BE887612A - CARTRIDGE-TYPE VALVE FOR QUICK REPLACEMENT OF THE VALVE HEAD AND SEAT - Google Patents

Description

       

  "Cartridge type valve for quick replacement

  
The head and seat of the valve "The present invention relates to an improved valve and in particular to a valve having a cartridge which allows the replacement of the valve head and the valve seat in a very short time without detaching the body of the valve of the pipeline in which the valve is incorporated.

  
In general, it is desirable that the valves used in the pipes of the various industrial installations can be repaired as quickly as possible during periodic inspections or repairs in the event of a breakdown. It is also hoped that the repair can be made while the valve is in the pipeline. In the case where the valve is incorporated in a tube in which radioactive or toxic substances flow, the need to carry out repairs quickly is even greater and, moreover, care must be taken to avoid the dispersion of liquids containing toxic radioactive substances. same

  
if we take sufficient preventive measures,

  
it is obviously preferable that hazardous materials are treated without having to be handled directly.

  
With regard to ball valves, we

  
proposed and used the Gachault valve which can be dismantled in three parts (Publication of the Japanese patent

  
n [deg.] 28.836 / 1969 "Ball valve"). The valve of this type has a structure such that the body of the valve

  
in the center can be removed by unscrewing the bolts

  
and the nuts connecting the flanges on both sides of the body, it therefore responds to the concern of proceeding quickly and easily. Disassembly of the valve has an influence on the whole of the tubing and it cannot be avoided that liquid spills in the valve.

  
As another improvement to the valves, the top feed type ball valve may be indicated. This valve can be assembled and disassembled simply by lifting the upper part

  
of the valve; the ball portion of the valve can be removed by removing the cap and releasing the valve attachment. The valve can therefore be manipulated while it is in the pipeline and there is no dispersion of liquid. In addition, visual inspection of the internal part of the valve is relatively easy. The release of the seat attachment, however, presents difficulties and takes time. Due to this structure, liquid and mud can accumulate in the valve and be contaminating during handling.

  
The object of the present invention is to provide

  
a valve thanks to which the maintenance time is considerably shortened. It is also intended to provide a particularly suitable valve

  
for use in a nuclear energy installation in areas with a high level of radioactivity.

  
These and other objects can be achieved in accordance with the present invention by incorporating the valve head and the valve seat into a cartridge which can be mounted and dismounted on a housing type valve body. Furthermore, these goals can still be achieved in accordance with a preferred embodiment.

  
of the invention, using a mounting device

  
with bayonet to mount and dismount the cartridge on

  
the valve cap.

  
Other advantages and characteristics of the invention will also emerge from the description

  
which follows from several embodiments given to

  
illustrative title with reference to the accompanying drawings

  
wherein :

  
- Figures 1 to 5 show a main embodiment of the present invention applied to a ball valve.
- Figure 1 is a section in a plane along the line of fluid flow and comprising the cap tail;
- Figure 2 is another sectional view of the plane along the fluid flow line, but transversely to the tail of the cap;
- Figure 3 is a partially cut view of the valve body and the cartridge, the internal parts of which are removed to show the enclosure of the cartridge;
- Figure 4 is a side view of the cartridge in the direction of arrow "A" in Figure 3;

   and
FIG. 5 is another side view of the cartridge according to arrow "B" in FIG. 3.
- Figure 6 is another example of a main embodiment of the present invention applied to a valve; half of the figure being a side elevation and the rest being a sectional view.
- Figures 7 to 11 show a preferred embodiment of the invention also applied to a ball valve.
- Figure 7 is a sectional view similar to Figure 1, in a plane along the fluid flow line and includes the tail cap;
- Figure 8 is a plan view of the valve from which the cap has been removed
- Figure 9 shows like Figure 3 a section of the valve body and the cartridge, whose internal parts have been removed to reveal the enclosure of the cartridge;

  
- Figure 10 is a side view of the cartridge in the direction of arrow "C" in Figure 9; and
FIG. 11 is another side view of the cartridge in the direction of the arrow "B" in FIG. 9.
- Figures 12A and 12B are representations of the preferred embodiment. - Figure 12A shows the step during which the cap must be fixed to the valve body in which the cartridge is placed; and
- Figure 12B shows the stages of assembly and disassembly of the cartridge which is introduced into the cap.

  
In the figures, the densest hatched parts constitute the cartridge.

  
According to the main embodiments, the valve of the housing type according to the invention is a valve comprising a valve body, a valve head and a valve seat, and a cap and a cap tail, characterized in that that the valve body is of the housing type, the valve head and the valve seat are contained in a cylindrical cartridge, the bottom of which is closed and comprising fluid flow passages, and the cartridge can be assembled and disassembled on the housing type valve body.

