The present invention relates generally to containers under variable pressure and more particularly to condensers of heat-exchangers in a motor vehicle air-conditioning plant.
Containers of this type include, inter alia, a replaceable cartridge filled with desiccating granules. This cartridge is introduced into a tubular element defining an opening of the container to the outside. This opening can be closed by means of a plug provided with O-rings and which can be introduced by sliding into the tubular element. Inward displacement of the plug is limited by a stop means in the form of a circular shoulder on the internal surface of the tubular element.
To prevent the plug from coming out when the pressure in the container increases on operation of the plant, other detachable axial stop means can be located inside the tubular element in order to limit the outward movement of the plug.
For obvious reasons of safety, it is desirable for it to be impossible to remove the detachable axial stop means while an over-pressure exists inside the container. In other words, the operator must wait until the pressure inside the container has fallen practically to atmospheric pressure to be able to remove the plug to then have access to the inside of the tubular element in order, for example, to change the cartridge with desiccating granules.
A container is known from FR-2 798 456 in the form of a collector for a condenser of an air-conditioning plant. This collector includes a tubular element closed by a cylindrical plug, the outward displacement of which is prevented by axial stop means formed of a circlip in the form of a split elastic ring.
When the plug is in place in the tubular element, this circlip is introduced through the open end of the tubular element and placed in a circular groove provided on the internal face of the tubular element, close to its end. The plug includes at its end directed toward the circlip a circular peripheral recess matched to the form of the circlip in order to be able to receive this when the plug is pushed outwardly by an over-pressure in the container. Thus, when the plug is in abutment against the circlip, it is impossible to remove the circlip, which is then situated in the recess. It will therefore be necessary to wait until the pressure is sufficiently low for it to be possible to push the plug back slightly inwardly in order to be able to then remove the circlip.
Even if this device is generally satisfactory, putting the circlip in position is a relatively difficult operation which takes a certain amount of time and which requires a specialised tool. Moreover, machining of the internal face of the tubular element to prepare the circular groove acting as a housing for the circlip is an operation which increases the manufacturing cost of the unit.
The aim of the invention is to remedy these disadvantages by proposing a container of the type mentioned provided with outward axial stop means for the plug which are extremely simple both to use and to manufacture, while ensuring operator safety.
The object of the invention is a container under variable pressure connected to a tubular element defining an opening of the container to the outside, the said opening being able to be closed by a plug provided with sealing means and suitable to be introduced by axial sliding into the said tubular element, the said plug being associated with detachable axial stop means capable of cooperating with axial locking means provided in the said tubular element and allowing the said stop means to extend transversally in this in front of the outer end of the said plug to prevent removal of this when there is an over-pressure in the container, characterised by the fact that the said axial locking means of the said stop means include a first slot in the wall of the tubular element and a second slot diametrically opposed to the said first slot, and by the fact that the said stop means are suitable to be introduced transversally into the said tubular element through the said first slot to project outside the said tubular element through the said second slot.
In accordance with other characteristics of the invention:
The present invention will now be described, by way of example, with reference to the accompanying drawings, in which:
In the figures, identical or equivalent elements bear the same reference marks.
The container may be a heat-exchange condenser or any other container under variable pressure. In the case of the condenser, this pressure may drop to atmospheric pressure when the plant of which the condenser forms part is not in operation.
This container, which is itself known, will not be described in detail; it appears in the figures as a tubular element 1 connected to the container and defining an opening 2 of the container to the outside.
The opening 2 is closed by a plug 3 having the overall form of a cylindrical piston which is introduced by axial sliding into the tubular element 1. This plug is preferably made of aluminium and includes seal means including in the example shown two circular grooves 4 acting as housings for two O-rings 5.
The tubular element 1 includes on its internal face a circular shoulder 6 forming a stop organ defining the inward displacement of the plug 3.
When the plug 3 is in place in the tubular element 1 (see
This plate 7, which is preferably made of steel, is introduced transversally into the tubular element 1 through a first slot 8 in its wall to project outside the tubular element through a second slot 9 diametrically opposed to the first slot.
