DE3525672A1 - Device for monitoring the air pressure in a pneumatic tyre - Google Patents

Abstract

The device has two chambers (24, 34) which are sealed off from one another by means of a valve (44). The valve (44) is connected to a valve (56) via a plunger (38) which in the normal state closes off a channel (62) at whose outer end (66) a vent hole (68) is arranged. The device is screwed onto a valve (16) of a pneumatic tyre so that the air pressure prevailing in the tyre can be built up in the chamber (24) and in the chamber (34). After the pressure in the chamber (24) and the pressure in the chamber (34) have been matched to the air pressure of the tyre, the valve body (44) is seated on its valve seat so that the chamber (34) is sealed off with respect to the chamber (24). In the event of a defect in the tyre, the air pressure in the tyre drops and thus in the chamber (24), as a result of which a diaphragm (42) which is connected to the valve body (44) is deformed which simultaneously brings about a displacement of a plunger (38) which lifts off the valve body (44) so that a connection of the channel (62) to the chamber (24) is produced. In this state, air can flow outwards out of the tyre into the chamber (24) and the chamber (62) so that the vent hole (68) is activated. A cap (70) is fitted over the outer end (66) of the channel (62), which cap is forced off when air flows outwards through the channel (62). The vent hole (68) can produce sounds in the ultrasonic range so that monitoring displays can be excited in the passenger compartment of the vehicle by way of suitable transformation means ... Original abstract incomplete. <IMAGE>

Description

The invention relates to a device for monitoring the air pressure in a pneumatic tire, with a connector for screwing onto a tire valve or onto one with a Tire valve connected line.

Devices for monitoring the pressure in a pneumatic vehicle tire exhibit because of the high cost of vehicle tires as well as the great dangers posed by defective vehicle tires of great importance. There are so-called tire guard known that have a sensor report the "flat tire" of a tire. The sensor will follow the large deformation of the tire. Such Sensors are in exposed positions on the motor vehicle attached so that it is damaged by moisture and exposed to stone chips. Beyond that these sensors are coupled with electrical devices, which is another source of their failure because due to corrosion, for example, plug connections quickly become ineffective.

DE-OS 25 20 777 is a device for monitoring of pressure in one or more under the same Pressurized pneumatic vehicle tires are known, the tire through a line to the pressure chamber of a control unit connected, which is a cylinder and one movable in this Piston has. There is a in the cylinder accordion-like, axially movable tube, on the one hand with the piston and on the other hand with the cylinder end is connected airtight. The inner the tube is free of pressure so that the piston is frictionless is movable, which makes it a control element even at the slightest Pressure changes due to its axial movement triggers a signal. The signal is there via one of a battery-powered transmitter is delivered to a receiver, to excite a warning lamp in the passenger compartment, if there is a pressure drop in a tire. Disadvantageous is there that the pressure of the piston depends on what is to be monitored Tire air pressure needs to be adjusted  so that either a variety of such facilities Stock must be kept or a previous setting the device before connecting to the pressure of the vehicle tire must be done. There is also constant monitoring of the batteries required because of their consumption no more display can occur.

The invention has for its object a generic To design the device so that it without Adjustment used for tires of different pressures and can be operated without its own power source.

This object is achieved by a Release pin of the ripening element actuating element a first and a second, side by side or in a row arranged chamber, the first chamber via the tire valve is constantly supplied with tire air by a second chamber lockable with respect to the first chamber Valve, through a valve connected to the valve for Complete a channel, the inner end of which is in the first Chamber opens, and through one at the outer end of the channel arranged acoustic and / or optical warning display element.

The device has two chambers, one of which after screwing the device onto the valve or Connection line to a valve of a pneumatic tire constantly has the air pressure present in the pneumatic tire. The second chamber, which is to be regarded as a storage chamber, is also in the arrangement of the device with compressed air filled from the tire until the two chambers separating valve set a balance is. In the initial state, the channel leading to the outside through the valve connected to the valve separating the chambers Valve closed so that there is no warning. As soon as the air pressure in the tire due to damage decreases, the air pressure in the first chamber becomes lower,  whereby the valve separating the chambers is seated is pressed so that the pressure in the storage chamber is maintained becomes. At the same time it becomes the channel final valve lifted from its seat so that Air from the first chamber and the tire through the channel can escape to the outside. This process continues maintained until either by external intervention pressure equalization takes place in the two chambers or the Air has completely escaped from the tire. During the escape an optical display is activated by the channel, what can happen, for example, that a the cap attached to the device is pushed away, so that by a simple visual inspection of the tire it is recognized whether the originally during the arrangement amount of air contained in the tire of the device is present or whether the air pressure has dropped. The Acoustic warning can come from one at the end of the channel arranged pipe exist, which through the outflowing Air is actuated so that there is a constant whistle.

