and portion of its connection with theinstruinent being in longitudinal central section.
  • he body portion A of my improved hot air syringe is matter of mechanical convenience, composed of several component parts or sections suitably fitted together, the structure a whole being provided with a central longitudinal bore or duct forming an air passage extending from end to end of the body and having its receiving end opening into the passage within a flexible supply pipe B.
  • his supply iipe is attached to one end of the said hollow body and is understood to be adapted for connection with some suitable source of supply of compressed air.
  • Portion 1 of the hollow body is provided with a valve C, which is normally held in position to close the duct or passage portion 2 through the hollow body by means of a spring D arranged within a casing 3 on the body portion 1.
  • 'lhe valve C may be 0 erated to permit a flow of air through the ollow body without establishing the circuit through the coils, when it is desired to use cold air only, and on the other hand, when it is desired to use hot air, the coils can be thrown in circuit.
  • the coils can be thrown in circuit without opening the valve, and in such case an electric lamp can be substituted for the coil heater.
  • E indicates a smal thumb or finger lever fulcrumed at one end upon the body portion 1 by a suitable hinge, which as shown, comprises a metal strap 6, secured upon the body portion 1 and insulated by a body 7 of suitable insulating material arranged between the metal strap and the body portion 1, the said strap being at its lower end bent to form an eye, which engages a pintle 8 on the thumb lever.
  • the pintle 8 is also engaged by an eye portion 9 of a metal plate 10, which is secured upon one side of the thumb lever.
  • the thumb lever is also provided with a spring follower F comprising a cap 11, arranged opposite the stem 12 valve C and receiving a spring 13, the said spring being seated within a recess 14 in the thumb lever and the cap 11 being arranged to work through an opening 15 in the plate 10, and to move back within the recess 14 when the thumb lever is swung forward to an extent to cause the cap portion of the spring tollower F to be forced against the valve stem.
  • the diameter of the opening 15 is greater than the greatest diameter of the cap 11 whereby the latter does not come in contact with plate 15, which as hereinafter more particularly described is utilized for a portion of the metal circuit.
  • the thumb lever is also provided with a circuit breaker comprising a push button G, arranged to work through a recess 16 in the thumb lever and an opening 17 in the plate 10, said push button being provided with a head 18, which is normally projected to some extent out from the recess 16 at one side of the thumb lever, said head 18 being provided with a stem 19, which extends through opening 17 in the plate 10.
  • the stem 19 of the push button is provided at its outer end with a contact portion 20, which is engaged by a spring 21, the free end of the spring being in engagement with the contact 20, while the opposite upper end of said spring is clamped upon the body portion ot the instrument by a screw 22.
  • the push button G is shown in its normal position and it is thus maintained by the spring 21.
  • the recess 16 in the lever is adapted to receive the head of the push button and is continued at one end by a smaller central opening for the push button stem 19.
  • the wires Hand I are shown arranged within the flexible tubing B, it being understood that said wires are in practice extended and connected with any suitable source of electric supply.
  • the wire H extends from the tube B upwardly within passage 23 of the section or body-portion 24 and at its upper terminal connects with a screw 25, which is suitably insulated by insulating material 7 and connects at its outer end with the metal plate 6.
  • the circuit extends along through plate 10, and when said plate is brought into engagement with the end contact portion 20 of the push button, the circuit will be continued through said contact portion 20, thence through the spring 21, and thence through the screw 22, which has a bore 26, extending back from one end portion and adapted to receive at one end portion a small rod 27, which serves to continue the metallic circuit.
  • the rod 27 connects with the heating coils and to such end the central bore 4 of the series of coil receiving bores is provided with one of said spring-shaped coils into which one end portion of the pin or rod 27 is iitted.
  • the bores 1 for these heating coil portions 5 are formed through a body K of insulating material, such as compressed paper, said body being preferably cylindric and fitted within a metal shell 28, which is at one end detachably screwed upon a threaded end of the body portion 29 of the instrument. It is understood that the coil portions 5 are connected at opposite ends of the body K in alternation, that is to say-the central coil portion connects at the outer end of the body K with one of the coil portions, while the latter connects with another coil portion at the rear end of said body K, the last one of said coil portions being connected with the metal casing 28 to continue the metal circuit.
