BE334312A - - Google Patents

Description

       

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  "Improvements to their heating systems
The present invention relates to cauffage systems, control mechanisms, and aax organs and devices contained therein and which cooperate to ensure complete and efficient operation.

   It is well known that homes in offices, factories and certain industrial facilities, such as heat treatment furnaces, steam boilers and the like, are heated by the combustion of liquid fuel. It is also well known that this heating, in most cases, is automatically zur controlled or regulated by the quantity of heat generated, the combustion da. combustible.

   Due to automatic operation. it becomes very advantageous to eliminate all danger of fire and other dangers and to prevent possible shutdowns of the appliance.

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   the same .



     One of the challenges of the present invention is to obtain an improved heating system which is fully automatic in operation and which provides protection against the dangers of fire, operational difficulties and dangers. so far existed in these systems.



     The object of the invention is also to obtain, in a heating system, an improved liquid fuel or oil burner of efficient operation, constructed so as to operate automatically under normal control determined in advance and to stop automatically. - only to operate when there are dangerous abnormal conditions in the boiler or fireplace, in the fuel supply in the burner itself or in other places in the heating system. The control mechanism also includes means for quickly reestablishing automatic operation after the burner has been shut down due to any abnormal condition.



   Another object of the invention has been to obtain an improved heating system and a control mechanism therefor * which include new numbers / features and which fully and satisfactorily meet all requirements. regulations in force.



   Other features and advantages of the invention will become more fully apparent from the following detailed description which relates to a loaned embodiment of an improved heating system having an efficient automatic control mechanism. ,%
In the attached drawings *:

   
Fig. 1 -is a schematic vae! dtenscmblo of a heating system, with the electronic control mechanism

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 for this and with the various elements of the heating system and of the control mechanism shown in schematic form
 EMI3.1
 Fig. 2 is a flue view of the fireplace, showing a control device placed in the flue.



  Fig * 3 is an elevation view of the safety switch device actuated by combustion conditions.
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  Fig 4 is a sectional view along the 1 igne 4-4 of Figure 3 ,,
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 La: fie. 5 is a sectional view along the. line z-5 of fig. 3.



  Fig. 6 is a sectional view taken along line 6-G of ig. 7t of a safety device controlling the fuel supply. and
Fig. 7 is a sectional view taken on line 7-7 of FIG. 6.



   Although the following detailed description relates more particularly to a single heating system and its control mechanism, it is of course. that we
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 can, without departing from the principle of the invention, make a large number of modifications. In addition, the heating system is such that different types of fireplaces' or
 EMI3.5
 Heaters and fuel burners can be used in this heating system if desired.

   In the example of embodiment shown 1 denotes a calori-
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 iron of the ordinary hot water or steam type, and 2 an oil burner, employed in combination therewith, in the usual manner. No cons-
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 particular traction 'of calorifier and burner since the heating system according to the invention is
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 considered suitable for use with any suitable fireplace or heater and burner *

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 EMI4.1
 The cha'u'zamo system comprises the fireplace 1, which in the example shown is the steam boiler used to heat a house, buildings, or. analogaes.

   If desired, the fireplace 1 small hearth
 EMI4.2
 that of a furnace for heat treatments or other industrial installation requiring heat. In this heating system, the burner 2 serves to burn a liquid fuel or a liquid hydrocarbon such as
 EMI4.3
 de lha3le, The system ensures automatic operation, and in the example shown, a dis-
 EMI4.4
 positive coming into action under the influence of the ohaleuri such as thermostat 3 or a pyrometer, which can be placed anywhere desired to regulate the temperature.
 EMI4.5
 amount of heat supplied.

   The system is provided with an automatic control mechanism, which comes into action under the effect of the normal movements of the thermostat and thus regulates, among other elements. normal operation
 EMI4.6
 of the "bralear 2. This control mechanism includes a safety device which prevents the operation of the system 10raqu.TU there are abnormal conditions which would lead to dangers, d.ire" ,, or. explosions or tract ions from the installation.



  In the description. cj, "after. the hallffage system its organs or devices and its control mechanism
 EMI4.7
 The following are described: 1'11113 particularly in their application to heating of the home. Although * in such a description. there are some parts of the. system
 EMI4.8
 which will be particularly adapted to such a system app.ica- tion1 it is of course ontendl1. that when the heating system is employed in particular industrial applications or for other purposes, certain changes may be made. the institutions where the pressure is applied, the example described and represented shows a

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 which certain components have adjustment devices or
 EMI5.1
 of oentrole can be used.

   Far example there is shown a control device placed in the firebox which, in the case considered, constitutes a safety device intended to prevent deterioration in the event of abnormal dangerous conditions in the home. when the heating system is used, for example, in a furnace for heat treatments in an industrial plant, such control may not be necessary. and in this case the device
 EMI5.2
 security check can be known;, ayarirné or be raised out of operation.

   De Ligmiet some of the safety devices or other devices may not be necessary in an industrial installation, and these devices may be placed so as to come into action for other particular operating conditions *.