According to a preferred embodiment, this is the second Chamber-closing valve is a seat valve, which in particular conical and with on the seats can be provided with an elastic layer. The sealing body the seat valve is preferably via a membrane attached to a valve lifter. With the help of this membrane the valve lifter is moved so that if there is a drop in pressure in the first chamber or in the second or storage chamber existing air pressure the membrane towards the first chamber moves, so that the plunger also in this chamber is pushed in, through which the channel final valve is lifted from its seat and the connection of the inside of the tire to the outside Channel is established. To the seat of the valve when pressure equalization to accomplish in the two chambers is the Sealing body of the valve separating the two chambers preferably biased by a spring, the spring strength is chosen such that to fill the storage chamber  no great force has to be overcome, but it is sufficient to ensure a flat seat of the sealing body after the pressure equalization to effect.

The one at the end of the valve lifter that goes into the first chamber protrudes, arranged valve body is preferably a Washer, which is provided with through holes, so that Air from the tire through the first chamber into the second or storage chamber can flow. Sitting in the normal state this washer on the opening of the channel so that none Air can escape to the outside through this duct. In order to no air can escape unintentionally through the duct preferably an elastic on the disc of the seat valve Pad attached.

The valve lifter is according to a preferred embodiment arranged in a second one of the two chambers Through holes are slidably mounted and the two Chambers are connected to each other via through holes.

To help seal the channel with the help of the disc-shaped valve body is one Preloaded spring, the spring force of which is dimensioned in such a way that in the initial state both valve bodies on their intended Sit on the seat and thus the storage chamber of the first chamber and the channel separated from the first chamber are.

The optical warning indicator element preferably consists of a cap that is sealing but detachable in the area of the outer end of the channel is arranged so that at sufficient air supplied to the outer end of the duct from the Overpressure is formed inside the cap inside the tire is so that the cap is blown off the device becomes.

If the whistle provided at the outer end of the channel  is, tones generated in the ultrasonic range, and when on that Vehicle in a suitable place a receiver for the ultrasound tones is provided, the ultrasound tones can converted a converter into an electrical voltage be, so that a display inside the vehicle is excited can be. A warning lamp can thus be switched on be, which indicates to the driver that the air pressure in a Tire has dropped to an unacceptable level. The recipient is there preferably outside of the motor vehicle, for example at the back of an outside mirror, and the optical Display arranged on the dashboard.

If the tones generated by a whistle in frequency can be different for each tire of a motor vehicle a separate lamp can be arranged, so that the driver immediately recognizes which one Tire has a defect.

Preferably is on the chamber of the device, which is constantly with the inside of the tire, a conventional one Tire valve arranged so that to inflate a tire the device does not have to be removed from the valve. The air pressure can be directly connected by connecting a suitable one Compressed air source can be made to this valve. To the air pressure in the second or storage chamber Air pressure in the first chamber to adjust after a tire defect and thus a drop in air pressure done in the first chamber is in the storage chamber a valve arranged, for example, as a conventional Tire valve can be formed. By pressing the Release needle can reduce the pressure in the storage chamber be so that there is a pressure balance between can adjust the two chambers again.

According to a preferred embodiment, the first chamber in one housing part and the second chamber in a second Housing part arranged, the through holes and the Channels are formed in the housing part of the second chamber  and the housing parts are for example via friction welding connected with each other.

The outer end of the channel is preferably on the outside arranged in the second chamber and the cap-like optical warning indicator is placed over the second chamber. The seal between the outside of the chamber and the cap is preferably made via an O-ring. Around the cap in the normal state securely on the device can hold a between the cap and the outside of the chamber releasable snap fit connection be formed. The cap is preferably with a warning color, for example one provided red color so that the vehicle driver at an inspection immediately notices if a cap of the Device is removed. So that the cap is not lost , it can preferably be a cord or a chain be secured to the device.

