Arrangement for a Screw Compressor of a Utility Vehicle

Abstract

An arrangement for a screw compressor of a utility vehicle has at least one housing part of the screw compressor and a baffle. The housing component has at least three baffle receptacle recesses, wherein at least one baffle receptacle recess is arranged outside an imaginary line connecting the two other baffle receptacle recesses. The baffle has at least three fingers which, in the assembled state of the arrangement, are each inserted in a baffle receptacle recess associated with the respective finger.

Claims

1. An arrangement for a screw compressor of a utility vehicle, comprising: at least one housing component of the screw compressor; and a baffle plate, wherein the baffle plate is, in an assembled state, inserted in a clamped fashion in the housing component.

2. The arrangement as claimed in claim 1, wherein the housing component has at least three baffle plate receiving apertures, at least one baffle plate receiving aperture is arranged outside an imaginary line which connects the two other baffle plate receiving apertures, and the baffle plate has at least three fingers which, in the assembled state of the arrangement, are inserted in each case into a baffle plate receiving aperture assigned to the respective finger.

3. The arrangement as claimed in claim 2, wherein the housing component is a rotor housing of the screw compressor.

4. The arrangement as claimed in claim 2, wherein the housing component is a housing cover of the screw compressor.

5. The arrangement as claimed in claim 2, wherein a middle one of the three baffle plate receiving apertures is arranged outside the imaginary line that connects the two other baffle plate receiving apertures.

6. The arrangement as claimed in claim 2, wherein the fingers of the baffle plate are substantially in alignment in a non-inserted and non-assembled state.

7. The arrangement as claimed in claim 2, wherein the baffle plate is, in the inserted and assembled state, as a result of the insertion of the fingers into the respectively associated baffle plate receiving apertures, bent such that the baffle plate is held braced with the clamping action in the housing component.

8. The arrangement as claimed in claim 2, wherein the fingers of the baffle plate are all arranged at one edge of the baffle plate.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] FIG. 1 is a schematic sectional drawing through an exemplary screw compressor according to the invention.

[0022] FIG. 2 is a perspective view of the rotor housing of the screw compressor as per FIG. 1.

[0023] FIG. 3 is a perspective view of the baffle plate as per FIG. 2.

[0024] FIG. 4 is a detailed plan view of the baffle plate receiving apertures in the rotor housing as per the exemplary embodiment in FIG. 2.

DETAILED DESCRIPTION OF THE DRAWINGS

[0025] FIG. 1 shows, in a schematic sectional illustration, a screw compressor 10 in the context of an exemplary embodiment of the present invention.

[0026] The screw compressor 10 has a fastening flange 12 for the mechanical fastening of the screw compressor 10 to an electric motor (not shown in any more detail here).

[0027] What is shown, however, is the input shaft 14, by which the torque from the electric motor is transmitted to one of the two screws 16 and 18, specifically the screw 16.

[0028] The screw 18 meshes with the screw 16 and is driven by means of the latter.

[0029] The screw compressor 10 has a housing 20 in which the main components of the screw compressor 10 are accommodated.

[0030] The housing 20 is filled with oil 22.

[0031] At the air inlet side, an inlet connector 24 is provided on the housing 20 of the screw compressor 10. The inlet connector 24 is in this case designed such that an air filter 26 is arranged at said inlet connector. Furthermore, an air inlet 28 is provided radially on the air inlet connector 24.

[0032] In the region between the inlet connector 24 and the point at which the inlet connector 24 joins to the housing 20, a spring-loaded valve insert 30 is provided, which is designed here as an axial seal.

[0033] The valve insert 30 serves as a check valve.

[0034] Located downstream of the valve insert 30, an air feed channel 32 feeds the air to the two screws 16, 18.

[0035] At the outlet side of the two screws 16, 18, an air outlet pipe 34 with a riser line 36 is provided.

[0036] In the region of the end of the riser line 36, a temperature sensor 38 is provided by which the oil temperature can be monitored.

[0037] Also provided in the air outlet region is a holder 40 for an air deoiling element 42.

[0038] In the assembled state, the holder 40 for the air deoiling element has the air deoiling element 42 in the region facing toward the base (as also shown in FIG. 1).

[0039] Also provided, in the interior of the air deoiling element 42, is a corresponding filter screen or known filter and oil separation devices 44, which will not be specified in any more detail.