   In this heating system, the burner 2 can be operated in any suitable manner and the
 EMI5.3
 control of the operation of the bradeur can be of any value the coming into action of the mill satisfactory. health as a result of the operation of thermostat 3 or other device actuated by variations in temperature and incorporating suitable safety devices, entering
 EMI5.4
 in action when abnormal operating conditions occur in the system
 EMI5.5
 The burner S in the present case is of the type providing air so as to form a combustible mixture with the oil or hydrocarbon for combustion.

   In the normal operation of this burner, oil is drawn into a nozzle by suction, for example by
 EMI5.6
 the passage dra3r on a 'determined opening in the fuel feed pipe. The fuel mixture can be ignited in any way (;, mvenablet by

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 example by a dlalluinaga candle. This burner is preferably actuated by an electric motor 4, which is usually mounted on the burner support base. It has been found that it is advantageous and satisfactory to control the operation of the. burner and the heating system -by an electric control mechanism ¯ suitable.
 EMI6.2
 



  The control mechanism comprises, among other organs or elements the device sensitive to temperature variations or thermostat 3, a safety switch 5 which comes into action if the influence of abnormal conditions in the fuel supply. , a safety switch 6 mounted in the heater and coming into action under the influence of various abnormal conditions for
 EMI6.3
 before appearing therein such as high pressure of the steam, a control device 7 placed in the flue which comes into action under the influence of the abnormal rise in the temperature of the gases escaping from the fireplace. through the flue. 8, and another safety device in the form of a switch
 EMI6.4
 U.

   of the type of shutter switch and which is actuated by reason of determined conditions of combustion of the combustible mixture. thermostat 3 is intended to control in normal time the operation of the burner to produce
 EMI6.5
 in C3 case intermittent combustion of that * "Ci # and the above mentioned safety devices serve to prevent normal operation of the burner in case there are abnormal conditions in the heating system.



   It is desirable to have, in the heating system, safety devices and control devices such as to prevent the existence of dangers of fire, explosion and dangers resulting from the opening of electrical circuits, which often gives rise

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 EMI7.1
 The production of long sparks between the switch tips when these are separated from the other. The safety devices mentioned above help to shut down the operation when there is an occurrence of such dangers, and the circuit going The burner control motor 4 is fitted with a switch 10, enclosed in a casing, which eliminates the dangers due to the.

   sparks burst at the point of the switch.



   Electrical energy to operate the engine
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 control of the burner and the electrical control mechanism is provided by the conductors llet 12 of the circuit
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 ordinary air conditioning, which is usually at a potential of 110 volts. A suitable switch is employed preferably in the form of a trip switch.
 EMI7.4
 suddenly 14, to connect the burner and its control mechanism to conductors 11 and 12, and to the appropriate distribution board z5 is mounted in a suitable location so that the burner can support the main terminals 16 and 17 * The motor 4 serving 8, operating the burner can be of any suitable type, but preferably an armature type motor will be used.
 EMI7.5
 short circuit,

   provided with an inductor 18 which is connected, the terminal 16 by the conductor 19 through the switch 10 enclosed in a housing, and by the conductor 20, while the other end of the inductor 18 is connected to the terminal 17 via the SI conductor When the in-
 EMI7.6
 After switch 10 has been closed, the motor will operate at the blower fan, which will supply air to the burner for mixing with the oil to form the combustible mixture.
 EMI7.7
 



  In the circuit élelctri'la6 of the spark plug, an conductor 22 goes from. conductor z, 0 to the primary transformer winding 24 and returns to terminal 17 via

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 the conductor 25. The spark plug is connected to the ground through the secondary transformer winding
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 26.

   The transformer or ignition coil is operated from a core. 27, on which is mounted a winding 28 which is connected by the conductor 29 to the contact 50, which is normally in engagement with the contact 31. This con-
 EMI8.2
 tact 31 is carried by its arm 32, arranged in a 4rt ({[/ oscil7.e, 11lzini'.uence magnetic. core 37 thereby causing a spark to burst between the poles of the spark plug
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 dt .llzunave, in the usual manner by opening the wedges 30 and 31. The arm 32 is connected by one condactear 34 to a tear conduc 35, which is normally closed against a contact 36 carried by the switch. 9.

   Contact 36 is connected to the other end of winding 28 through conductor 7. The preferred construction of connectors 35 and 36 is shown in FIG. 4, and the details of this construction will be described in full.
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 hereafter.

   It will be seen from the connections specified above that when the control switch 10
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 the motor controlling the burner is closed, the ulotour 4 will turn by activating the fan - supplying the air
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 for the Combustible mixture, and the primary spark plug will spark for the ignition of the combustible mixture. You may or may not continue to spout the spark during combustion.

   It is preferable, in this case, to stop the production of the spark during
 EMI8.7
 as long as there are good combustion conditions in the burner 2; consequently, the movement of the switch 9 separates the contacts 35 and 56, opening adnsi: the circuit ensuring the operation of the igniter.