  
A ball valve is described below,

  
a typical valve to which the present invention is applicable, with reference to the accompanying drawings.

  
As can be seen in Figures 1 and 2, the valve body 2 is of the housing type comprising

  
a housing for receiving the cartridge 10. The enclosure 11 of the cartridge 10 which is mountable and demountable from the body space has the form of a cylinder with closed bottom having passages 12 and 13 for the flow fluid. In the enclosure 11, the ball 3 is held by valve seats 4A and 4B which

  
face each other. The valve seats 4A and 4B are made of a suitable substance such as Teflon "chosen for the use of the valve. One of the seats 4B is fixed to the enclosure 11 and the other seat 4A can be moved by the adjusting element 5 to ensure proper contact with the ball 3.

  
The adjustment element is moved by rotating it to adjust the engagement of the external thread 51 on the external surface of the adjustment element and the internal thread 15 of the internal surface of the passage 12, and 1 'is fixed. adjustment element in suitable position thanks to fixing bolt 16.

  
The plane crossing the flow passage

  
fluid 13 of the enclosure 11 of the cartridge is, as shown in Figures 3 and 5, a chamfered plane 14 inclined within the lower part. The end of the seal 21 fixed to the valve body 2 has a shape matching the shape of the abovementioned chamfered plane and in this way

  
the close contact between the chamfered plane and the joint constitutes an excellent seal against the fluid.

  
When the enclosure 11 of the cartridge is placed in the space of the valve body 2, the lateral passage of the enclosure is, because of the effect produced between the above chamfered plane and the seal, pushed towards the valve body 2 (to the left of the figures) and the seal 22 extending between them maintains the seal

  
and prevents the passage of the fluid in the space between the cartridge 11 and the valve body 2.

  
As is apparent from the explanation given above, the densest hatched parts in the figures, in particular, the chamber 11 of the cartridge, the ball 3, the valve seats 4A and 4B and the adjustment element 5 in the enclosure, constitute the cartridge
10.

  
When we check the valve, we unscrew

  
bolts 61 to remove cap 6 and tail

  
cap 7 ,, the cartridge is then ready to be extracted outside the body. If repair is necessary due to erosion or

  
corrosion, replace the cartridge with a new one and re-attach the cap. The valve is

  
thus ready to be reused.

  
The old cartridge can be repaired later, after a sufficient time, by being disassembled and, if necessary, certain parts are replaced before reassembly.

  
If you want to easily mount and dismount the cartridge 10 on the valve body 2, it is recommended to provide the chamber 11 of the cartridge with a groove 17 on the internal surface of the upper part and to use a device which cooperates with the groove to hold the enclosure of the cartridge.

  
The present invention is applicable not only to a ball valve of the type mentioned above, but also to valves of other types, such as gate valves, check valves and ball valves. For example, Figure 6 shows a tap-vann � to which this cartridge is applied. In FIG. 6, also the parts represented in the densest hatching constitute the cartridge.

  
In addition to the main embodiment described above of a cartridge type valve comprising a valve body, a preferred embodiment of the invention comprises a valve head and a seat. valve, and a bonnet and a bonnet tail, in which the valve body is of the housing type, the valve head and the valve seat are contained in a cartridge comprising a cylinder with closed bottom and having passages for the flow liquid, the valve is characterized in that one of the parts

  
from the bottom of the cap and the top piece of the cartridge have at least two radial extensions, and the other part is provided with a groove which engages with the extensions and the groove has passages for

  
extensions to allow their engagement and release.

  
As shown in Figures 7 to 11, the preferred embodiment comprises in addition to the main embodiment means for engaging the cartridge and the cap.

  
The improvement provided by this embodiment resides, as indicated above, in the fact that the cartridge 10 can be extracted at the same time as the cap is removed. This is achieved by providing two extensions or projections 62 at the bottom of the cap with a groove 17 on the internal surface of the cartridge 11, a groove which is in engagement with the projections, and

  
 <EMI ID = 1.1>

  
in the throat-

  
For the purpose of reassembling the valve after inspection, repair or exchange of parts, after having placed the cartridge 10 in the valve body 2, the cap 6 and the cap tail 7 are placed on the body. The cap must be lowered into the valve body as shown in Figure 12A, so that the projections 62, 62 enter the passages 18,18. The cap is rotated horizontally 90 [deg.], And then the projections 62, 62 are engaged with the groove 17 so that the cap 6 and the cartridge 10 can be brought into sealed contact by interposing therebetween a garnish. The assembly of the valve is completed by turning the bolts 61, to fix the cap.

