DE102011050806A1 - Compressor with pressure limitation - Google Patents

Abstract

Compressor unit in a portable compressed air source, which has a reciprocating compressor driven by a thrust crank mechanism with a piston oscillating in a cylinder and delimiting a compression space, the cylinder being closed on the output side by a cylinder head with an outlet valve, a valve being arranged in the pressure medium supply line to the compression space, through which the inlet cross section of the pressure medium supply line can be changed depending on the pressure generated in the compression space.

Description

The invention relates to a compressor unit in a portable compressed air source, which has a reciprocating compressor driven by a sliding crank drive or a reciprocating compressor with a piston oscillating in a cylinder and delimiting a compression space, the cylinder being closed on the output side by a cylinder head with an outlet valve

Such compressor units are z. B. with or as part of devices for sealing and inflating inflatable objects, in particular for sealing and inflation of motor vehicle tires needed (breakdown sets).

These portable and lightweight devices include the compressor unit as a pressurized gas source, further comprising a sealant container for a self-sealant fillable into the inflatable article, a valve and manifold unit for sealant and pressurized gas, and an inlet conduit connectable to the pressurized gas source and an inflatable one Provided object connectable outlet.

In such devices, the maximum pressure in the system is determined either by the maximum achievable pressure of the compressor, the maximum pressure then significantly depends on design so-called "dead volume" of the cylinder, or is determined by a pressure relief valve. The previously used limit valves open on the high pressure side and allow a volume flow on the high pressure side to exit the system. A significant disadvantage here is that at a initiated by opening the pressure relief valve leakage of such a flow during the pumping of sealant to a small extent to a reflux of tire sealant can come in the subsequent to the compressor lines. By this reflux then either the pressure gauge function or the exhaust valve of the compressor can be impaired in its function

A similar solution shows the the DE 44 29 097 A1 , There, a compressor unit or a reciprocating compressor is disclosed with a conventional in the art outlet valve, which is also the only "pressure relief valve" for the interior of the compressor. Such an outlet valve consists of a spring-loaded disc which covers an outlet bore of the compression chamber in the cylinder and lifts at a corresponding pressure in the compression space against the spring. Apart from the fact that such an outlet valve for very high opening frequencies, ie for very fast moving reciprocating compressors with short stroke, is only conditionally suitable, it is necessary here to maintain a certain pipe distance to the sealant container or to the associated distributor unit to a reflux of sealant in to prevent the compression space / pressure chamber. This increases the overall size of devices for sealing and inflating inflatable objects.

The belonging to the neighboring area of hydraulics DE 35 09 856 A1 discloses a control of the oil flow rate in a hydraulic supply by means of a suction-controlled feed pump. In this case, a valve in a supply line to the feed pump is switched so that at low pressure requirement in the system, a small volume flow is provided by the feed pump and at high pressure requirement, a high volume flow. A pressure limit in the true sense does not take place here.

Commercially available breakdown kits for tire sealing, which have a small compressor, with the help of tires can be used to limit the maximum pressure usually either the exhaust valve in the compression chamber or a valve in the flow direction of the compression chamber downstream lines, eg. B. in the subsequent distribution unit, which is thus arranged between the exhaust valve and tire valve or between the compressor and the manometer.

The practice is evident in these designs that - as already shown - when pumping sealant pressure conditions can arise, which lead to the fact that it comes to an undesirable Dichtmittelrückfluß, which makes the compressor useless. On the other hand prevents a pressure relief valve in the subsequent distribution unit between exhaust valve and tire valve also that with the compressor off with the integrated pressure gauge, the existing pressure remains measurable. Accordingly, an additional check valve between compressor and pressure gauge does not solve the problem satisfactorily.

For the invention therefore had the task of providing a pressure relief valve, which ensures the limitation of the maximum pressure in the compression chamber while avoiding Dichtmittelrückfluß, avoids a sudden on the high pressure side emerging from the system flow and thus increases the overall service life and reliability of the compressor.

This object is achieved by the features of the main claim. Further advantageous embodiments are disclosed in the subclaims.

In this case, a valve for the compression chamber is arranged in the pressure medium supply line to the compression chamber, through which the inlet cross section of the pressure medium supply depending on the pressure generated in the compression space, ie the pressure on the high pressure side of the compressor, and which thus a kind of suction control to control and limit Provides overpressure. The valve should be near the cylinder head or in the cylinder head.

By such a construction according to the invention, it is possible to reduce dead volume of the cylinder and thereby significantly increase the efficiency of the compressor at low pressures.

It is therefore essential for the embodiment according to the invention that a pressure limitation of the system is achieved without a volume flow having to be made on the high-pressure side to the outside. This is achieved, on the one hand, by the fact that the inlet valve of the compressor is located on the cylinder and not, as in many other designs, on the piston. The core idea is to dynamically limit the intake air flow during operation so that a certain selected pressure is not exceeded on the high-pressure side of the compressor.

An advantageous development is that the valve is pressure-controlled and the pressure generated in the compression chamber acts as a control pressure on the pressure-controlled valve. This is an easy to implement and very effective control of the pressure relief without special additional control, actuators or sensors.

Advantageously, the valve is arranged in the flow direction in front of the inlet valve for the compression chamber, so that there is a simple construction of the supply lines to the cylinder and standard components can be used.