The first and second slots 8, 9 form means for axial locking of the plate when this is in the position shown in
When there is an over-pressure in the container and the plug is pressed against the stop surface of the plate, it is already very difficult to withdraw the plate 7 out of the tubular element 1, but to completely prevent its withdrawal, it is provided with a central through hole 10 able to allow passage of a central rod 11 arranged at the outer end of the plug 3. Thus, when the plug is pushed outwardly under the influence of the pressure in the container, the rod projects through this central hole 10 in the plate to lock any movement of withdrawal of the latter.
Safety can be further improved if the rod has a T-shape as shown in the figures. In this case, the central hole 10 in the plate 7 has an elongate form allowing introduction of the end of the rod through this hole when the plug is pushed upwardly by the over-pressure, after which the plug can be turned by approximately 90° to prevent it from descending again when the pressure decreases.
Preferably, the rod includes on the transversal element 12 of its T-shape two parallel lateral flats 13 allowing gripping by a tool to turn the plug 3. In addition, this form of the rod offers an excellent grip for subsequent withdrawal of the plug out of the tubular element 1.
In order to limit the displacement of the plate 7 towards its use position shown in
As a modification, the same stop function for the plate when it is placed in position can be obtained by an increased width of the rear part of the plate 7 which then has shoulders coming into abutment against the external surface of the tubular element 1.
To facilitate introduction of the plate 7 through the slots 8, 9 of the tubular element 1, the front end of the plate is preferably bevelled.
Lastly, to facilitate extraction of the plate, this advantageously includes one of more through or blind holes 15 permitting gripping by a suitable tool.
Finally,
It is, moreover, sufficient to provide such a raised edge at the front end of the plate 7. Of course, in this case the central hole 10 in the plate and the rod 11 of the plug can be quite simply replaced by this raised edge, which simplifies still more the manufacture of the parts. However, all these transversal locking means of the plate can be used in combination with each other.
The plate including an end with a raised edge can easily be manufactured in a stamping and punching press.
In summary, the means in accordance with the invention function in the following manner from a situation in which the plug 3 and the plate 7 are separate from the tubular element 1 of the container.
Firstly, the plug 3 is introduced by axial sliding into the tubular element 1 until it comes into abutment against the circular shoulder 6 on the internal surface of the tubular element. Then, the plate 7 is introduced through the slots 8, 9 in the tubular element until its shoulders 14 come into abutment against the internal surface of the tubular element. When the rod is a circular rod, the device is already in principle ready to function.
However, when the rod 11 of the plug has the form of a T, it is important to take care that it is, on introduction of the plug, oriented as shown in
The unit is disassembled in the reverse order. Firstly, the pressure must have been able to fall substantially to be practically equal to atmospheric pressure. To begin with, the plug must be turned through approximately 90° in the case of a T-shaped rod. The plug is then displaced inwardly by pushing on the rod sufficiently for it to be entirely disengaged from the central hole 10 in the plate 7. Then, the plate 7 can be withdrawn from the tubular element in order to allow withdrawal of the plug, which finally gives access to the inside of the tubular element.
A container is thus obtained provided with means for axial stopping of the plug which are particularly simple to employ and manufacture and which in addition give faultless safety for an operator who does not risk freeing the opening 2 while there is an over-pressure in the container.
Of course, the invention is not limited to the examples illustrated and described, but can be applied to any container in which the means described are advantageous.
Number | Date | Country | Kind |
---|---|---|---|
02 06030 | May 2002 | FR | national |
Number | Name | Date | Kind |
---|---|---|---|
4921123 | Mizioch | May 1990 | A |
5255815 | Renk et al. | Oct 1993 | A |
5405001 | Lillard | Apr 1995 | A |
5533802 | Garganese | Jul 1996 | A |
Number | Date | Country |
---|---|---|
1132695 | Sep 2001 | EP |
2798456 | Mar 2001 | FR |
2822518 | Sep 2002 | FR |
Number | Date | Country | |
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20030226850 A1 | Dec 2003 | US |