DE2149544A1 - DEVICE FOR THE MEASURED DISTRIBUTION OF MEDIA, IN PARTICULAR FOR MEANS USED AS STARTING AID TO COMBUSTION MACHINES - Google Patents

Description

"Device for the measured delivery of media, especially as a start-up aid Serving means on internal combustion engines "The invention relates in the broadest sense a device for distributing a predetermined amount of a medium when the device is operated in a certain way. The device according to the invention can be within a be used in a wide range, for example when introducing a predetermined Amount of a medium in a container, e.g. when adding a certain amount of pigment into a colored pebble, when ejecting a measured amount of lubricating oil, if a body that can be moved back and forth is predetermined in its movement Point reached, etc. In the present case, the application of the device concerns that Injecting a certain amount of starting agent into the intake manifold an internal combustion engine.

The difficulty of starting an internal combustion engine during cold weather are known. The problem particularly affects these engines and High-performance gasoline engines, which are designed for relatively high speed are for use in sports cars. The winter operation of internal combustion engines consequently brings a variety of difficulties with it, one of the essential Problems starting the engine. In many cases starting is made easier, if you put a very flat starter medium, such as ether, into the suction line or inlet manifold of the engine.

The starting means referred to as starting aids are inserted into the internal combustion engine introduced by removing the air filter from the vcreaser iiiid a small amount of the structural agent drips into the carburetor. Certain special devices can also be used be used to spray cilie amount of starting agent into the suction line. Pouring the starting agent directly into the carburetor has many disadvantages. So it is difficult to see the air filter in freezing temperatures and it is difficult to enter the starting agent in a precisely measured amount. L5 there is also a risk of explosion if ether is poured openly without adequate ventilation will. The devices previously available for spraying the starting agent into the suction line are not suitable for precisely measuring quantities of the starting agent. Also give they off the starting means as long as they are actuated.

The device according to the invention differs from what is known devices to be considered insofar as a single measured charge of the starting agent it is then given whoever is operating the device. So it will be upon confirmation of the device only a single amount or charge delivered. The amount of starting agent released always remains constant, regardless on the pressure inside the storage tank and independent of the temperature. the The amount to be dispensed can be determined by a simple adjustment to the respective To meet the requirements of the application.

The distribution device according to the invention for dispensing measured quantities of a medium has a pressurized reservoir in which the resource to be distributed is located. Within a delll that is used for measuring quantities chamber, a piston is elastically stretched and guided movably. The chamber is up in connection with the storage tank via a normally open valve.

Actuating means are provided and normally close the @ open valve between accumulator and chamber and open a normally closed one Valve to discharge the agent inside the chamber through a suitable outlet to be able to.

The invention is based on exemplary embodiments with reference Explained on the accompanying drawings.

Fi @. i of the drawings is a schematic representation of the for Sizing serving distribution device according to the invention using a Fuel tmas chine; Fig. 2 is a vertical sectional view of the invention Distribution device showing the connection also shown in section with the suction line; Fig. 3 is an enlarged sectional view of the valve part or control block of the distributor device, showing the valves i their normal position; FIG. 4 is a sectional view comparable to FIG. 3 showing the valves in their actuation position; Fig. 5 is a vertical one 3 and 4 placed sectional view of line 5-5 in Fig. 3 with representation the valves in their normal position; FIG. 6 is a view comparable to FIG. 5 from line 6-6 in Fig. 4 showing the valves in their actuated position; 7 is a fragmentary, exploded, sectional view of the lower end of the container and FIG the upper part of the control block; and Fig. 8 is a partially sectioned side view another embodiment of a container.

In Figure 1 of the drawings, numeral 10 is the distribution device shown for the measured distribution of a medium according to the invention. The distribution device is attached to a fireproof wall ii, which on a motor vehicle the engine separates from the passenger compartment. The outlet of the distribution device 10 is via a Line 12 and via suitable means described below with the intake manifold 13 a (iii eht shown) Brelmkraftmaschine in connection. In the case of the in Fig. The embodiment illustrated in the drawings is the distribution device 10 electrically operated, and it is connected to a suitable terminal of the start relay 14 for the engine in conjunction. In a normal internal combustion engine there is a clamp the battery 15 is attached to the frame of the vehicle, while the other terminal is on an ignition lock 16 is connected to the start relay 14. The iLelais controls the starting current for the starter. The actuation device 17 of the distribution device 10 is connected to a terminal of the start relay 14, so that the actuating device is only energized when the Aiilasser is energized. If you want that eiii additional switch 18 in the electrical circuit between start relay 14 and Be-actuating device 17 are arranged so that the actuating device can be switched off if necessary.