A further advantageous embodiment in this sense is that the control line for the control pressure of the valve is connected directly to the outlet of the compression chamber.

A further and particularly advantageous for the protection of the compression space from a backflow of funding / sealant advantageous embodiment is that the control line for the control pressure in the flow direction behind the outlet valve is connected to the outlet of the compression chamber.

A further advantageous embodiment is that the valve has a spring-loaded and the inlet cross-section changing sliding throttle body, the control pressure shifts the throttle body to reduce the inlet cross-section against the spring force, in particular in combination with a further advantageous embodiment, which is that the throttle body is designed as a movable throttle piston.

Here, a piston / slide is mounted on the inlet side in front of the inlet valve, which can close the inlet channel and reopen. This pressure regulating piston is connected directly to the high pressure area on the other side. A spring ensures that the piston is retracted at low pressure and the flow on the inlet side is not affected. Depending on the diameter of the piston or spring stiffness of the spring used, this piston will now move with increasing pressure in the inlet channel and close this part. This reduces the efficiency of the compressor and the pressure will not rise above a certain maximum pressure. If the pressure in the system drops, the control piston will release the inlet channel again

Particularly suitable is such a compressor unit for use with a device for sealing and inflating inflatable objects, in particular for sealing and inflation of motor vehicle tires.

Reference to an embodiment of the invention will be explained in more detail. Show it

1 the cylinder head of a compressor unit according to the invention with a valve in the pressure medium supply line whose inlet cross section is variable depending on the pressure generated in the compression chamber, here with the valve open

2 the cylinder head of a compressor unit according to 1 , here with partially closed valve / throttled cross-section

The 1 shows the cylinder head 1 a compressor unit according to the invention with a valve 2 in the pressure medium supply line 3 through which the inlet cross section 4 the pressure medium supply line 3 depending on the one in the compression room 5 generated pressure is changeable. The 1 shows the valve 2 in open condition.

The cylinder head 1 is with an exhaust valve 6 and with an inlet valve 7 for the compression room 5 Mistake. The compression room 5 is formed here and limited by the cylinder or cylinder head 1 and the piston 11 ,

The valve 2 is thus on or in the pressure medium supply line 3 to the compression room 5 arranged here immediately adjacent to the cylinder head 1 , The valve 2 is in the flow direction before the actual inlet valve 7 for the compression room 5 disposed

The control line 8th for the control pressure of the valve 2 is behind the exhaust valve 6 at the outlet pipe 9 the compression space 5 connected. The in the compression room 5 generated pressure thus acts as a control pressure on the pressure-controlled trained valve 2 ,

The valve 2 has a spring loaded and the inlet cross section 4 changing sliding throttle body 10 on, wherein the control pressure shifts the throttle body to reduce the inlet cross-section against a spring force of a spring not shown here. The throttle body 10 is designed as a movable throttle piston.

2 shows the cylinder head with partially closed valve / throttled inlet cross-section 4 the pressure medium supply line 3 , The valve 2 So acts as a pressure relief valve, but by a control or regulation of the pressure medium supply, ie, a regulation of the intake volume.

LIST OF REFERENCE NUMBERS

1

cylinder head

2

Valve

3

Pressure fluid supply line

4

Inlet cross-section

5

compression chamber

6

outlet valve

7

intake valve

8th

control line

9

outlet pipe

10

throttle body

11

piston

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 4429097 A1 [0005]
• DE 3509856 A1 [0006]

Claims (8)

Compressor unit in a portable compressed air source, which comprises a reciprocating compressor driven by a slider-crank mechanism with an oscillating cylinder and a compression chamber ( 5 ) limiting piston ( 11 ), wherein the cylinder on the output side by a cylinder head ( 1 ) with exhaust valve ( 6 ) is closed, characterized in that in the pressure medium supply line ( 3 ) to the compression space ( 5 ) a valve ( 2 ) is arranged, through which the inlet cross-section ( 4 ) of the pressure medium supply line ( 3 ) depending on the compression space ( 5 ) pressure is changeable. Compressor unit according to claim 1, wherein the valve ( 2 ) in the flow direction in front of the inlet valve ( 7 ) for the compression space ( 5 ) is arranged Compressor unit according to claim 1 or 2, wherein the in the compression space ( 5 ) generated as a control pressure on a pressure-controlled valve ( 2 ) acts. Compressor unit according to Claim 3, in which the control line ( 8th ) for the control pressure of the valve ( 2 ) on the outlet line ( 9 ) of the compression space ( 5 ) connected. Compressor unit according to Claim 4, in which the control line ( 8th ) for the control pressure downstream of the outlet valve ( 6 ) on the outlet line ( 9 ) of the compression space ( 5 ) connected. Compressor unit according to one of claims 1 to 5, in which the valve ( 2 ) a spring-loaded and the inlet cross-section changing sliding throttle body ( 10 ), wherein the control pressure the throttle body ( 10 ) for reducing the inlet cross section ( 4 ) moves against the spring force. Compressor unit according to claim 6, wherein the throttle body ( 10 ) is designed as a displaceable throttle piston. Device for sealing and inflating inflatable objects, in particular for sealing and inflating motor vehicle tires, with a compressor unit according to claims 1 to 7.

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