   The control mechanism for this heating system is intended to be actuated in any desired manner which allows this control mechanism to come into action under

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 the influence of thermostat and safety devices and combustion conditions, so that in the event of abnormal conditions in the heating system, or.
 EMI9.1
 in the event of a shutdown in ltallurmage when the br81ea.r is turned on, where it stops in the ùombL1.s tion during operation, or. due to the exhaustion of the supply of 00robastible. drunk under natare conditions to give rise to explosive mixtures, the system and in particular the burner will cease to function, in
 EMI9.2
 at;

  thus overriding any danger to human life and any material danger, in particular for the devices of this heating system.



   It is preferable, in this control mechanism ,.
 EMI9.3
 to provide your suitable main control device, the action of which is modified as a result of changes in its electrical connections, and to provide other mechanically actuated devices, intended to cooperate with the control device main, for con-
 EMI9.4
 check the operation of 'bro.leo.r in normal operation due to movements of thermostat 3 or due to. operation of the various safety devices.
 EMI9.5
 In the, mml) considered there is provided an electromagnetic device which is part of the main control device.

   This electroagnetic device iCJ.L1.EI is characterized by its property of being able to be brought substantially into a state of magnetic equilibrium so as to prevent its revival, and of being able to be brought into a state of unbalancing. A device of this nature, in the form preferably employed, consists of a suitable control motor 38, usually du. repulsion type, of motor is provided with inductor winding 39, connected to terminals 16 and
 EMI9.6
 17 by conductors 40 and 41, respectively.

   This enrO # -

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 The inductor is closed on the supply circuit for the entire operating time of the
 EMI10.1
 chqa: C: ragei that is to say during all the time when the switch is in, sudden tripping it is in the closed position. This check motor is fitted with balances 42, 44 and 45 on its manifold. Preferably the brush 42 is connected to earth. Due to the characteristics
 EMI10.2
 ticks of motors of this type, when there is a circuit between the brushes: 2 and 44, there will be a rotation of the motor.

   The motor will therefore be considered to be magnetically unbalanced, when it has a closed circuit only between brushes 42 and 45, there will also be a rotational movement of the motor, and the motor will still be considered to be magne biqaoMont iioii-balanced. 8i1 on the contrary, there is a closed circuit through the brushes zou and I: b!:. and another closed circuit through the brushes 42 and 45, the motor is then substantially balanced at. magnetic point of view and its rotational movement ceases *
 EMI10.3
 : engine stoppage, when both circuits are closed, is due to. that the circuits each tend separately to cause the rotational movement of the motor in the opposite direction.
 EMI10.4
 



  With this repulsion-type control motor, it should be noted that the circuits which leave the brushes are voltage considerably lower than the 110 volts applied to the supply conductors 11 and
 EMI10.5
 12. As a result, the control part of the heating system circuit will be at low voltage. This voltage is usually about 10 yolts.
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  The motet \.) ;, of uontrôle 36 is clootinated h ontminor m- c: .1T1111lxelile3lû a distributor, 1: 6. and a suitable command tree is shown schematically in the drawing.

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 EMI11.1
 47. It is of course understood that any suitable transmission between the motor and the distributor can be employed so that a suitable speed of rotation of the distributor arm 48 can be obtained.

   Sure
 EMI11.2
 A suitable cam bzz is mounted on the shaft 47, which acts on the extension 51 of a swing arm 50, thereby causing the movement of the other extension 52 of that arm, which carries the control switch 10 of the rocker arm. burner control motor, this movement of the extension 52 opening oa closing the contacts in 1 * switch 10.



  It is common practice, in this type of switch
 EMI11.3
 enclosed in a housing i, dtitilises a certain 'quantity of mercury which seeps' so as to form the circuit between the two points of the switch.
 EMI11.4
 



  The distributor can be of any desired construction or shape, since as many as there are an appropriate number of contact segments, arranged so that a contact arm, actuated by the control motor.
 EMI11.5
 control, rub on these segments. In this construc :. tion, it is preferable that the contact segments are annular in shape and are mounted oonoentI'iqu.erJ1ent. so that the arm 48 pivoted on the bar 4 'can pass by rubbing on these segments during its movement as a result of the. control motor rotational movement.

   In this construction there is provided a segment 54 which extends for a length of about 320 of a circle. Concentric denying at. segment 54 is mounted at segment 55, which extends for a length of about 3000 of a circle. It is desirable that segment 54 be longer than segment 55 so that under normal conditions
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 males of operation of this system of c: hacze the arm 48 will come into contact only with the segment 54 when the burner 2 is stopped in a normal way. This position of. arm 48 is considered to be the position
1

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 to start the. heating system.

   It is understood that, although a difference in length of approximately 20 between the two segments 54 and
55, this difference may vary considerably, or that some means may be provided to move a contact 56, carried by the arm 48, away from the segment 55, while allowing a contact 57, carried by the arm 48, to come into engagement with the segment 54. This arrangement has mainly the effect that, in the normal stop condition of the burner, the contact 57 will come into engagement with the segment 54 and the contact 56 will be out of engagement with the segment 55 ,
This dispenser also has a segment 58 which can be conveniently placed to receive the dispenser arm 48.

