DE1403470C - Motor-driven screw compressor system with quick control device - Google Patents

Description

The advantages achieved with the invention are in

the essential to see on reaching any pressure set io is that pressure changes opens completely, so that the output from the compressor in the delivery line from the high-speed regulator Gas discharged into the open atmosphere is immediately taken up and used in the device can. The compressor then runs idle. can be worked. It is by arrangement In this embodiment of the device, intermediate positions of the valve are to amplify the pressure change form of leadership not possible. In the case of another delivery line, it is ensured that the management form (see. German Patent 724 497) is regulation even with slight pressure changes to the Arrangement made so that it speaks of the grain. The motor-driven screw compressor is always running Released gas or pressure medium with a compressor under full load, because it is not required predetermined pressure via a part of the opening of the very hood compressor system at this pressure Valve returned to the suction line 20 offered amount of gas directly into the atmosphere will. In this case, an elastic seal can be realized and derived. This is why light that prevents a quick response. ensures .that the screw according to the invention-Finally one knows so-called limit regulations of the compressor system for short-term fluctuations in demand Centrifugal fan !! (cf. literature reference »Kreisel blades adapt without further ado and especially ^ beige bläsc and centrifugal pumps «by Fried rich 25 almost instantly the full delivery quantity into the Kluge, Springer-Verlag, 1953, pages 210, 211), the delivery line can send without the also work relatively slowly, because the very hood compressor system is initially idling Measured variable from the suction line of the compressor te, must be switched to full load operation. relate. - ^ In the "following the invention is based on a

The invention is based on the object of explaining a motor-driven screw compressor showing only one embodiment in more detail with a drawing; it shows creating fast-acting delivery arrangements.
In this context, fast means that the
Regulation in fractions of a second, around 0.02

up to 0.1 seconds. In this short time ₃₅ Fig. 2 should be a plan view of the object after the motor-driven screw compressor with a Fig. 1,
Drive power of several 100 HP from full load
to part load or to idle load or vice versa
can be redirected. The arrangement should be made so that the engine load 40 of the object according to FIG. 2, also in a schematic representation that is approximately constant in all operating states.

remains. The illustrated embodiment of the invention

The invention relates to a motor-driven consists of two motor compressors, arranged on Very hood compressor system with fast control in front of a movable frame 1, e.g. B. on a jeep, 45 Every motor compressor contains a combustion compressor communicates and with a power driven. motor 2, coupled to a speed blow-off valve is provided. The invention consists of increasing gear ratio 3 by means of an autodarin, that the one outlet line to the atmosphere matic centrifugal clutch. The like., And one having blow-off valve as from the pressure in a screw compressor 4, driven through the VerKammer continuously adjustable valve is designed and 50 internal combustion engine via the gear ratio 3. that also a "pneumatic, pressure-sensitive pre-5 shows an air intake filter for the direction of combustion to amplify the pressure change in the motors 2 and 6 a blow-out silencer Lieferungsleitiing with the delivery line as well as which exhaust pipes 7 from the burners Chamber is connected. According to the preferred motor out 2 are connected. The form of combustion The aim of the invention is to use motors 2 with conventional speed drives Sehraubenkompressoranlage, in which the reglem 68, z. B. centrifugal regulators provided in Blow-out valve has a valve stem and a conventional manner for the desired speed Diaphragm, which can be set connected to the valve spindle. Each screw compressor 4 is a housing in which the membrane is provided with an air inlet filter and inlet septum forms and limits the chamber, a 60 muffler 8, and the compressed air from each Spring, which the valve spindle in one direction screw compressor 4 is through a pipe 9 over moved, a connection between the chamber and a check valve 10 to a pressure equalizer the delivery line for the supply of compressed air is supplied in 11, which also acts as a silencer the chamber, which counteracts the spring action, and then to a delivery line 12. Das acts, and an outlet line in connection with the 65 pipe 9 communicates with an adjustable safety cooler, the arrangement be made so that the unit valve 13, provided with a valve member 14, Device consisting of a lever, one on the lever which is loaded by means of a spring 15, whose connected valve member, a voltage applied to the lever by means of a screw bolt 16