  • the metal circuit is continued from the metal shell 28 to a bent metal plate 30, secured upon the periphery of a finger ring 31, which is in turn secured to the body as a means for permitting the operator to readily hold the instrument with one hand, one or more of his fingers being inserted throu h the annular linger piece 31, whereby he can manipulate the lever E with his thumb.
  • the metal circuit is continued from plate 30 through the metal body portion 1 ol the instrument, and thence to and through the wire 1, which is secured to the inner wall of passage portion 23 in the section or body portion 24 of the appliance.
  • the cylindric shell or casing 28 is provided at its outer end with a hollow detachable end piece 32, having a nipple externally threaded as at 3% and internally threaded as at 35, whereb certain dental tools can be screwed upon the thread 3 1. while others of different character can be screwed into the threaded portion 35.
  • passage portion 2 through the body of the instrument is closed by the valve and the circuit is broken by reason of the thumb lever F being swung away from the b portion to the limit of its outward throw, said thumb lever being normally maintained in such position by spring action, and said spring action being preferably obtained the expansion of spring D, which normally closes the valve and. causes the valve stem to project against spring follower F on the thumb lever.
  • the operator will press the lever E toward the body of eluding tube 28 is removed, the tube 28 is the instrument to an extent and open the valve C, and at the same time he will also use his thumb to press forward the push button G, which forces spi' like direction so as to prevent nietal p on the thumb lever lrorn contacting with the contact end portion 20 of the push lnitton, and as long therefore as the end portion 20 of the push button is thus prevented from ing electrical contact with plate 11 on the thumb lever, the circuit will remain broken and the supply of air discharged by the syringe will be cold.
  • Vl' hen it is desired to supply hot air, the operator will release t e push button and press the lever forward until it has opened the valve and brought its plate 10 into contact with end portion 20 of the push button G, it being observed that the spring 21 will normally n intain the push button in position to permit such coi t when the lever is thus swung for then the thumb lever is swung forwa it does not open the valve during the or initial portion of its rno -rein nt, for the reason that its spring follower F, which abuts against the valve stem 12, will yield until it reaches a limit where such yield will cease and. thereupon a continuation of the forward movement of the thurnb lever will force back the valve against its spring l).
  • rod 27 and tube 28 may be the ro 27 and tube 28 Fig. 1, in which case when the lam p is fitted on one end of the tube it will contact with both the tube and the rod.
  • tha normal sr is th before 1 d onipressivc action or yield on he or" the valve 'akes place. Also that the spring 1 thus coni- )ressed or forced back,
  • the heating coll portions are conveniently made like one lon coiled spring which is then bent as it is inserted back and forth through the bores 4, the coil being bent at the ends of the bores and drawn out so as to leave the wire connections 5 illustrated in Fig. 2.
  • I avoid the use of a rheostat and can use a current of at least one-hundi'ed-and-ten volts.
  • a hot syringe having a duct therethrough for the passage of air; electric heatin coil means or heating the air prior to its ischarge from the syringe; a normally closed s ring controlled valve for opening and closing the duct at a point back of th heating coil; a thumb or finger lever for opening the valve; an electric circuit breaker forming part of the coil circuit and comprising a spring push button support d upon the lever and having a contact portion connected with the circuit por tion on the body of the syringe, but normally held away from a contact incinber which is arranged upon the lever and connected with a circuit portion on the body of the syringe; the contact on the lever being brought into engagement with the contact on the push button when the lever is swung lo Ward and the push button is left in a free condition, while on other hand, the valve can be opened Without rnaliing the circuit by holding the push button in relative position to the lever to erevcnt the contact on the latter from engaging the contact
  • a suitable body having a duct extending therethrough for the passage or" air and attached at one end to a flexible air conducting tube; a heating coil device arranged for heating the air prior to its discharge from the syringe; conducting Wires arranged Within the flexible tube and suitably extended and lornnng a portion or ina the coil circuit; a spring controlled valve for opening and closing the duct at a point back of the heating coil device; a thumb or finger lever hung upon the body of the syringe and having a spring follower arranged against the valve stem and forming a yielding spring resistance; and a contact or electrical circuit breaker carried by the lever and applied for making and breaking the coil circuit.