   In the example shown, the segment
58 is placed between the ends of segment 54, so that the contact. 57 will keep in engagement with the contact
58 under certain operating conditions which will be described in detail below. This segment can be placed such that the contact 56 comes into engagement with it. However, it does not matter. that it is one or the other of the contacts 56 and 57 carried by the arm 48 which comes into engagement 1 with the segment 58, provided that an electric circuit can be established to produce the movement control motor rotation.

   This segment 58 is usually designated as: being a safety stop segment, and when the distributor arm 48 comes into engagement with this segment, this arm is considered to be in a safety stop position. When the arm 48 is thus in engagement with the segment 58, the. brxler has been discontinued due to the existence of certain abnormal conditions in the heating system.

   In such circumstances, it is desirable that one can

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 quickly return the control mechanism to its position.
 EMI13.1
 normal operation, according to the completion some additional operation; must be performed to achieve this result. This additional operation can be carried out by hand or can be carried out by an automatic or remote control device.

   (However, in the bat described it is expected a
 EMI13.2
 appropriate boatonpotissoir 59, which closes a circuit tra. towards the motor 38 and the distributor, producing the rotational movement of the motor, which brings the arm, 48 into
 EMI13.3
 its normal position of contact with the segment 54 alone ,, From the description given up to, it will be seen that there is a main control device for the burner, this device comprising the electromagnetic device
 EMI13.4
 intended to be brought into a balanced or non-magnetic state such as the control motor 58, or the distributor mechanism 36 comprising, the segments 54, 55 and 56, and the distributor arm 48, and the device main normal control,

   in the form of the thermostat 3.



   In the heating system, the fireplace used,
 EMI13.5
 as indicated above * can be a hotbed. diere. an oha ud air heater or. a household of another type will desire whatever. In the event that excessive heat is generated, the fireplace itself * absorbs only one
 EMI13.6
 certain quantity, and the <heat generated thereafter stéohal, - will pass for the greater part through the flue in 1 Atmosphere In heaters of the hot water or steam type, the heat generated will normally be ab-
 EMI13.7
 sorbed by the water, and if the water supply were to be exhausted, the heat would bring the calorifier to its degree of heat saturation,

   and the heat generated thereafter would pass into and through the flue.

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 that the sections of the boiler tend to crack
 EMI14.1
 and so, it deteriorated when the water was found to be too low, resulting in excessive repair costs. The described heating system prevents
 EMI14.2
 operation of the appliance when there are abnormal jumps in the hearth or. the calorifier.

   Normally, the heater will absorb heat, and hot water or steam will be entrained from the heater.
 EMI14.3
 # If something happens to prevent this conduc- tion of heat, there is an excessive production of steam in the boiler, and in this case the safety device 6 comes into action so as to open a circuit. - by the control motor and stop the burner, or. prevent the burner from starting.



   If the heat generated becomes excessive in the can-
 EMI14.4
 neal, the safety device 7, çu-3 can be of any suitable type, will come into action so as to open the circuit * In this case the fuse used will melt and insert
 EMI14.5
 #te rromprf1 the power line of Tâlxrz ° zntation. In the bat to obtain an indicator device intended to warn if this fuse is blown or not., It is provided an indicator lamp.
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 this or lau} l8 pilot 60, mounted in bypass on the eonduc f.t ../ turns 11 and 12.

   In order to ensure that the fuse 7 is blown, the trigger switch 14 was suddenly closed and, due to the passage of current, due to the fact that the driver 39 of the control motor was switched off. closed. the modeling light 60 will stallL1IlIlIlIlAt so indicate yae the fuse is not blown. If the indicator lamp 60 does not come on, it will
 EMI14.7
 dra; place a new fuse in the flue. Although a particular type of the. control device placed in the flue, it is understood that other satisfactory devices can be used
 EMI14.8
 to achieve the same result. There occurs. to note 'lV.C. when the security control device placed in the

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 flue. worked or. is founded.

   (when it comes to an
 EMI15.1
 fasible), the electrical supply circuits going to the control motor of the. Both the bradeur and the electric control motor will be open, so that subsequent operation of the br8leo.r itself or its control mechanism will be prevented.



   It is desirable to provide a safety device 6 for the control of the hearth or calorifier sounds such that this device comes into action for determined pressures of the. vapeart because when the heating system is installed in. homes, as mentioned above, and when thermostat 3 is placed in one of the rooms, we will see that in the morning * high pressures
 EMI15.2
 steam would be generated in the calorific boiler before the thermostat 3 comes into action so as to stop the operation of the fire.

   When the steam in the calorifier boiler reaches a pre-determined pressure, the safety device 6 acts in such a way.
 EMI15.3
 to open a circuit going to the control motor, thus causing the burner to stop functioning.



  This heating system includes an appropriate safety device, which comes into action under the influence of abnormal editions in the fuel supply, so as to. prevent the operation of the device from
 EMI15.4
 tionorsq, u.fi1 presents itself, of the dangers of fires and explosions. One can use for this purpose a device of
 EMI15.5
 any particular safety, however it has been observed that in the combustion type heating system
 EMI15.6
 oil, it is desirable to employ a safety device, which is actuated when the fuel level is reached.
 EMI15.7
 liquid deviates from an amount determined in advance from its normal.

