DE19631766A1 - Compressor unit - Google Patents

Description

The invention relates to a compressor unit, the following Features,

• a) one with its intake manifold to an intake pipe and with its outlet connection to a liquid separator liquid ring compressor connected to the container, the outlet connector connected to an exhaust pipe is
• b) at least one a primary and a secondary circuit having aftercooling device with its Primary circuit is connected in the intake line and with their secondary circuit lies in the course of the exhaust air duct,
• c) the condensate resulting from the after-cooling is in returned the operating fluid circuit.

Such a compressor unit is known from EP-A-0 716 232 known. In this known compressor unit Reduction in the consumption of operating fluid After-cooling of the ejected from the liquid ring compressor external exhaust air. As a result, it is in the exhaust air contained water vapor at least partially condensed. The accumulating condensate is in the operating fluid circuit run returned.

The invention has for its object that in the after-cooling condensate in the exhaust air of the liquid ring compressor sat in the operating fluid circuit so that the return does not affect operating conditions holding the compressor unit.

The problem is solved by the following white other characteristics,

• d) a condensate collection chamber having an outlet,
• e) one having an inlet and an outlet opening Float valve with its inlet opening to the Outlet of the condensate collection chamber and with its Outlet opening on the suction side of the liquid ring compressor is connected,
• f) the float of the float valve serves as Ver closing element for the outlet opening of the float valve les.

With such a design of the compressor unit it will ensured that none of the fluid's suction capacity ring compressor reducing false air is sucked in. Like this as long as there is no condensate in the float valve, the outlet opening is closed by the float. If condensate accumulates, the float experiences a buoyancy and is raised accordingly and gives the outlet opening of the float valve to extract the condensate. There the amount of condensate is very small and the suction without egg If air is added, there is no reduction of the pumping speed of the liquid ring compressor.

The outlet opening is reliably sealed according to a further embodiment of the invention in that the float valve on all sides in the valve body has guided swimmer, which in its rest position the outlet opening of the float valve rests.

A very simple float vein in terms of construction til results from the fact that this is a housing with quadrati cross-section and has a hollow sphere as a float is arranged in the housing. A reliable seal the outlet opening through the hollow sphere is then guaranteed stste when the outlet opening of the float valve as round borehole is formed. The hollow ball then lies  at the edge of this borehole and seals it with it flawlessly.

This ensures the functional safety of the float valve ensures that the size of the cross section of the borehole corresponding to the suction prevailing at the outlet opening pressure and the maximum buoyancy of the float is.

To the functional reliability of the valve also contributes to the fact that A vent area around the inlet opening of the float valve tion bore is provided. Through such a vent drilling ensures that in the housing of the float vein tiles ambient pressure prevails and thus the hollow sphere with Si security is pressed onto the borehole.

Based on an exemplary embodiment shown in the drawing game, the invention is described in more detail below. It shows:

Fig. 1 is a schematic illustration of a compaction teraggregates,

Fig. 2 is a float valve in its blocking position,

Fig. 3 a partially filled with condensate float valve.

1 with a liquid ring compressor is designated, the egg NEN intake 2 and an outlet 3 has. An intake line 4 is connected to the intake port 2 . A post-cooling device 5 having a primary and a secondary circuit is connected with its primary circuit into the intake line 4 . The primary circuit is to be understood as the cooling medium and the secondary circuit as the cooling medium acting on the cooling medium.

The outlet port 3 is connected via a corresponding pipe 6 with a liquid ring compressor 1 associated liquid separating tank 7 . The liquid separating container 7 has an exhaust air opening 8 which is connected via an exhaust air line 9 to the one connection 10 of the secondary circuit of the after-cooling device 5 . At the other terminal 11 of the secondary circuit is connected to an Auslaßlei device 12 , in the course of which a condensate collection chamber 13 is arranged.

At the liquid separation container 7 , a return guide line 14 for returning operating fluid to the liquid ring compressor 5 is also connected. The return of the operating fluid also takes place via a water cooler 15 .

In FIG. 1, the path of the intake air is indicated by arrows 16, the path of the exhaust air by arrows 17 , and the return path of the operating fluid is indicated by arrows 18 .