According to a preferred embodiment, the device arranged coaxially to the wheel axle and with a line connected to the tire valve, the line with a Trigger element for triggering the trigger needle of the tire valve is provided. This arrangement avoids the influence large centrifugal forces on the device. If Twin tires on separate rims or twin tires The tire valves can be arranged on a rim be connected via a connecting line, at the Connection line a valve is arranged on which the device is screwed on. This will equalize the pressure made between the tires, one Warning occurs as soon as the pressure in the tires decreases. With this arrangement, it is not possible to immediately recognize which of the twin tires is defective.

The usual pressure fluctuations due to the tire warming up Taking the sun's rays or longer driving into account will make the Valve body supporting membrane in connection with an axial play of the Tappet of 1 to 2 mm on the valve body closing the channel set such that the valve lifter and thus that  the valve closing the channel is only moved when the pressure difference between the chambers has a value of Assumes 0.3 to 0.7 bar. A drop in pressure normal vehicle tire by about 0.1 to 0.3 bar above a short period of time must be accepted without timely detection of damage to the tire or the motor vehicle becomes unsafe.

The invention is particularly suitable for twin tires, which are arranged in a sequence. Such tires have the advantage that if one of the twin tires is defective the vehicle continued to drive at reduced speed can be. Only when cornering faster can one The intact tire is shifted because the latter no longer has sufficient support from the other Receives tires. In the event of a timely warning of this The driver can break the speed of the Adjust motor vehicle and without damaging the Tire to repair the damage.

The invention is described below using exemplary embodiments explained in more detail. It shows:

Fig. 1 shows an apparatus in cross-section in its normal state, ie with intact tire,

Fig. 2 shows the device of FIG. 1 during screwing on a vehicle tire, that is during the activating,

Fig. 3 shows the device of FIGS . 1 and 2 in the warning state, ie when the air pressure in the tire and

Fig. 4 is a schematic representation of a motor vehicle with devices arranged on the tires.

The device shown in section in FIG. 1 consists of a first housing part 10 and a housing part 12 firmly connected to it. If the housing parts 10 and 12 are made of plastic, the connection can be made by friction welding or gluing. At the front end, the housing part 10 is formed with an internal thread 14 so that the device can be screwed onto a valve 16 on a pneumatic tire, not shown. In order to actuate the trigger needle 18 of the valve 16 , ie to allow air to escape from the tire into the interior of the housing 10 , a trigger element 20 is provided which presses the trigger needle into the valve while being screwed onto the valve 16 , so that air from the tire can flow through channels 22 into a chamber 24 formed within the housing 10 .

The housing 12 is provided with a nozzle 26 , in which through holes 28 , a through hole 30 and a blind hole 32 are formed. A chamber 34 adjoins the nozzle 26 , which is referred to as the second chamber or storage chamber of the monitoring device. The chamber 34 is closed by a cap 36 , which is also connected to the end of the housing part 12 by gluing or friction welding.

A valve tappet 38 is guided through the through bore 30 . A membrane 42 is attached to the end 40 of the valve tappet 38 arranged in the storage chamber 34 . A valve body 44 is arranged on this membrane, which has a conical valve surface 46 , which is seated on a conical seat surface 48 , which is formed in a region between the blind hole 32 and the storage chamber 34 . In order to provide a good seal between the seat surfaces 46 and 48 , an elastic covering 50 is provided either on the seat surface 46 or on the seat surface 48 . The valve body 44 is held on the seat 48 by a spring 52 , which is provided in the storage chamber 34 . The compressive force of the spring 42 is only so low that it does not produce a large contact pressure between the seat surfaces 46 and 48 , but only allows the valve body 44 to rest on the seat surfaces.