   In the system shown, a contact 61 is provided, connected in series with the thermostat 3 and arranged so as to come into engagement with the thermostat.

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 an contact 62, to keep the circuit closed for normal fuel supply conditions. A float 64 is provided with a gasket, rod 65, which engages with an arm 66.

   Stops 67 and 68, placed on. this rod 65, allow predetermined displacements of the: float 64 without moving the arm 66, In the event that the fuel level drops below a predetermined point, the pan 67 engages with the brns 66 and the tensile force, directed downwards, which is exerted on the right end of the arm 66, opens the contacts 61 and 62, thus opening the control circuit and preventing the operation of the burner; or, if the burner is in operating condition, this traction force causes the burner to stop.

   In the event that the fuel level is too high, the pan 68 comes into engagement with the arm 66 and the thrust force, directed upwards, exerted on the arm 66, raises the latter, thus separating contacts 61 and 52, and creating the same safety operations as when the fuel is at too low a level.



   One of the main purposes of this safety device 5 consists in preventing the operation of the burner when the fuel level is so low that it does not allow the arrival of a sufficient quantity of oil, because it is properly sounded. . that when too small a quantity of oil is mixed with predetermined quantities of air, an explosive mixture results. The particular syrup device shown prevents operation of the burner under such conditions.

   On the contrary, when the level, of the oil is' too high) which would allow the oil to escape from its reservoir and to flow on the floor. it would be dangerous to start the burner the safety device 5 therefore prevents

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 placing the burner on the market under such conditions, or
 EMI17.1
 well, if the burner is (on, shut it down, thus overcoming the dangers of, 5.n.ce nd.e. This type of safety device is shown in schematic form on the diagram. Fig. 1, and the mechanical construction preferably employed for this device is shown in Figs. 6 and 7 and will be described more fully below.
 EMI17.2
 



  It also indicates that the thermostat 3 is used to regulate the main control mechanism under the normal operating conditions of the heating system. Different types of thermostats can be used for this purpose.
 EMI17.3
 One of the main difficulties with thermostats is rapid and irregular movement, or. beat, which occurs and thus prevents
 EMI17.4
 suitable. The thenioatat shown comprises a movable main contact part 69, which carries a member 7Qt subjected to magnetic influences, and an electrical contact part 71, Near the movable part 69 is arranged.
 EMI17.5
 a core 73 which is magnetized by the coil 74 interposed in the conductor 75. The other end of the coil is connected to the contact tip 76.

   In the operation of this thermostat, the movable part 69 moves to the left as a result of its expansion, allowing the contacts 71 and 76 to come into engagement, thus closing the circuit and thus creating a magnetic force in it.
 EMI17.6
 the core. 7S which, acting on the part 70, attracts the ith 69 and maintains it, in this position, which results in producing an engagement on the contacts 71 and
 EMI17.7
 76. This position will be ma.intenu.8 .jasq, until the thermostat comes into action due to the heat generated, so as to open the contacts. The thermostat shown should be considered as a two-point thermostat.



   The operation of this heating and

 <Desc / Clms Page number 18>

 
 EMI18.1
 The combustion device included therein is as follows, under normal conditions, when it is assumed that the safety device 5, controlling the supply of 0 # Jlbastible, and the safety device 6, controlling the state of the boiler are in their normal closing position.

   Distributor arm 48 is assumed to be in its normal position, in contact only with segment 54. Due to lack of heat the thermostat part 69 will move to close contacts 7. ; and 76, thus closing the circuit
 EMI18.2
 electrical control: from earth to b: case of distributor 48, to segment 54, to part 69 of the thermostat, via conductor 77, through coil 74 and conductor 75, switch contacts 61 and 62, the
 EMI18.3
 conductor 78 through relay 79, conductor 80 through safety device 6, conductor 81 to brush 4, through armature of control motor 38 and brush 42 to earth.

   A circuit is thus closed through the motor of, controls and causes the movement
 EMI18.4
 of rotation of it. As a result of the iaouveme4 (the rotation of the motor shaft 47 will be animated (one rotational movement, causing the switch 10 to close, due to the movement of the swing arm 50, and the distributor arm 48 sera driven mechanically so as to move by rubbing against the segments 54 and 55. As mentioned previously, the ignition box is put into operation as soon as the switch 10 turns on.
 EMI18.5
 closed.

   Contacts 35 and 36, in the spark plug circuit, will be closed by the following (-, because there is no combustion in the burner, The control engine
 EMI18.6
 38 continues to run normally until uor, 1pa8- tion takes place, unless there is no fuel; the motor will then stop when the arm 48 has reached

 <Desc / Clms Page number 19>

 
 EMI19.1
 the segment dïal, safety r4eht 58. The distributor arm can move lei from the moment it comes into contact simultaneously with the segments z1 and 55 up to the upright oi. it passes over segment 58. The languors of oaths 54 and 55 are such that the uoiiibustinn aura liea before, the distributor arm reaches the point where it leaves segments 5e and 55, a, unless there is a unusual difficulty.