F i g. 1 the side view of a motor-driven super-hood compressor system, mounted on a vehicle,

F i g. 3 shows a section through part of the object according to FIG. 2, in a schematic representation, F i g. 4 is a section through another part of the

3 4

can be provided. The safety valve 13 has one can therefore in such a case to another Outlet opening 17, through which the entire air pressure liquid source 'as to the supply line amount discharged from the screw compressor 4 will be connected. The device 56 includes a can. The tube 9 is also connected to a pivotable lever 57, which is attached to a pin 58 Relief line 18, which is supported by a valve 5, which in one direction through the bellows 55 organ 19 is provided, loaded by means of a spring 20 and pressed in the opposite direction and operated by means of a winding 21, which is operated at a spring 59, the tension of which by means of Excitation lifts the valve member 19 and that of a screw bolt 60 can be adjusted. Screw compressor 4 relieved. The relief The lever 57 carries a valve member 61, which with Line 18 is connected by means of a pipe 22> o a nozzle 62 cooperates, which has an outlet a muffler 23, which has 63 laßöifnung for both and with a hose 64 with Screw compressors 4 is common. 24 shows the chamber 51 in the purge valve 43 connected. a switch with which the current from a device 56 forms an amplifier to a Battery 25 to an electric starter motor 26 for small pressure changes in line 12 in one the internal combustion engines 2 can be closed. 15 large force impulse for the purpose of actuating valve 45 After the switch 24 is closed, the current must be converted.

circuit is closed by a relay 27, which has a The mode of operation of the above-described switch 28 with a certain time delay is as follows: When the hose 39 by means of makes. The switch 28 interrupts the power from the coupling 40 connected to the aircraft a battery 29 has been connected to the winding 21 of the valve member 20 and the operator receives a signal from flight 19, so that the valve member 19 receives tool through the spring 20 to supply compressed air, for. B. when starting is closed. the aircraft jet engines, then he presses the start-The check valve 10 contains a valve element button for the internal combustion engines 2 and closes 30, which is closed by gravity, while the switch 24. This is the "Ver and the check valve 10 is connected to the pressure 25 internal combustion engines 2 and the screw compression equalizers 11 run through an expansion coupling 31 ren 4, and connected by the screws. The check valve 10 prevents air supplied to compressors 4 from escaping first a screw compressor 4 as .Motor works when "" -by - the discharge line 18 and the sound only the other screw compressor 4 is operated. damper 23 to the atmosphere. After a certain The pressure equalizer 11 is central by means of a 30 time delay, the switch 28 is opened and Partition 32 divided into chambers 33 and 34; each the winding 21 demagnetized, so that the valve chamber is with one of the screw compressors 4 organ 19 closes and the screw compressors 4 connected and contains a number of plates 35 starting pressure in the delivery line 12 on various Length to build up a number of chambers. The valve discs 46, 47 are through the 36 of different lengths, which are closed to form a 35 spring 50, since there is no pressure in the chamber know pressure equalization and damping in the 51 is present. The aforementioned discharge delivery line 12 lead. The chambers 33 and line 18 is not always necessary. That blow out 34 are per se with the delivery line 12 through valve 43 is closed during starting Pipes 37 and 38 connected. The delivery line held due to the action of the spring 50. The 12 is through a hose 39 and a detachable 40 air which is pressed into the delivery line 12 Coupling 40 with the air inlet 41 of an aircraft is, in the embodiment shown as connected, the front part of which is indicated at 42. Working fluid used for the membrane 48 and The delivery line 12 continues to move the valve disks 46, 47 to more or more Blow-out valve 43 connected, which at both less open position. The air continues to work in the Screw compressors 4 is connected and 45 bellows 55 and is inclined, the valve member 61 against the which with an outlet line 44 and the sound effect of the spring 59 to close. During the damper 23 is connected. The blow-off valve 43 increases the pressure in the delivery line 12 if a pneumatically balanced valve member 45, the valve member 61 initially throttles the outlet with two valve disks 46 and 47 on opening 63 to a certain extent so that a common spindle connected to 50 less air from chamber 51 through the outlet membrane 48. This membrane 48 escaped in the upper part of opening 63 than through opening 65 of the blow-off valve 43, in which delivery is carried out, and at a predetermined pressure a chamber 49 connected to the atmosphere in the supply line 12 closes the valve member through an opening 67 and containing a spring 50, 61 the outlet opening 63, whereby a quick pineapple one side of the diaphragm 48 is formed and 55 rise in the air pressure in the chamber 51 unite second chamber 51 is caused by the opposite. The opening 65 is smaller than the out side of the membrane 48. The chamber 51 is outlet opening 63, so that when the opening 63 is completely bound by an opening 65 and a tube 52 with open, more air enteinem through the outlet opening 63 Tube 53 and the delivery line 12 from the soft than fed through the opening 65 Screw compressor 4. The chamber 51 and the 60 will. When compressed air is delivered to the aircraft Diaphragm 48 form a device for power and supply from the screw compressors 4 actuation of the valve member 45. A pipe 54 ver exceeds the air consumption of the aircraft, binds the pipe 53 and the delivery line 12 with the valve disks 46, 47 are partially opened, a bellows 55 of the device for increasing the pressure in the supply line 12 is then Pressure change in the supply line 12. However, 65 kept constant at a desired value, the it is also possible to cranderen the diaphragm 48 by adjusting the tension of the spring 59 Hydraulic fluid than the compressed air in which is sufficient. When the aircraft engines start To actuate delivery line 12, and the pipe 52 is the air inlet line 41 in the aircraft immediately