The distribution device consists of three main parts, one Container 20, from a block 21 serving for dimensioning and S-control and from the Actuator 17.

These bodies and their components are enlarged in FIG. 2 of the drawings shown. It can be seen that the container consists of a pressure vessel or a There is a tank 22 which contains the medium 23 to be measured. The medium is from Container dispensed via a valve 24 located on the underside.

The container lies on top of the block used to control it 21 and is held at this by suitable means. The actuating means 17 are provided on the underside of the block. In the present embodiment of the invention, the actuating means 17 comprise a solenoid 25 with a through a Spring 27 upwardly tensioned, movable armature 26. When the solenoid winding is excited, the armature is moved down against the tension of the spring. Usually is the container 22 removable from the control block 21, while the actuating means 17 remain fixed on the underside of the block. As can be seen in FIGS. 1 and 2 the block can be attached to the refractory wall by means of a strut 28 Other suitable means of support can also be used.

As mentioned, the container 22 receives the medium 23 under pressure and is equipped with a valve 24, usually soft in pneumatic hoses is working. In valves of this type, the elli valve head 9 is seated on a 1 valve seat 96 and prevents medium from escaping from the container. A nib 97 prints the valve body against the seat, the pressure of the medium in the container helps to press the valve head onto its seat. A valve stem 30 extends from the valve head. Welul pushed inward on the valve stem is, as a result, the valve head is lifted from the valve seat 96, so that the medium can leak from inside the container or tank. Using a such valve 24 allows the container 22 to be separated from the remaining Parts of the distribution device 10 to fill and transport. If the stuffed Container is placed on top of the control block 21, the valve opened to allow the medium to escape.

The container 22 is opened by suitable means. Control block 21 held, for example by a clamping band vlx which is attached to one from the bottom of the container extending flange 32 is applied. The clamping band is preferably with equipped with a toggle clamp (not shown) of known type. How yourself results from Fig. 2 of the drawings, the edges of the clamping band are more advantageous- way angled so that the container is pressed firmly against the top of the block. Seals, in the form of an O-ring seal 33, create a seal between them the container and the block and prevent the escape of medium.

The top of the control block 21 and the bottom of the container 22 are designed to be complementary to one another, with a transverse opening or bore 34 at the top of the block receives the valve 24 of the container. A certain Sealing, so O-rings 35, unevenly the valve housing 36 and prevent it from falling below Pressurized medium in the space between the valve housing and the outer O-ring 33 exits.

3 and 4 of the drawings show that on the lower side of the the valve housing 5G receiving bore 34 a wall 37 is provided. Within An opening 38 is let into this wall in the middle. Above that wall and in Connection with the bore is a channel 40, which is used for dimensioning serving chamber 41 leads. The chamber 41 is expediently designed as a bore, which extends from the outside of the block in the direction of the bore 34. Inside the bore elli piston 42 is displaceable, which for the purpose of sealing is equipped with an O-directional ring 43.

A stopper 44 is releasably held and closed at the outer end of the bore a spring 43 which extends from the plug to the piston 42 to this in the direction to press the bore 34 inwards. The plug 44 acts as a stop for the Piston 42 and can be of a predetermined length. jJI in the same way can ali stoppers a plurality of circumferentially extending grooves 46 may be provided. These grooves 40 form sections having reduced thickness, to which the stopper can be cut or broken off to change the length. In this way the distance of the piston can be set for different conditions.

As described below, the medium 2j emerges from the container 22 via the valve 24 into the bore 34 and passes through the channel 40 into the chamber 41. The medium pushes the piston 42 outward, as shown in FIG. 3. if the actuating means 17 are used, then the valve 24 is closed and then a dispensing valve 30 is opened. The spring 4) pushes the piston 42 inwardly to the medium 23 through the channel 40, into the bore 34 and out of the In the wall 37 located opening 38 to get. From the opening 38 is the medium discharged through the delivery means.