   We will see that the distributing arm can stop in Him at any point in its path as a result of the fact that combustion takes place. As soon as the ignition
 EMI19.2
 mixture contas tible to ea liea, where as soon as combustion is started the resulting pressure produces the movement of the switch 9, overcoming the resistance due to an adjustable position counterweight 32.

   Due
 EMI19.3
 from this displacement of the switch 9, the contacts 35 and 36 connected to the spark plug are separated, and the contacts 84 and 85 of another circuit are brought into engagement. When the circuit * in which the thermostat is interposed, is closed through the brushes 42 and 44, thus producing the rotational movement of the control motear 38, the relay 79 attracts the rear arm upwards.
 EMI19.4
 ticalé 86t by opening contacts 87 and 88.

   There is then no closed circuit from segment 55 aa brush 45 du.
 EMI19.5
 control motor, and the motor will run and keep running through its closed circuit through the brushes
 EMI19.6
 42 and 44 * Relay 79 acts to separate contacts 87 and 88 before valve arm 48 comes into engagement with segment 55.
 EMI19.7
 By the closing of coatacts 84 and 85, due to the fact that the combustion has liea, a second circuit going to a rabou tear control is closed as' known:

   starting from the earth at contacts 85 and 84, through the shutter switch 9, the conductor 89. the conductor 90 has blai 45 on

 <Desc / Clms Page number 20>

 
 EMI20.1
 the check motor 38 j it is thus established in a second circuit through the check motor; due to the position of the brush 45 relative to the brushes 44 and 42, and
 EMI20.2
 due to windings of 1 ar induct and of the armature of this control motor, the circuit passing through brushes :: 42 and bzz tends to rotate 11 indlli t in Him is '18 while the circuit passing through brushes 42 and 45 tend to rotate the armature in the opposite direction.

   When these gentle circuits are closed, the motor is substantially
 EMI20.3
 in a magnetic balancing position, and it then stops rotating. The burner is then in operation so as to burn the combustible mixture and it will continue to operate under normal operating conditions.

   
 EMI20.4
 ment Until the thermostat 3 has Covers, thus separating the contacts 71 and 76 and opening the circuit
 EMI20.5
 by the brushes 2 and 14, Cover of the first circulated leaves the second circulated, passing by the brushes 4S and 45, without a predominant action, and the control motor is animated with a rotational movement in the opposite direction which moves the distributor arm 48 in the opposite direction of the
 EMI20.6
 clockwise, so as to return it to its normal position, in engagement with segment 54 only and ready to be able to start moving again.

   As a result of
 EMI20.7
 Opening the first circuit, the relay 79 has abandoned the arm 86, thus allowing the contacts 87 and 88 to come into engagement, thus creating a replacement half circuit for the second circuit, which produces the slack.
 EMI20.8
 counterclockwise rotation of the distributor arm bzz8 so as to bring it back to its normal position, since the first circuit
 EMI20.9
 by the segment 54 has been opened, and following the stopping of the caabus-tion, the switch 9 is moved by the counterweight 82 and is returned to its normal suspended position.

 <Desc / Clms Page number 21>

 pension.
 EMI21.1
 In the event of a shutdown or a lack of ignition of the burner at the start, the shutter 1nterrptear 9 does.

   would not be displaced, since there would not be a pressure resulting from combustion. Therefore, the pre-
 EMI21.2
 miter circuit passing through brushes 4Js and 44 of the control motor would continue to be closed and the motor would continue; to turn, by moving the distributor arm 48
 EMI21.3
 .until the safety stop segment 58, or all circuits going to the check motor would be open.



  At the same time, the control switch ac 10 of the motor operating the burner would be open and therefore
 EMI21.4
 all combustion appliance operations would be stopped. By pressing the push-button 59, we go through the circuit, from the earth by the brush '42 of the rao ... control tower, 1 t 1ndit 38 of the. control motor controls brush 44, conductor 94, push button 59, conductor 95, segment 58, and distributor arm 48 to the ground, thereby producing the rotational movement of the control motor, which brings the distribution arm
 EMI21.5
 scorer on segment 5 {:!:, thus returning the y appliance to its normal operating position, ie to its position in which the appliance is controlled by the Thermostat.
 EMI21.6
 



  In the event that the talll, 1L1age takes place at the beginning and, where it later occurs in stoppage or lack in combustion for any cause, the shutter switch 9, due to the counterweight 82, will return to its normal suspended position in which it separates the contacts 84 and 85, leaving the first circuit closed through the brushes 42 and 44; the control motor
 EMI21.7
 the 38 toarnatait therefore since the second circuit would be open, e, t the distributor arm 48 sec-
 EMI21.8
 would lead to safety stop segment 58, eHest-à #

 <Desc / Clms Page number 22>

 say in the safety stop position thus stopping the operations of the apparatus as described above.
 EMI22.1
 dement.

   It should be noted that the flap switch between lrilmrldi8tematnt in action under the influence of near sions due to combustion. It will be seen that, as the shutter-shutter switch comes into action under the influence of the conditions in which the eonbastion takes place, in the event that there is a stop in the combustion, there is immediately in the control a change
 EMI22.2
 This immediately led to the shutdown of the cou- bastion device.



