DE60225191T2 - Improvements on or at pumps - Google Patents

Description

The The present invention relates to improvements in or relating to Pumps, in particular for pumps in air conditioning installations.

In Air conditioning installations inside buildings is being carried out of the air Condensation atmospheric Moisture removed. The condensate must be removed, and typically This is done by removing the condensate from an evaporator unit, the usually outside of the building is pumped to a drain. Typically the pipes for the air conditioner for protection in channels that depend on the ceiling, or in guides or lines led. Pumps that are included in air conditioning installations are often voluminous and disturbing, there at one for accessible to the service Position must be arranged. The present invention seeks to solve this problem.

The JP-A-08-200726 describes a drainage pump for an air conditioning device with an inlet and an outlet, which are oriented at 90 ° to each other. The pump is housed inside a cover.

According to the present invention, a line knee, as it is z. B. in the JP-A-09-203536 is described, and a pump arrangement according to claim 1 specified.

Prefers contains the pump assembly is a float switch assembly and is designed to cause the activation of the pump when a fluid level within the reservoir exceeds a first predetermined level. Particularly preferably, the float switch is designed to, the Activation of an alarm to cause when the fluid level within the reservoir exceeds a second predetermined level, wherein the second predetermined level is greater than the first predetermined level Level.

Prefers For example, the float switch assembly includes a sensor housing that projecting into the reservoir, and at least one sensor, preferably from Hall-effect semiconductor type, at a position defining the first predetermined level, and a magnetic float around the sensor housing axially freely movable.

Prefers contains the knee further has at least one channel for cable and / or in use to pick up more pipes.

Prefers if a one-way valve is provided between the pump assembly inlet, the 90 ° to Pump assembly outlet is oriented.

Prefers is the pump assembly inlet at 90 ° to the pump assembly outlet oriented.

The The above and other aspects of the present invention will now be in further detail, by way of example only, with reference to the accompanying drawings in which:

1 Fig. 10 is an exploded perspective view of an embodiment of a knee according to the present invention in combination with a connecting lead;

2 is a schematic side view of the line of 1 in a typical air conditioning installation;

3 is a detailed exploded view of the knee of 1 ;

4 is a detailed side view of the knee of 1 ;

5 is an exploded view of the knee of 1 in combination with other components of a typical air conditioning installation;

6 is a side view of an embodiment of a pump assembly according to the present invention; and

7 is a bottom view of the pump assembly of 6 ,

With respect to the figures, an embodiment of a knee 10 represented according to the present invention. The knee includes a housing 11 That's a first opening 12 and a second opening 13 that is between a base element 14 and a lid 15 are defined. Within the channel element 14 is a pump arrangement 20 attached, which has an inlet 21 and an outlet 22 , which is 90 ° to the inlet 21 is oriented. The pump arrangement 20 contains an electrically operated pump and is powered by an electrical power supply 23 provided. In the preferred embodiments, the pump contains 20 also an alarm switch (not shown) by means of a cable 24 activates an alarm and, in the event of a pump failure, could also turn off the air conditioning unit.

In a typical air conditioning installation, a knee becomes 10 in combination with an additional conventional duct 30 and cover elements 31 used with every opening 12 . 13 are connected. In the embodiment shown, the knee is configured with a rectangular section, in adaptation to the rectangular section of a conduit with which the knee is used. It is understood that many conduit designs with widely varying dimensions are available. The construction of the knee housing 11 will be adjusted accordingly.

2 put the knee 10 from 1 in a typical installation where the inlet 21 the pump assembly 20 with the shell 32 an evaporator unit 33 is operationally connected.

In a preferred embodiment, the knee housing includes 11 a channel to lay additional cables, breathers and additional pipes 34 to allow. In the illustrated embodiment, the channel 40 by providing a partition 41 formed by the rear wall of the base element 14 protrudes and a channel 40 from a region of the base member that houses the pump assembly 20 absorbs, divides.

The pump arrangement 20 itself will now be described in further detail in particular with respect to 6 and 7 described. The pump arrangement 20 contains a pump in a pump housing 51 that has a pump inlet 52 and a pump outlet 53 having. The pump inlet 52 stands with a reservoir 54 integral with the pump assembly 20 is formed, in fluid communication. The reservoir has an inlet that houses the pump assembly inlet 21 forms.

In the preferred embodiment, the pump assembly includes 20 a float switch assembly to cause activation of the pump when the fluid level within the reservoir reaches a certain level. Preferably, the float switch is configured to trigger an alarm and / or prevent continued operation of the air conditioning system if the fluid level reaches a second, higher level, e.g. B. can display a blockage in the system.