As mentioned above, the actuating means comprise a solenoid 25 i; iit a core or armature 26, which is pressed upwards by a spring 27 will. At the upper end of the armature 26 is a plunger 51, which with the help a retaining ring 52 is attached to the anchor. Located at the top do of the plunger the pin »3. The actuating means 17 and the plunger 51 are concentric held to the bore 34 and extend into a valve bore 54, which in the essentially the same size as the opening 38 in the wall 37 and concentric is arranged to this. The plunger 51 extends normally to the wall 37, the pin 53 on the plunger extending through the opening 38 and on the valve stem 30 of the valve 24 is applied. The pin pushes the valve stem inwards and opens the valve to the medium 23 from the container 22 into the bore 34 and from to get into the chamber 41 there.

Sealing means surround the plunger 31 such as upper and lower O-rings @ 5 and @ 6 to allow fluid to be expelled from bore 34 along the plunger prevent.

Between the upper O-ring 55 and the lower O-ring 56 is a spindle body 60 separating the sealing rings, of which Openings 61 lead into a draining channel. The spindle body 60 is with a upper flange 62 on the upper O-sealing ring @@, while it is connected to a lower Flange 63 rests against the lower O-sealing ring 56. A web 64 separates the two Flanges and forms an annular space 65 between them.

One or more openings 61 extend between the interior of the spindle body 60 and the annular space 65. An opening located in the control block 21 66 is in alignment with the annulus. The opening 66 used for drainage is provided the connection with a channel 67. According to Fig. 2 of the drawings, a suitable Connecting body 68 are introduced into the Ianal serving for drainage, uni establish the connection with the discharge channel or the pipe 12 on the distributor device.

When the actuating means 17 are triggered, the plunger @ 1 and the pin 53 moves down. In this way, valve 24 is first closed on the container 20, after which the openings 61 in the spindle body 60 are exposed to connect the interior of the spindle to the annular space 65. Within the Chamber 41 located medium, located under pressure by the spring-loaded piston 42, moves out of the chamber, through the opening 38 of the wall 37, into the interior of the Spindle body 60, outward through the openings 61 and through the iting space 65 and passes through the draining I-channel 66 into the delivery means (FIG. 4). In the In a particular embodiment of the invention shown, the medium has as above mentioned the form of ether to which a lubricant is added so that a volatile fuel is formed along with top lube oil. When the ignition switch 16 is turned, the starting device becomes 23 into the intake manifold 13 at the time when the starter begins to turn the crankshaft. The engine usually starts within to run a turn or two. Regardless of how long it takes to turn the The ignition lock will only put a measured amount of starting fluid into the intake manifold entered. It is thus avoided that too large a quantity of a volatile and explosive starting agent collects in the cylinders.

Due to the special arrangement of the described and illustrated Embodiment of the invention follows the opening and closing of the valves of a predetermined time sequence.

If the actuating means 17 are triggered, then first of all Valve 24 between container 22 and the expandable chamber is closed. Afterward the valve formed by the plunger @ 1 and the openings 61 is opened. If the actuating means 17 are de-energized or switched off, then first the valve 50 is closed, after which the valve 24 provided for the inlet is opened will. In any case, the two valve members 90 work together that one closes before opening the other. So there is a real possibility of one direct flow from the container 22 into the guide ring 12 used for delivery.

Although not essential for the operation of the device, Fig. Figure 2 of the drawings shows one embodiment of a connection to the inlet manifold 13 of the engine. One of the bolts 70 holds the carburetor 71 to the Inlet manifold and is designed as a carbon pin, which receives the line or the 12. By this line brings the starting medium from the distributor device into the inlet manifold. Cabbage sticks of this type are well known and are usually used as standard equipment used on motor vehicles.

The illustrated tank or container 20 corresponds to an embodiment which is filled and pressurized in the factory. Container of this type are not used to be refilled by the user. This represents the normal shape of a tank or container of this particular type of use, which is why Containers of this type are used by the average motorist. If that If the device is installed by professionals in industrial companies, then it can be rechargeable Embodiment of a container can be used. Such a container is in Figure 8 of the drawings.

As can be seen from Figure 8 of the drawings, the is rechargeable Tank @ 0 designed as a container 81, which is the valve described above has comparable valve 24. The container is attached to the control block by suitable means 21 held. The upper end of the container 81 is provided with a sleeve 82 which extends downward a predetermined distance to a head space 83 for pressurized gas to form. The sleeve 82 is loosened on the container, welded or otherwise attached and has a cantilever cross at the lower end or a central body 84 which is equipped with a pin 85 in its center is. On the inside of the sleeve there is a screw thread 86 which is in a corresponding thread of a closure body 87 engages.