At the end 54 of the valve tappet 38 arranged in the chamber 24 , a sealing head carrier 56 in the form of a disk with an axial play of 1 to 2 mm is arranged on the valve tappet 38 . This sealing body 56 is provided with through holes 58 so that the through holes 28 are in communication with the chamber 24 . The sealing body 56 serves to close the inner end 60 of a channel 62 when the vehicle strip is in the normal state, ie when there is no defect. In order to achieve a secure seal between the end 60 of the channel 62 and the valve body 56 , a sealing ring 64 made of an elastic material is arranged on the disk-shaped sealing body 56 . The outer end 66 of the channel 62 is arranged on the outside of the housing part 12 . A whistle 68 is associated with this end 66 so that when air flows through the channel 62 , the whistle 68 is actuated and a whistling sound is generated. A cap 70 , which closes the end 66 of the channel 62, is placed over the cap 36 and the housing part 12 . A seal between the outside of the housing part 12 and the cap 70 takes place via an O-ring 72 . However, it is also conceivable to provide a snap fit between housing part 12 and cap 70 via a bead and a groove on the cap and the housing part or vice versa. Air flowing out of the channel 62 can be accumulated in a space 74 between the housing part 12 and the cap 70 until the pressure in this space 74 becomes so great that the cap 70 is released from the housing part. In order not to lose the cap, it is expediently connected to the device via a cord or a chain. The cord or chain is dimensioned so long that the cap can be completely separated from the device.

After screwing the device onto the valve 16 and triggering the valve 16 , air flows from the tire interior into the chamber 24 . Through the through bores 58 in the sealing body 56 and the through bores 28 in the connecting piece 26 of the housing part 12 , the air flows into the blind hole 34 and under the membrane 42 , so that the membrane is pressurized on the underside and the valve body 44 moves away from it Seat 58 lifts because the force of spring 52 is not sufficient to hold valve body 44 in a sealing seat. It is thus possible for compressed air to enter chamber 34 until the pressure in chamber 34 assumes the same value as the pressure in chamber 24 . After reaching this equilibrium state, the valve body 44 is placed on the sealing seat 48 via the spring 52 . The pressure in the chamber 24 is sufficient to press the valve body 56 against the underside of the connector 26 , so that the channel 62 is closed. The contact of the sealing body 56 is supported by a spring 76 , the force of which is very small. The spring 76 in the chamber 24 has the same task for the sealing body 56 as the spring 52 in the chamber 34 for the sealing body 44 . In addition, a spring 78 is provided coaxially with the valve tappet 38 , which also contributes to holding the valve tappet and thus the sealing bodies 56 and 44 in the starting position shown in FIG. 1. In the position shown in FIG. 1, in which the pressure in the tire remains constant except for slight fluctuations due to tire warming, the channel 62 remains closed, so that no warning is given. The vehicle tire, which is provided with the valve 16 , can be inflated via a valve 80 , which is arranged on the housing part 10 and is guided into the chamber 24 , without the device having to be removed from the tire. The valve 80 is a conventional tire valve. To relieve the chamber 34 the latter is provided with a valve 82, which has a release pin 84 so that (with removed cap 70) air from the interior of the chamber 34 can escape to the outside by pushing the needle 84th

FIG. 2 shows the device according to FIG. 1 during screwing onto the valve 16 . Since air can flow through the chamber 24 , the bores 58 in the valve body 56 and the bores 28 in the connecting piece 26 of the housing part 12 , the valve body 44 is lifted off the valve seat 48 against the force of the membrane 42 and the spring 52 , so that Air can flow into the chamber 34 until the pressure in the chamber 34 is at the same value as the air pressure in the chamber 24 . When this state is reached, the valve body 44 is pressed onto the valve seat 48 again and the state as shown in FIG. 1 is assumed by the device.