A typical float switch assembly is shown, wherein a housing is in the form of a sealed finger 55 from the pump housing 51 in the reservoir 54 depends. Within the finger 55 There are three axially spaced sensors (not shown) each responsive to a magnetic field generated by a magnetic float 56 that induces the finger 55 surrounds and is forced to move axially in relation thereto. Typically, the magnetic float contains 56 a disc-shaped magnet mounted on a foam plastic float material, such as foamed polystyrene. Typically, the sensors are of the Hall effect semiconductor type.

Of the bottom sensor has the effect of turning off the pump when the Fluid level in the reservoir drops. The middle sensor has the effect of activating the pump when the fluid level begins to increase. The top sensor works when the fluid level is a height which indicates that the pump capacity has been reached, which may be one Indicates blockage in the air conditioning pipe arrangement. typically, This sensor will trigger the activation of an alarm.

Prefers The pump is capable of producing about 14 liters of water at zero pressure altitude Hour to pump.

The pump assembly and the elbow of the present invention provide a number of advantages over existing arrangements. For example, the conduit allows the pump assembly to be mounted such that the reservoir is horizontal in both left-facing and right-aligned orientations. A typical problem with existing arrangements arises when the pump is not active. Condensate in the tubing and the conventional reservoir in the evaporator, which tends to be a certain distance away from the pump, tends to siphon through the pump, which is usually at an elevated position, to drain. This leads to difficulties in priming the pump on restart, and even if the pump can be restarted, this is done with a considerable noise, since a large amount of air is sucked through the pump. By integrally enclosing the reservoir, the pump assembly allows sufficient condensate to remain in the reservoir so that the pump inlet 52 remains covered to thereby avoid difficulties and noise that occurs when the pump occurs. Typically, a one-way valve may be installed between the pump inlet and the pump outlet to avoid siphoning. Further, the compact construction property means that it can be easily accommodated within the knee of the air conditioning duct while leaving enough space for other wiring and piping.

Claims (7)

Lead knee ( 10 ) with a pump arrangement ( 20 ), with the lead knee ( 10 ) a first opening ( 12 ) and a second opening ( 13 ) and a pump arrangement ( 20 ) receiving base element ( 14 ) and a lid ( 15 ); the pump arrangement ( 20 ) a pump and a reservoir ( 54 ); the pump arrangement ( 20 ) a pump assembly inlet ( 21 ) and a pump assembly outlet ( 22 ), and wherein the pump assembly inlet ( 21 ) with the reservoir ( 54 ) is in fluid communication with the reservoir ( 54 ) has a reservoir inlet in fluid communication with a first fluid-carrying tube of an air conditioning installation; the pump assembly outlet ( 22 ) is in fluid communication with a second fluid carrying tube of an air conditioning installation; the pump arrangement ( 20 ) within the base element ( 14 ) of the elbow ( 10 ) is mountable such that the lead knee is selectively installable in either left-sided or right-sided configuration, the reservoir ( 54 ) remains horizontal in both orientations. Lead knee ( 10 ) according to claim 1, wherein the pump arrangement ( 20 ) a float switch arrangement ( 55 . 56 ) configured to cause activation of the pump when a fluid level within the reservoir exceeds a first predetermined level. Lead knee ( 10 ) according to claim 2, wherein the float switch ( 55 . 56 ) is adapted to cause activation of an alarm when the fluid level within the reservoir exceeds a second predetermined level, the second predetermined level being greater than the first predetermined level. Lead knee ( 10 ) according to claim 2 or claim 3, wherein the float switch ( 55 . 56 ) is adapted to stop operation of the pump when the fluid level within the reservoir falls to a third predetermined level. Lead knee ( 10 ) according to one of claims 2 to 4, wherein the float switch assembly comprises a sensor housing ( 55 ), which enters the reservoir ( 54 ), at least one sensor, preferably of the Hall-effect semiconductor type, receives at a position defining each of the predetermined levels, and a magnetic float ( 56 ) which is forced to move axially around the sensor housing. Lead knee ( 10 ) according to any preceding claim, further comprising a one-way valve between the pump assembly inlet ( 21 ) and the pump assembly outlet ( 22 ) having. Lead knee ( 10 ) according to any preceding claim, wherein the pump assembly inlet ( 21 ) at 90 ° to the pump assembly outlet ( 22 ) is oriented.