bar closed, and the pressure rises in the Delivery line 12, whereby the valve discs 46, 47 open very quickly. The total amount of air from the screw compressors 4 is then via the valve disks 46, 47 and the silencer 23 left out to the atmosphere. The operator then stops motors 2, 2 or lets them run idle until for further use.

When compressed air is desired for air conditioning or heating of the aircraft cabins, is it is usually sufficient to run the screw compressors 4 at reduced speed leave.

The twin compressor arrangement described above has the advantage that only a screw compressor 4 is used as an emergency device for starting purposes operated for a short time. can be used to remove all of the air necessary for starting a large jet engine is required to produce. However, for many moderate size jet engines, a single ao is used Motor compressor sufficient. The invention is therefore not limited to the use of double compressors, even if this arrangement is advantageous and an increased margin of safety • offers in the event that a machine in the motor-compressor unit should fail.

Claims (2)

Claims: \ 1. Motor-driven screw compressor system with quick control device, which can be used with communicates with a supply line from the compressor and with a power operated blow-off valve is provided, characterized that the blowout valve having an outlet line (44) to the atmosphere than from Pressure in a chamber (51) is designed continuously adjustable valve and that also a pneumatic, pressure sensitive device (56) for amplifying the pressure change in the supply line (12) is connected to the delivery line (12) and the chamber (51). 2. Motor-driven screw compressor system according to claim 1, wherein the blow-off valve has a valve spindle and a membrane which is connected to the valve spindle, a housing in which the membrane forms a partition and delimits the chamber, a spring that moves the valve stem in one direction, a connection between the Chamber and the supply line for supplying compressed air into the chamber, which is the spring action counteracts, and an outlet conduit in connection with the chamber, characterized in that the device (56) consists of a Lever (57), a valve member (61) connected to the lever (57), one to the Lever (57) connected bellows (55), which is in connection with the delivery line (12), and one also attached to the lever (57). closed adjustable spring (59), wherein the spring force of the spring (59) counteracts the pressure force in the bellows (55) and that for closing the valve element (61) serving the outlet opening (63) can be moved against the outlet opening (63) by the pressure force in the bellows (55). 1 sheet of drawings