  • a suitable body having a duct for the passage of air extending therethrough and constructed With a iortion 29 of insulating material; a screw fitted Within the body 29; a rod or pin 27 having one end fitted Within a bore with which the screw is provided; a body of in sulating material havin a central longitudinal bore and a series of longitudinal bores around the sam fire coil portions fitted Within said bores and a casing inclosing this perforated body of insulated material; the coils being connected and in circuit and one end portion of the rod or pin 27 being fitted tannin an end of the central coil.
  • a body having a duct for the passage of extending therethrough; an electric heating coil device for heating the air prior to its discharge from the syringe; a valve for opening and closing the duct; a thumb or finger lever for opening the valve; and a circuit breaker comprising a contact on the lever; a push button G, and a spring 21 connecting the push button With the met al circuit.

Description

H. E. VOGEL.
HOT AIR SYRINGE. APPLICATION FILED NOV. 8, 1906. RENEWED we. 31, 1908.
' Patented Feb. 9, 1909.
[WerzZaV-r mu do m Wm 5 w Z 5 J J UNITED STATES T HUGO E. VOGEL, OF CHICAGO, ILLINOIS.
HOT-AIR SYRING-E.
Application filed November 8, 1905, Serial No. 285;;32.
To all whom it may concern:
Be it known that I, HUGO E. VOGEL, a citizen of the United States, residing at Chicago, in the county of Cook and State of Illinois, have invented certain new and useful Improvements in l-Iot-rrir Syringes, of whi ll the following is a specification.
in a hot air syringe characterized by my invention the air duct is normally closed by a valve which opens against a yielding spring resistance. The appliance is also provided with lever for opening the valve, a spring resistance between the valve and the lever, and a spring contact member arranged on the lever as a push button, the other contact member being fixed upon the lover. The air passage is at one end portion of the appliance continued by a set of relatively small air passages extending axially through spirally formed heating coils and arranged to discharge into a duct in the nozzle end part of the device. These coils are connected and in incoming and outgoing wires, a-portion of such circuit being through a contact member arranged on the lever which is normally held by the spring valve in position to break the circuit, said lever being provided with a spring follower or cushion against which the valve impinges. hen it is desired to use hot air, the lever is pressed forward toward the body of the appliance and against the valve until a yielding but increasing spring resistance on the lever has become sufiicient positive resistance to overcome the resistance of the valve spring, whereupon further forw rd swing of the lever will open the valve. The forward swing of the lever will also bring the contact member fixed thereon into engagement with the contact member formed by the push button and thereby complete the circuit which includes the heating coils. When it is desired to use only cold air, the operator will move the lever forward to an extent to open the valve, and at the same time hold the push button so that the circuit will remain broken. l i hen desired, the portion containing the heating coils can be removed and an electric lamp bulb substituted therefor. In such case the operator can move the lever forward to an extent to establish the circuit but not to open the valve.
In the accompanying drawing: Figure 1, is a section centrally and lon itudinally through a hot air syringe embodying my inmetallic circuit with suitable Specification of Letters Pat-en Patented Feb. 9, 1909.
Renewed August 31, 1808. Serial No. 451,030.
vention, a portion only of the thumb lever being however shown in section. Fig. 2, is a section through Fig. 1 on line on a somewhat larger scale. Fig. 3 illustrates the substitution of an electric lamp for the coil heater, the bulb being in elevation and portion of its connection with theinstruinent being in longitudinal central section.
'l he body portion A of my improved hot air syringe is matter of mechanical convenience, composed of several component parts or sections suitably fitted together, the structure a whole being provided with a central longitudinal bore or duct forming an air passage extending from end to end of the body and having its receiving end opening into the passage within a flexible supply pipe B. 1 his supply iipe is attached to one end of the said hollow body and is understood to be adapted for connection with some suitable source of supply of compressed air. Portion 1 of the hollow body is provided with a valve C, which is normally held in position to close the duct or passage portion 2 through the hollow body by means of a spring D arranged within a casing 3 on the body portion 1.