Fig. 3 shows the apparatus in the state in which a tire defect is present. As soon as the pressure in the tire on which the valve 16 is arranged decreases, the pressure in the chamber 24 also decreases, since this communicates with the tire via the valve 16 . Since the valve body 44 sits sealingly on the valve seat 48 , the pressure in the chamber 34 cannot equalize the pressure in the chamber 24 . When the pressure in the tire and in the chamber 24 assumes a value which can be adjusted by 0.3 to 0.7 bar (adjustable via the membrane 42) depending on the thickness of the membrane 42 and the axial play of the valve tappet 38 in the region of the valve body 56 any conceivable values) has dropped, the membrane 42 is deflected downward in the direction of the chamber 24 due to the greater pressure in the chamber 34 , so that the valve tappet 38 is displaced in the direction of the chamber 24 . This is associated with a detachment of the valve body 56 from the end face of the connector 26 , so that a connection of the chamber 24 to the channel 62 is established. Accordingly, air flows through the bores 58 or around the valve body 56 through the inner end 60 of the channel 62 and through this channel 62 to its outer end 66 . The space 74 between the housing part 12 and the chamber 70 fills with compressed air until the pressure there assumes a value that the cap 70 is blown off from the housing part 12 . Associated with this is an excitation of the whistle 68 , so that an audible whistle tone or a whistle tone is generated in the ultrasonic range. Since the pressure in the chamber 34 remains unchanged, the valve body 56 remains continuously raised, so that the whistling sound is emitted continuously. Only an actuation of the valve 82 in the chamber 34 can lead to a reduction in the excess pressure in the chamber 34 , after which the whistling is ended. If, however, the pressure in the tire continues to decrease, the state shown in FIG. 3 builds up again, so that a whistling tone is emitted again.

It can be seen that the device according to the invention requires no adjustment, so that tires with different pressures can be monitored with one and the same device. Only the design of the membrane 42 and the axial play of the valve tappet 56 are important in order to set the desired pressure difference at which the warning is triggered. The pressure difference should not be less than 0.3 bar, as the pressure in the tire can fluctuate by this value when exposed to sunlight or driving fast. In the chamber 34 , however, the highest pressure that is established in the tire is always stored, so that after the tire has cooled, a warning can be erroneously issued if the membrane 42 is deflected too far in the direction of the chamber 24 .

Fig. 4 shows a schematic representation of a motor vehicle 90 with a front axle 92 with tire 94 and 96 as well as two rear axles 98 and 100 respectively with twin tires 102, 104, 106, 108, 110, 112, 114 and 116. Devices 118 to 136 are arranged for each of the tires 94 , 96 and 102 to 116 . On the back of mirrors 138 and 140 , receivers 142 and 144 for ultrasound tones are provided, and devices 118 to 136 emit tones in the ultrasound range if a tire is defective. These tones are received by the receivers 142 and 144 and converted into an electrical voltage so that warning lights 146 arranged inside the motor vehicle are excited. If the tones emitted by the devices 118 to 136 have different frequencies, and if each such frequency has a special warning lamp arranged inside the motor vehicle, the driver can immediately recognize which tire is defective. The devices 118 to 136 are preferably arranged so that the centrifugal forces exerted on them are as low as possible. It is also conceivable to connect two twin tires 102 and 104 , 106 and 108 , 110 and 112 and 114 and 116 to one another via a line, so that pressure equalization can take place between two tires. In this case, only one device is required for each pair of twin tires, but it cannot then be immediately recognized which of the two twin tires has a defect.

Claims (30)