  With reference to the other safety devices, it should be noted that it is preferable that the thermostat 3, the safety device 5 controlling the inlet in combination.
 EMI22.3
 bustible, to the safety device 6 checking the state of the boiler, are all connected in series in the
 EMI22.4
 first circuit passing through balnis 42 and 4.j, da. control engine, and that the second circuit includes the shutter switch 9, which comes into action under the influence of the conditions of combustion * and cille the breaking of these two eIirCllits causes the stop of the rotational movement of the motor. It should also be noted that if these two circuits are open, the motaur will not work.

   In addition,
 EMI22.5
 it should be noted that when the I1oteu.r is shut down due to the closure of; ces. two circuits, there may be a lack of motor balancing acted in
 EMI22.6
 one way or the other, 'that is to say that this lack of release will cause the motor to turn clockwise or counterclockwise. Lack of balance
 EMI22.7
 control engine may be affected by abnormal combustion conditions of the fuel supply or Zrc: firebox condition. 3n addition, the safety device 'plqUé in the flue can act in such a way as to stop everything

 <Desc / Clms Page number 23>

 operation of the heating system.

   Each of the different safety devices activates separately and acts separately to stop the apparatus. However, these various safety devices act through the control motor 38. But each safety device is independent of any other safety device and acts in such a way as to shut down automatically and independently of the other safety devices. operation of the combustion device. It will also be noted that the operation of any one of the safety devices modifies the electrical connections - in the control mechanism
Freezes them. 3, 4 and 5 represent a particular type of shutter switch.

   Part of the frame 95 of the burner 2 has an opening 96, in which is mounted a suitable plate 97, hinged at 98. This more 97 is constructed in such a way that it roughly masks the entire opening 96. This plate carries contact 35 of the.

   spark plug circuit. On a ring 99, fixed to the frame 95, is hingedly suspended an arm 100, which is provided with a projection 101 carrying a roller 102, which in turn normally comes into engagement with the plate 97. combustion takes place in the burner, the pressures generated by the combustion cause the -plate 97 to pivot around the hinge axis .98, so as to press this plate against the roller 102, thus forcing the arm 100 to swing to the left - (fig. 4). This arm 100 carries the counterweight 82, which can receive an adjustable position on the threaded rod 104, such that the movement of the plate 97 can be adjusted under the action of the pressure.

   The ring 99 carries a lme 105 of electrically conductive material, which is arranged so as to come into engagement with the contact 84 carried by the arm 100. The free end of the electrically conductive blade

 <Desc / Clms Page number 24>

 
 EMI24.1
 Actress 105 constitutes content 85. It will be seen that when combustion takes place, contacts 84 to and 85 will be dull and will produce closure of. second here went to the control motor, as mentioned above. The arm 100 is intended to carry at its lower end the
 EMI24.2
 contact 36.

   Contacts 35 and 36 are shown as being mounted in predetermined positions, but of course they can be mounted in any particular manner desired. There is however a certain advantage
 EMI24.3
 in their location such as reldrésatité, because when the support arm 100 and the plate 97 oscillate to return to their normal position, the contacts 35 and 36 will be
 EMI24.4
 ra-pprochés 1 from each other with a determined pressure since the support arm 100 and the plate 9'7 oscillate around dtaxcs dtarticula.tiom determined.

   Flexible electrical conductors are represented, connected to the various contacts with this type of construct: -
 EMI24.5
 shutter switch. These conductors can be altered as desired with regard to their shape and location. The preferred embodiment CI (, 'this switch, as shown and described, in-
 EMI24.6
 to be irrr2 ± dia.termnt in action under the influence of the combustion, from the beginning, of this one and from the stopping of this combustion.
 EMI24.7
 



  Figs. 6 and 7 show the preferred embodiment of the safety device controlling the fuel supply, the safety device is shown schematically on the burner 2 in FIG. 1; the frame 106 of the device constitutes a chamber intended to
 EMI24.8
 Receive the fuel in the form of oil at a normal level indicated by line 107. The fuel preferably enters the device. safety by end 108, passed through 1; valve 109 in the chamber formed in the frame 106 and exits therefrom through the pipe

 <Desc / Clms Page number 25>

 
110.

   A suitable float 111 and the usual device actuated by the change of position of the float 111 vary the location of the needle valve / 112 relative to its valve seat 109. The float 64 is shown to the left of the float 111 and is 'arranged to move according to the change in fuel level ,. This float 64 carries the shaft 114, which is guided at its lower end by a suitable guide 115 and which carries a plate 116 at its upper end. This plate is provided with a slot or slide 117 and arms 118 and 119. , which are arranged so as to come into engagement respectively with stops 68 and 67. Switch 5 is provided with contacts 61 and 62, and mercury in reservoir 120, closes and opens switch 5.

   This opening and closing of the switch takes place entirely inside the completely closed box of the switch, thus eliminating the dangers of fire without sparks.