A float valve 19 with its inlet opening 20 is connected to the condensate collection chamber 13 . The outlet opening 21 is connected via a connecting line 22 to the suction line 4 and thus to the suction side of the liquid ring compressor 1 .

As can also be seen from FIGS. 2 and 3, the float valve 19 has a hollow ball 23 as a float. For example, a table tennis ball can be used as a hollow ball. The inlet and outlet openings 20 and 21 of the float valves 19 are each formed by a small piece of pipe 24 and 25 , respectively. This results in a round borehole 28 as the outlet opening, on which the hollow ball 23 rests when there is little or no condensate 26 in the valve housing 27 of the float valve 19 . As a result of the pressure difference acting on the hollow ball 23 , this lies snugly on the borehole 28 and closes it, so that no connecting air 22 reducing the intake volume of the liquid keitsringverdichter compressor 1 can suck false air who can.

If condensate accumulates in the condensate collection chamber 13 , this flows through the inlet opening 20 into the valve housing 27 . The condensate level rises in the valve housing 27 as far until the force acting on the hollow ball 23 buoyant force the suction exerted by the suction vacuum of the hollow ball 23 exceeds power. The hollow ball 23 then lifts off from the round borehole 28 , so that the condensate 26 present in the valve housing 27 is now sucked in via the connecting line 22 into the liquid ring compressor 1 . If the condensate 26 is suctioned off, the hollow ball 23 closes the borehole 28 again and prevents false air from being sucked in.

Thus, the condensate 26 without the performance of the flues to influence sigkeitsringverdichters 1 back into the loading drive circuit of the liquid ring compressor 1 are Retired leads.

In the upper cover plate 29 of the valve housing 27 fer ner a vent hole 30 is also provided. This vent hole 30 ensures that there is always ambient pressure in the Ventilge housing 27 and thus the Hohlku gel 23 is pressed with certainty on the borehole 28 in the absence of condensate 26 .

Claims (7)

1. compressor assembly which has the following features,

• a) one with its intake ( 2 ) to a suction line ( 4 ) and with its outlet ( 3 ) to a liquid separator tank ( 7 ) connected liquid ring compressor ( 1 ), the outlet port ( 3 ) of which is connected to an exhaust line ( 9 ) is
• b) a primary and a secondary circuit having aftercooling device ( 5 ) which is connected with its primary circuit in the intake line ( 4 ) and with its secondary circuit in the course of the exhaust line ( 9 ),
• c) the condensate ( 26 ) resulting from the after-cooling is returned to the operating fluid circuit,

characterized by the following additional features,

• d) a condensate collection chamber ( 13 ) having an outlet,
• e) an inlet and an outlet opening ( 20 ) and ( 21 ) having float valve, the melkammer with its inlet opening ( 20 ) to the outlet of the condensate collection chamber ( 13 ) and with its outlet opening ( 21 ) to the suction side of the liquid ring compressor ( 1 ) connected,
• f) the float ( 23 ) of the float valve ( 19 ) serves as a closure element for the outlet opening ( 21 ) of the float valve ( 19 ).

That the float valve (19) 2. A compressor unit according to claim 1, characterized in that an all sides in the housing (27) of the valve (19) guided in the float (23) which in its rest position on the outlet opening (21) of the float valve (19) on rests. 3. Compressor unit according to claim 1 or 2, characterized in that the float valve ( 19 ) has a housing with a square cross-section and a hollow ball ( 23 ) is arranged in the housing ( 27 ) as a float. 4. Compressor unit according to claim 2, characterized in that the outlet opening ( 21 ) of the float valve ( 19 ) is designed as a round borehole ( 28 ). 5. Compressor unit according to claim 4, characterized in that the size of the cross section of the borehole ( 28 ) is dimensioned according to the suction pressure prevailing at the outlet opening ( 21 ) and the maximum buoyancy force of the float ( 23 ). 6. Compressor unit according to one of the preceding claims, characterized in that a vent hole ( 30 ) is provided in the region of the inlet opening ( 20 ) of the float valve ( 19 ).