1. Device for monitoring the air pressure in a pneumatic tire, with a connecting piece for screwing onto a tire valve, characterized by an element ( 20 ) actuating the trigger needle ( 18 ) of the tire valve ( 16 ), by a first ( 24 ) and a second ( 34 ), side by side or arranged behind one another chamber, the first chamber (24) is constantly supplied via the tire valve (16) with compressed air from the tire, by a second chamber (34) opposite the first chamber lockable valve (44 (24) ), by a valve ( 56 ) connected to the valve ( 44 ) for closing off a channel ( 62 ), the inner end ( 60 ) of which opens into the first chamber ( 24 ), and by an at the outer end ( 66 ) of the channel ( 62 ) arranged acoustic and / or optical warning display element ( 68, 70 ). 2. Device according to claim 1, characterized in that the second chamber ( 34 ) closing valve ( 44 ) is a seat valve. 3. Apparatus according to claim 2, characterized in that the seat valve ( 44 ) is conical. 4. The device according to claim 3, characterized in that the seat surfaces ( 46, 48 ) have an elastic layer ( 50 ). 5. Device according to one of claims 2 to 4, characterized in that the sealing body ( 44 ) of the seat valve via a membrane ( 42 ) is attached to a valve tappet ( 38 ). 6. Device according to one of claims 1 to 5, characterized in that the sealing body ( 44 ) via a spring ( 52 ) is biased in the sealing position. 7. Device according to one of claims 1 to 6, characterized in that the valve body ( 56 ) for sealing the channel ( 62 ) at the other end ( 54 ) of the valve lifter ( 38 ) is attached. 8. The device according to claim 7, characterized in that the valve body ( 56 ) is a disc formed with through bores ( 58 ). 9. The device according to claim 8, characterized in that an elastically sealing support ( 64 ) is arranged on the disc ( 56 ). 10. Device according to one of claims 1 to 9, characterized in that the valve tappet ( 38 ) is slidably mounted in a through hole ( 30 ) arranged between the two chambers ( 24, 34 ) and that through holes between the chambers ( 24, 34 ) ( 28 ) are arranged. 11. Device according to one of claims 1 to 10, characterized in that the valve ( 56 ) for sealing the channel ( 62 ) is sealingly biased. 12. The apparatus according to claim 11, characterized in that a spring ( 76 ) or ( 78 ) for biasing the valve ( 56 ) is arranged in the first chamber ( 24 ) and / or the second chamber ( 34 ). 13. Device according to one of claims 1 to 12, characterized in that the optical warning indicator element is a cap ( 70 ) which is sealingly detachably arranged in the region of the outer end ( 66 ) of the channel ( 62 ). 14. Device according to one of claims 1 to 13, characterized in that a pipe ( 68 ) is arranged at the outer end ( 66 ) of the channel ( 62 ). 15. The apparatus according to claim 14, characterized in that the whistle ( 68 ) generates tones in the ultrasound range, that receivers ( 142, 144 ) are provided for the ultrasound tones and that the ultrasound tones are converted into an optical display. 16. The apparatus according to claim 15, characterized in that the receiver ( 142, 144 ) in the outer region of a motor vehicle ( 90 ) and the optical display ( 146 ) are arranged on the dashboard or is. 17. The apparatus according to claim 15 or 16, characterized in that for each tire ( 94, 94, 102 to 116 ) of a motor vehicle ( 90 ) a device ( 118 to 136 ) is provided with different frequency of the acoustic display, and that each tire an optical display is assigned. 18. Device according to one of claims 1 to 17, characterized in that a tire valve ( 80 ) is arranged in the first chamber ( 24 ). 19. Device according to one of claims 1 to 18, characterized in that a trigger valve ( 82 ) is provided in the second chamber ( 34 ). 20. Device according to one of claims 1 to 19, characterized in that the first chamber ( 24 ) in a housing part ( 10 ) and the second chamber ( 34 ) is formed in a housing part ( 12 ) that the through bores ( 28 ) and the channel ( 62 ) is formed in the housing part ( 12 ) of the second chamber ( 34 ) and that the housing parts ( 10, 12 ) are connected to one another. 21. The apparatus according to claim 20, characterized in that the housing parts ( 10, 12 ) consist of plastic and are circular in cross section, and that the connection is made via friction welding. 22. Device according to one of claims 1 to 21, characterized in that the outer end ( 66 ) of the channel ( 62 ) is arranged on the outside of the second chamber ( 34 ) and that the cap-like optical warning indicator element ( 70 ) via the second chamber ( 34 ) is inserted. 23. The device according to claim 22, characterized in that the cap ( 70 ) via an O-ring ( 72 ) on the outside of the housing part ( 12 ) is sealed. 24. The device according to claim 22 or 23, characterized in that the cap ( 70 ) is arranged via a snap fit. 25. Device according to one of claims 22 to 24, characterized in that the cap ( 70 ) has a warning color. 26. Device according to one of claims 22 to 24, characterized in that the cap ( 70 ) is secured to the housing ( 10 or 12 ) via a cord or a chain. 27. The device according to one of claims 1 to 26, characterized characterized that the device arranged coaxially to the tire axis and via a line is connected to the tire valve, the line with a trigger element for triggering the trigger needle the tire valve. 28. Device according to one of claims 1 to 27, characterized characterized that twin tires over a connecting line with release elements for the Tire valves are connected and that the device arranged on a valve on the connecting line is. 29. The device according to claim 5, characterized in that the membrane ( 42 ) is set to a pressure difference between the first chamber ( 24 ) and the second chamber ( 34 ) of approximately 0.1 to 0.7 bar. 30. Device according to one of claims 1 to 29, characterized in that the valve tappet ( 38 ) on the valve body ( 56 ) has an axial play of approximately 1 to 2 mm.