   It should be noted that, when the level of the fuel rises, the arm 118 engages with the pan 68 and brings the switch 5 into its.! opening position. When the level of. The fuel descends, the float 64 descends, forcing the arm 119 to come into engagement with the pan 67, thus bringing the switch 5 to its open position. The construction of this particular type of safety device is simple and allows satisfactory normal operation, as well as preventing operation of the burner when there are abnormal fuel supply conditions.



  Caps or. pads 121 and 122 allow cleaning of the fuel supply chamber.



   From the foregoing description, it will be noted that the invention relates to an improved heating system,

 <Desc / Clms Page number 26>

 including the combustion apparatus, operates in a very efficient manner under normal conditions, and that there are safety devices provided, which. when there are abnormal conditions in the heating system, immediately cause changes that stop the operation of the. burner. It is understood that it is possible, without departing from the principle or the scope of the invention, to make a large number of appropriate modifications to the heating system and to its control mechanism and to its components. different devices and organs.


    

Claims (1)

R E V E N D I C A T I O N S. A heating system with a liquid fuel combustion apparatus provided with devices for supplying, igniting and burning the liquid fuel, characterized by a main control device, comprising an electro-mangetic device which, during normal fuel supply and combustion operations, remains substantially in a state of equilibrium so as to prevent the movement of the main control device, this electromagnetic device cooperating with safety devices, which come into play. action under the influence of abnormal conditions in the fuel supply or combustion, to bring this electromagnetic device into 'on, unbalance state and thus to move this electromagnetic device and stop the operation of the apparatus 2. An apparatus according to claim 11, characterized in that the fuel ignition conditions are regulated by a switch, arranged to be able to close a circuit passing through the main control device so as to bring the electromagnetic device. - tick in the balancing state when the fuel ignites in the burner, and by a second switch, say- <Desc / Clms Page number 27> installed so as to be actuated by a member controlled by the main control device so as to interrupt a circuit passing through this main control device EMI27.1 control and stop the operation of the device. 3. An apparatus according to claim 1, characterized in that the combustion conditions are controlled by a fuse, arranged so as to melt when the heat becomes excessive in the fireplace or the like. EMI27.2 heated by the burner, so as to thus stop the supply of current to the apparatus to stop celo.i-a'i, and by a switch, arranged so as to be opened by a ci? - strap, entering in action under 1T influences jice of the conditions of pressure prevailing in this hearth or .alo "ue, for inter .. cuts off the circuit passing through the main control device 4. An apparatus according to claim 1, characterized in that the supply conditions in EMI27.3 bustîbles are regulated by a float switch, cooperating admittedly. contact and arranged so as to maintain a control circuit of a gold word in the closed state as long as. there is sufficient fuel a.anity to keep this switch in a predetermined position, this switch being available *. seized so as to be taken out of engagement with this contact and to interrupt the control circuit of the motor passing by the main control device when the quantity of fuel is greater or less than EMI27.4 that necessary to maintain this interruptepur in this predetermined position, thus EMI27.5 anytime a suitable OOm9QBtibl mixture. 5. An apparatus according to any one of claims 1 to 4, characterized in that. the main control device includes or three-brush motor, <Desc / Clms Page number 28> EMI28.1 provided with a pair of windings connected at one end to the brushes and at the other ends, respectively to the other two brushes, these windings being opposite, so that when one or the other EMI28.2 enroolenent is energized Alone, it causes a rotational movement of the control motor in a corresponding direction, while when the two windings are energized simultaneously, the motor of the main device EMI28.3 The control core will be magnetically balanced and will not spin, with both windings energized, thereby affecting the fuel and combustion operations of the. , c cGi'ôustib.e s t9:. ^ eGtüeil 'normally, while qae when either of these operations becomes abnormal, the circuit passing through one. of these windings will be opened, thus turning the motor of the main control device in the corresponding direction, and in. causing the device to stop working. 6. An apparatus according to claims 2 and 5, characterized in that the closing of a thermos EMI28.4 tat, before switching on ""., the device will close the circuit through one of the windings of the. main motor control, thus producing the EMI28.5 new rotation of the latter and that if this main motor can rotate by a predetermined quantity, it will interrupt this circuit, and by the fact that one of the switches controlling the con- EMI28.6 ditions éL'allwûa ,, le, ballast arranges so that, as soon as ignition has been carried out, it closes the circuit going through the second winding of this main control motor, so as to balance the rotational torque due to the first winding and thus stop the rotational movement of this control motor, and <Desc / Clms Page number 29> to allow the apparatus to continue to operate * 7. An apparatus according to claim 5 or 6, characterized in that the main control motor is connected by a control transmission to a distributor, comprising conductive discs oa analogues, connected through the brushes of the main control motor, and provided with an arm for closing the circuit, toarnant above these disks and arranged so as to maintain the circuits, passing through the two windings of the main control motor in the closed state when combustion is carried out in the normal manner in the apparatus, this distributor comprising one of the switches controlling the ignition conditions, and the distributor arm being arranged so that in the event of a stop or a shutdown. missing in the ignition, it comes into contact with this switch and interrupts the circuit passing through one of the windings of the main control motor, so as to stop the operation of the device.