'Ihe air passage through one end portion of the body is subdivided into a series of parallel, longitudinal bores 4, which contain heating or resistance coils 5 suitably connected and wound like spiral springs, whereby the coils which fit in the bores 4 provide passages having their walls formed by the spiral coils.
'lhe valve C may be 0 erated to permit a flow of air through the ollow body without establishing the circuit through the coils, when it is desired to use cold air only, and on the other hand, when it is desired to use hot air, the coils can be thrown in circuit. As a further feature, the coils can be thrown in circuit without opening the valve, and in such case an electric lamp can be substituted for the coil heater. The devices shown for carrying out these principles of operation are as follows: E indicates a smal thumb or finger lever fulcrumed at one end upon the body portion 1 by a suitable hinge, which as shown, comprises a metal strap 6, secured upon the body portion 1 and insulated by a body 7 of suitable insulating material arranged between the metal strap and the body portion 1, the said strap being at its lower end bent to form an eye, which engages a pintle 8 on the thumb lever. The pintle 8 is also engaged by an eye portion 9 of a metal plate 10, which is secured upon one side of the thumb lever. The thumb lever is also provided with a spring follower F comprising a cap 11, arranged opposite the stem 12 valve C and receiving a spring 13, the said spring being seated within a recess 14 in the thumb lever and the cap 11 being arranged to work through an opening 15 in the plate 10, and to move back within the recess 14 when the thumb lever is swung forward to an extent to cause the cap portion of the spring tollower F to be forced against the valve stem. It will also be observed that the diameter of the opening 15 is greater than the greatest diameter of the cap 11 whereby the latter does not come in contact with plate 15, which as hereinafter more particularly described is utilized for a portion of the metal circuit. The thumb lever is also provided with a circuit breaker comprising a push button G, arranged to work through a recess 16 in the thumb lever and an opening 17 in the plate 10, said push button being provided with a head 18, which is normally projected to some extent out from the recess 16 at one side of the thumb lever, said head 18 being provided with a stem 19, which extends through opening 17 in the plate 10. The stem 19 of the push button is provided at its outer end with a contact portion 20, which is engaged by a spring 21, the free end of the spring being in engagement with the contact 20, while the opposite upper end of said spring is clamped upon the body portion ot the instrument by a screw 22. The push button G is shown in its normal position and it is thus maintained by the spring 21. The recess 16 in the lever is adapted to receive the head of the push button and is continued at one end by a smaller central opening for the push button stem 19. As a way of forming the metallic circuit, the wires Hand I are shown arranged within the flexible tubing B, it being understood that said wires are in practice extended and connected with any suitable source of electric supply. The wire H extends from the tube B upwardly within passage 23 of the section or body-portion 24 and at its upper terminal connects with a screw 25, which is suitably insulated by insulating material 7 and connects at its outer end with the metal plate 6. From plate 6 the circuit extends along through plate 10, and when said plate is brought into engagement with the end contact portion 20 of the push button, the circuit will be continued through said contact portion 20, thence through the spring 21, and thence through the screw 22, which has a bore 26, extending back from one end portion and adapted to receive at one end portion a small rod 27, which serves to continue the metallic circuit. The rod 27 connects with the heating coils and to such end the central bore 4 of the series of coil receiving bores is provided with one of said spring-shaped coils into which one end portion of the pin or rod 27 is iitted. The bores 1 for these heating coil portions 5 are formed through a body K of insulating material, such as compressed paper, said body being preferably cylindric and fitted within a metal shell 28, which is at one end detachably screwed upon a threaded end of the body portion 29 of the instrument. It is understood that the coil portions 5 are connected at opposite ends of the body K in alternation, that is to say-the central coil portion connects at the outer end of the body K with one of the coil portions, while the latter connects with another coil portion at the rear end of said body K, the last one of said coil portions being connected with the metal casing 28 to continue the metal circuit.