[0040] In the central upper region in relation to the assembled and operationally ready state (that is to say as shown in FIG. 1), the holder for the air deoiling element 42 has an air outlet opening 46 which lead to a check valve 48 and a minimum pressure valve 50. The check valve 48 and the minimum pressure valve 50 may also be formed in one common combined valve.

[0041] The air outlet 51 is provided downstream of the check valve 48.

[0042] The air outlet 51 is generally connected to correspondingly known compressed-air consumers.

[0043] In order for the oil 22 that is situated and separated off in the air deoiling element 42 to be returned into the housing 20, a riser line 52 is provided which has a filter and check valve 54 at the outlet of the holder 40 for the air deoiling element 42 at the transition into the housing 20.

[0044] A nozzle 56 is provided, downstream of the filter and check valve 54, in a housing bore. The oil return line 58 leads back into approximately the central region of the screw 16 or of the screw 18 in order to feed oil 22 thereto again.

[0045] An oil drain screw 59 is provided in the base region, in the assembled state, of the housing 20. By means of the oil drain screw 59, a corresponding oil outflow opening can be opened, via which the oil 22 can be drained.

[0046] Also provided in the lower region of the housing 20 is the attachment piece 60 to which the oil filter 62 is fastened. Via an oil filter inlet channel 64, which is arranged in the housing 20, the oil 22 is conducted firstly to a thermostat valve 66.

[0047] Instead of the thermostat valve 66, it is possible for an open-loop and/or closed-loop control device to be provided by which the oil temperature of the oil 22 situated in the housing 20 can be monitored and set to a setpoint value.

[0048] Downstream of the thermostat valve 66, there is then the oil inlet of the oil filter 62, which, via a central return line 68, conducts the oil 22 back to the screw 18 or to the screw 16 again, and also to the oil-lubricated bearing 70 of the shaft 14. Also provided in the region of the bearing 70 is a nozzle 72, which is provided in the housing 20 in conjunction with the return line 68.

[0049] The cooler 74 is connected to the attachment piece 60, as will be discussed in more detail below in FIGS. 2 to 4.

[0050] In the upper region of the housing 20 (in relation to the assembled state), there is situated a safety valve 76, by which an excessively high pressure in the housing 20 can be dissipated.

[0051] Upstream of the minimum pressure valve 50, there is situated a bypass line 78, which leads to a relief valve 80. Via the relief valve 80, which is activated by way of a connection to the air feed 32, air can be returned into the region of the air inlet 28. In this region, there may be provided a ventilation valve (not shown in any more detail) and also a nozzle (diameter constriction of the feeding line).

[0052] Furthermore, approximately at the level of the line 34, an oil level sensor 82 may be provided in the outer wall of the housing 20. The oil level sensor 82 may for example be an optical sensor, and may be designed and configured such that, on the basis of the sensor signal, it can be identified whether the oil level during operation is above the oil level sensor 82 or whether the oil level sensor 82 is exposed, and thus the oil level has correspondingly fallen.

[0053] In conjunction with this monitoring, it is also possible for an alarm unit to be provided which outputs or transmits a corresponding error message or warning message to the user of the system.

[0054] The function of the screw compressor 10 shown in FIG. 1 is as follows.

[0055] Air is fed via the air inlet 28 and passes via the check valve 30 to the screws 16, 18, where the air is compressed. The compressed air-oil mixture, which, having been compressed by a factor of between 5 and 16 downstream of the screws 16 and 18, rises through the outlet line 34 via the riser pipe 36, and is blown directly onto the temperature sensor 38.

[0056] The air, which still partially carries oil particles, is then conducted via the holder 40 into the air deoiling element 42 and, if the corresponding minimum pressure is attained, passes into the air outlet line 51.

[0057] The oil 22 situated in the housing 20 is kept at operating temperature via the oil filter 62 and possibly via the heat exchanger 74.

[0058] If no cooling is necessary, the heat exchanger 74 is not used and is also not activated.

[0059] The corresponding activation is performed by way of the thermostat valve 66. After purification in the oil filter 64, oil is fed via the line 68 to the screw 18 or to the screw 16, and also to the bearing 72. The screw 16 or the screw 18 is supplied with oil 22 via the return line 52, 58, and the purification of the oil 22 takes place here in the air deoiling element 42.