The closure body 87 can thus fit tightly within the sleeve be tightened. A loading cartridge 88, such as those normally used for inflating various Objects used is located within the closure body 87. The seal at the end of the cartridge can be pierced by the pin 85 when the breechblock is sufficiently screwed into the sleeve 82.

A pressure gauge 90 gives the indication of the amount of inside of the medium located in the container. When the medium inside the container is used up is, then of course the pressure is reduced accordingly and can be done on the display device are shown.

When using the embodiment of the device according to FIG. 8 of the drawings the closure body 87 is first removed, after which the container down to the bottom the sleeve 82 is filled with the appropriate medium. There is air inside the headspace 83 is included above the bottom of the sleeve 82, the attempt leads to the Fill the container up to above the sleeve, so that the medium is within the Sleeve rises faster than inside the container itself. In this way, can the appropriate amount of liquid or medium can be determined visually. The closure body 87 with the new print cartridge 88 can then be inserted into the sleeve and rotated until the pin penetrates the seal of the cartridge.

As a result, the container is pressurized. When the container is empty, it can be easily recharged.

Because it uses a chamber of a predetermined volumetric capacity is used to measure the amount of medium to be dispensed, the amount of when actuated by the actuating means ejected medium always constant, regardless of the pressure inside the container. Also is the crowd regardless of the time during which the actuating means are energized and ultimately independent of the temperature of the medium. Because the weight and so the moment of inertia of the moving parts is kept to a minimum the device work very quickly when required and delivers each time it is actuated a full charge.

Although the device is under reference for jump starters or starting means in the case of internal combustion engines, it can of course also be used for delivery measured amounts of lubricating oil, leading to the release of volatile media into the air Pipe and used for many other purposes when a measured amount of a certain medium is to be released when a device is operated accordingly. the Actuating means of the form described have been an electrically operated solenoid shown. It is obvious that the solenoid is just one form of device to generate a driving force represents t and that also others, e.g. 0 mechanical Acting drives for plungers can be used.

Claims (6)

PATENT CLAIMS: 1. Device for the measured delivery of media, characterized in that that the medium (23) is held under pressure within a reservoir (20, 21), that the device dispensing means (66) and a valve housing (36) with therein located Channel (34) are assigned, the first end of the channel to the supply of the medium (23) is connected, while the second end of the channel with the delivery means (66) is connected to the fact that a first valve (24) can be optionally actuated, to open the connection of the first channel end with the supply of the medium or In order to close this connection, a second valve (@ 0) can optionally be activated is to open the second end of the channel (34) towards the delivery means (66) or to conclude that between the first and second valve (24, 50) an elastic expandable chamber (41) connected to the channel and actuatable to a predetermined Amount of medium to take up when the first valve is open, uiid by the predetermined Volume of the medium to be released again when the second valve (50) sicii in open Position, and that valve actuation means (17) are selectively effective, to close the first valve and then to open the second valve or to close the second valve and then to open the first valve, whereby the valves are opened in a sequence and never opened at the same time are. 2. Apparatus according to claim 1, characterized in that within the expandable chamber a piston (42) is displaceable uiid elastic in the direction the end of the chamber connected to the channel is pressed, and the lifting gear (44) the movement of the piston and thus the volume of the discharged from the chamber Limit the medium. 3. Apparatus according to claim 2, characterized in that the piston is elastically tensioned by spring means (4 @) that the pressure of the medium (23) from the memory is sufficient to overcome the tension of the spring and to keep it in from Shift the end of the chamber away from the direction and that the tension of the spring enough to push the plunger towards the end of the chamber so that the inside Mcdiuuj located from the dispensing means wi rd. 4. Apparatus according to claim 3, characterized in that the feed of the medium is provided with a container (22) in which the medium is stored Pressure is found that the valve housing has supports to hold the container in Sealing against these take up, and that the valves by the actuating means be pressurized so that the first valve is normally open to the Medium from the container to fill the expandable chamber against the tension to release the spring. @. Device according to claim 1, characterized in that the actuating means have a plunger connected to the second valve, which on the first Valve is applied. 6. Apparatus according to claim 1 using a having a starter Internal combustion engine, characterized in that the medium by a starting means is formed for the engine, and that actuating means to the starter of the internal combustion engine are connected, which trigger the valve actuation means only when the starter is energized.