As a convenient arrangement, the metal circuit is continued from the metal shell 28 to a bent metal plate 30, secured upon the periphery of a finger ring 31, which is in turn secured to the body as a means for permitting the operator to readily hold the instrument with one hand, one or more of his fingers being inserted throu h the annular linger piece 31, whereby he can manipulate the lever E with his thumb. The metal circuit is continued from plate 30 through the metal body portion 1 ol the instrument, and thence to and through the wire 1, which is secured to the inner wall of passage portion 23 in the section or body portion 24 of the appliance.
The cylindric shell or casing 28, is provided at its outer end with a hollow detachable end piece 32, having a nipple externally threaded as at 3% and internally threaded as at 35, whereb certain dental tools can be screwed upon the thread 3 1. while others of different character can be screwed into the threaded portion 35.
As dental tools are of various constructions, and as it is not new to secure a dental tool to one end of a heating device, 1 have not considered. it necessary to show such tools in Fig. 1, it being obvious that tools, tubes or the like can be used.
As illustrated in 1, passage portion 2 through the body of the instrument is closed by the valve and the circuit is broken by reason of the thumb lever F being swung away from the b portion to the limit of its outward throw, said thumb lever being normally maintained in such position by spring action, and said spring action being preferably obtained the expansion of spring D, which normally closes the valve and. causes the valve stem to project against spring follower F on the thumb lever. If it is now desired to use cold air only, the operator will press the lever E toward the body of eluding tube 28 is removed, the tube 28 is the instrument to an extent and open the valve C, and at the same time he will also use his thumb to press forward the push button G, which forces spi' like direction so as to prevent nietal p on the thumb lever lrorn contacting with the contact end portion 20 of the push lnitton, and as long therefore as the end portion 20 of the push button is thus prevented from ing electrical contact with plate 11 on the thumb lever, the circuit will remain broken and the supply of air discharged by the syringe will be cold. Vl' hen it is desired to supply hot air, the operator will release t e push button and press the lever forward until it has opened the valve and brought its plate 10 into contact with end portion 20 of the push button G, it being observed that the spring 21 will normally n intain the push button in position to permit such coi t when the lever is thus swung for then the thumb lever is swung forwa it does not open the valve during the or initial portion of its rno -rein nt, for the reason that its spring follower F, which abuts against the valve stem 12, will yield until it reaches a limit where such yield will cease and. thereupon a continuation of the forward movement of the thurnb lever will force back the valve against its spring l). When therefore the operator desires to use an electric 1c np in place of the shell 28 a coils therein, he will unscrew and remove the shell 28 with its contents and screw upon the threaded end 33 of the body portion 29 (which is made of insulating material) an electric lanip suitably adapted to make contact with the inner end of screw 22 and plate 30 on the ring 3 and when the lamp is thus applied, the operator can press the thumb lever E to an extent to bring its plate 10 into contact with end portion 20 or" the push button, and at the same time not open the valve. This substitution of an electric bulb lamp for the heating device is illustrated in Fig. 3 in which M indicates an ordinary electric bulb lamp which can be constructed for attachment to the body portion 29 of the instrument. In this figure a part of the body portion 29 of the instru nent is shown, a short ferrule 28 being screwed upon the end part 33 of the body portion 29, and the lamp socket being fitted in the opposite end of said ferrule 28 Connection between the lamp and screw 22 is made b a rod 27 on the lamp, and the inner end of tube 33 is und rstood to connect with plate 30 or nig. 1 when the tube 28 is screwed upon end 38 of the body portion 29. in 1 connection between tube 28 and plate 30 is made by a metal ring 33 a screwed on end 33 of the body portion 29, the inner end of tube 28 being in contact with ring 33 and the latter being in contact with plate 30. When the heater induct at point back of the l therefrom into the hollow to force back l fitted in place of the tube 28, or if desired rod 27 and tube 28 may be the ro 27 and tube 28 Fig. 1, in which case when the lam p is fitted on one end of the tube it will contact with both the tube and the rod.