[0060] By use of the electric motor (not shown in any more detail), which transmits its torque via the shaft 14 to the screw 16, which in turn meshes with the screw 18, the screws 16 and 18 of the screw compressor 10 are driven.

[0061] By use of the relief valve 80 (not shown in any more detail), it is ensured that the high pressure that prevails for example at the outlet side of the screws 16, 18 in the operational state cannot be enclosed in the region of the feed line 32, and that, instead, in particular during the start-up of the compressor, there is always a low inlet pressure, in particular atmospheric pressure, prevailing in the region of the feed line 32. Otherwise, upon a start-up of the compressor, a very high pressure would initially be generated at the outlet side of the screws 16 and 18, which would overload the drive motor.

[0062] FIG. 2 shows, in a perspective view, the arrangement for the screw compressor 10 of the utility vehicle having the at least one housing component, in this case the rotor housing 20a, and the baffle plate 100.

[0063] Here, the baffle plate 100 has been inserted into the rotor housing 20a.

[0064] It is basically also contemplated that the housing cover of the screw compressor 10 may also be used instead of the rotor housing 20a. In the inserted and assembled state as shown in FIG. 2, the baffle plate 100 has been bent as a result of the insertion into the rotor housing 20a, such that the baffle plate 100 is held braced with a clamping action in the rotor housing 20a.

[0065] For this purpose, as shown in FIGS. 3 and 4, it is firstly the case that fingers 102, specifically three fingers 102, are arranged on one side on the baffle plate 100.

[0066] Secondly, the rotor housing 20a has three baffle plate receiving apertures 104.

[0067] Here, the baffle plate receiving apertures 104 are arranged such that the two outer baffle plate receiving apertures 104 form a line, and the third baffle plate receiving aperture 104 is arranged offset in relation to that line. The three baffle plate receiving apertures 104 are thus not in alignment.

[0068] In other words, the middle of the three baffle plate receiving apertures 104 is arranged outside the imaginary line that connects the two other baffle plate receiving apertures 104.

[0069] By use of the fingers 102, the baffle plate 100 is inserted into the baffle plate receiving apertures 104.

[0070] This holding with clamping action is sufficient to securely fasten the baffle plate 100 in the rotor housing 20a.

[0071] Due to the offset of the middle baffle plate receiving aperture 104, the baffle plate 100 is, owing to its stiffness, held firstly in bent fashion but also with a self-securing action, because the bending force that is furthermore exerted and the arrangement of the fingers 102 ensure that the baffle plate 100 is held braced with clamping action in the rotor housing 20a by way of its fingers 102 in the baffle plate receiving apertures 104 of the rotor housing 20a.

LIST OF REFERENCE SIGNS

[0072] 10 Screw compressor [0073] 12 Fastening flange [0074] 14 Input shaft [0075] 16 Screw [0076] 18 Screw [0077] 20 Housing [0078] 20a Rotor housing [0079] 22 Oil [0080] 24 Inlet connector [0081] 26 Air filter [0082] 28 Air inlet [0083] 30 Valve insert [0084] 32 Air feed channel [0085] 34 Air outlet pipe [0086] 36 Riser line [0087] 38 Temperature sensor [0088] 40 Holder for an air deoiling element [0089] 42 Air deoiling element [0090] 44 Filter screen or known filter or oil separation devices [0091] 46 Air outlet opening [0092] 48 Check valve [0093] 50 Minimum pressure valve [0094] 51 Air outlet [0095] 52 Riser line [0096] 54 Filter and check valve [0097] 56 Nozzle [0098] 58 Oil return line [0099] 59 Oil drain screw [0100] 60 Attachment piece [0101] 62 Oil filter [0102] 64 Oil filter inlet channel [0103] 66 Thermostat valve [0104] 68 Return line [0105] 70 Bearing [0106] 72 Nozzle [0107] 76 Safety valve [0108] 78 Bypass line [0109] 80 Relief valve [0110] 82 Oil level sensor [0111] 100 Baffle plate [0112] 102 Finger [0113] 104 Baffle plate receiving apertures

[0114] The foregoing disclosure has been set forth merely to illustrate the invention and is not intended to be limiting. Since modifications of the disclosed embodiments incorporating the spirit and substance of the invention may occur to persons skilled in the art, the invention should be construed to include everything within the scope of the appended claims and equivalents thereof.