From th i will be seen tha normal sr is th before 1 d onipressivc action or yield on he or" the valve 'akes place. Also that the spring 1 thus coni- )ressed or forced back,
priig resistance and that at a it becomes a resistance further loi\.tard movement on the part 0. the lever to overcome the resistance or" tl re valve spring and open the valves. When the lever is in no al S1t10r1 shown, the
push button is held out in the position illustrated by the spr. l non the lever 15 swung toward the body i the ti push button will be i spring 21 in the posit contact plat engage: rent with the per ion 20 of the push juncture, the forward n will not have opened H the yield or the By arranging the the air passing throng diately and SZLtlSiZLCtGEllV l 1 I ed end piece 32 upon wh ch any suitable nozzle or the like can be fitted. The heating coll portions are conveniently made like one lon coiled spring which is then bent as it is inserted back and forth through the bores 4, the coil being bent at the ends of the bores and drawn out so as to leave the wire connections 5 illustrated in Fig. 2. By thus multiplying the resistance coil portions, I avoid the use of a rheostat and can use a current of at least one-hundi'ed-and-ten volts.
What I claim as my invention is:
1. A hot air syringe hm'i duct therethrough for the passage of air; e ectric heating coil means for heating the prior to its discharge from the syringe; a spr i trolled va ve for openin and thumb or finger lever for openi an electric circuit breaker 1 ring part ol the coil circuit and operatec by said lever" and a spring resistance interposed between weaker direction for openilg tre valve; the circuit breaker being tinied in its action to close the circuit during the said initial movement of the lever and the valve spring being adapted to hold the valve closed until after th circult has been thus closed.
2. In a hot syringe having a duct therethrough for the passage of air; electric heatin coil means or heating the air prior to its ischarge from the syringe; a normally closed s ring controlled valve for opening and closing the duct at a point back of th heating coil; a thumb or finger lever for opening the valve; an electric circuit breaker forming part of the coil circuit and comprising a spring push button support d upon the lever and having a contact portion connected with the circuit por tion on the body of the syringe, but normally held away from a contact incinber which is arranged upon the lever and connected with a circuit portion on the body of the syringe; the contact on the lever being brought into engagement with the contact on the push button when the lever is swung lo Ward and the push button is left in a free condition, while on other hand, the valve can be opened Without rnaliing the circuit by holding the push button in relative position to the lever to erevcnt the contact on the latter from engaging the contact on the push button when the lever is swung forward direction to open the valve.
8. In a hotair syringe, a suitable body having a duct extending therethrough for the passage or" air and attached at one end to a flexible air conducting tube; a heating coil device arranged for heating the air prior to its discharge from the syringe; conducting Wires arranged Within the flexible tube and suitably extended and lornnng a portion or ina the coil circuit; a spring controlled valve for opening and closing the duct at a point back of the heating coil device; a thumb or finger lever hung upon the body of the syringe and having a spring follower arranged against the valve stem and forming a yielding spring resistance; and a contact or electrical circuit breaker carried by the lever and applied for making and breaking the coil circuit.
4. in a hot air syringe, a suitable body having a duct for the passage of air extending therethrough and constructed With a iortion 29 of insulating material; a screw fitted Within the body 29; a rod or pin 27 having one end fitted Within a bore with which the screw is provided; a body of in sulating material havin a central longitudinal bore and a series of longitudinal bores around the sam fire coil portions fitted Within said bores and a casing inclosing this perforated body of insulated material; the coils being connected and in circuit and one end portion of the rod or pin 27 being fitted tannin an end of the central coil.
5. in a hot air syringe, a body having a duct for the passage of extending therethrough; an electric heating coil device for heating the air prior to its discharge from the syringe; a valve for opening and closing the duct; a thumb or finger lever for opening the valve; and a circuit breaker comprising a contact on the lever; a push button G, and a spring 21 connecting the push button With the met al circuit.
HUGO E. VOGEL.
US45103008A 1908-08-31 1908-08-31 Hot-air syringe. Expired - Lifetime US911687A (en)

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