  
If you want to remove the cartridge 10 for later inspection or repair, you unscrew the fixing bolts 61 and lift the cap. The cartridge 10 which is inserted into the cap is then automatically extracted from the body of the valve 2 as shown in FIG. 12B. Thus, the two steps of removing the cap and disengaging the cartridge can be carried out simultaneously.

  
It goes without saying that when the valve is mounted, the cartridge 10 can be introduced beforehand into the cap outside the valve body and be placed in the valve body in reverse order to that described above. above with reference to the figure
12B to mount the valve. This is desirable if mounting in the vicinity of the pipeline is to be done quickly. It should be considered that the present embodiment allows not only rapid assembly but also rapid attachment of the cartridge.

  
The example shown in the figures shows

  
the projections on the cap and the groove on the inner surface of the cartridge. Variations can be made, for example, a groove can be provided on the outer surface of the bottom of the cap and protrusions on the inner surface of the cartridge. The number of projections as required can be increased to three, at most four. The horizontal angle of rotation of the cap may be less than 90 [deg.] As long as the engagement between the projections and the groove is ensured.

  
As in the case of the main embodiment, this preferred embodiment can be applied not only to a ball valve but to other types of valves such as gate valves, check valves and ball valves .

  
As indicated above, the valve conforms

  
to the present invention allows very rapid inspection and repair by releasing the cartridge and if necessary by replacing it with another cartridge. It is easy to visually inspect the parts of the cartridge removed from the valve body and

  
to find the cause of a difficulty encountered. The housing-type valve body remains connected to the pipeline, and therefore valve verification and repair can be performed without disrupting the entire pipeline.

  
The present invention is of the greatest interest when applied in cases where

  
we must prevent the liquid from the pipeline - dispersing and depositing on the body and clothes of men. This is due to the fact that the quantity of liquid remaining in the present valve is much less than that of the common type valves because

  
of their difference in structure and in addition the remaining liquid is kept in the enclosure of the cartridge and it can be easily poured into a container for disposal. In particular, in the ball valves to which the present invention applies, the liquid remaining in the valve can be kept in the ball if the cartridge is removed then

  
 <EMI ID = 2.1>

  
The valve can be manipulated without having direct contact with the liquid, if the valve has the structure according to the preferred embodiment, or even

  
of the main embodiment, if the cartridge holding device is used.

  
If the liquid from the pipeline remains in half of the valve body and you want to drain the liquid, it is recommended to provide a valve body provided with a drainage nozzle at the bottom of the body.

  
It is understood that many modifications and changes may be made to the various embodiments described by specialists without

  
however, depart from neither the framework nor the spirit of the invention.

  
The valve according to the present invention

  
is particularly advantageous when it is used in installations for the treatment of radioactive substances as already mentioned. It may also apply

  
 <EMI ID = 3.1>


    

Claims (10)

1. Cartridge type valve for rapid replacement of the valve head and valve seat comprising a valve body 2, a valve head and a valve seat (4A, 4B), and a cap 6 and a cap tail 7, valve characterized in that the valve body is of the housing type, the valve head and the valve seat are contained in a cylinder-shaped cartridge 10 having a closed bottom and passages 12 for liquid flow, and the cartridge can be mounted and dismounted on the valve body of the housing type. 2. Cartridge type valve according to claim 1, characterized in that the valve is a ball valve. 3. Cartridge type valve according to claim 1, characterized in that the valve is a ball valve. 4. Cartridge type valve according to claim 2, wherein the cartridge 10 consists of a cylindrical enclosure 11 having a closed bottom with passages 12 and 13 for the flow of liquid, and a combination of valve seats 4A and 4B and a ball 3 which is held by the valve seats; the plane passing through the passage 13 of the cartridge is a chamfered plane inclined inside the bottom; and the valve body 2 has its housing having an internal shape matching the external shape of the cartridge 10 mentioned above. 5. Cartridge type valve comprising a valve body, a valve head and a valve seat, and a bonnet and a bonnet tail, wherein the valve body is of the housing type, the valve head and the seat valve are contained in a cylindrical cartridge with its bottom closed <EMI ID = 4.1>  and passages for the flow of liquid, characterized in that the lower part of the cap or the upper part of the cartridge has at least two radial projections and the other has a groove which engages with the projections and the throat is provided with passages for projections or to allow mounting and dismounting. 6. Cartridge type valve according to claim 5, characterized in that the valve is a ball valve. 7. Cartridge type valve according to claim 5, characterized in that the valve is a gate valve. 8. Cartridge type valve according to claim 5 wherein the cartridge 10 comprises a cylindrical enclosure 11 having a closed bottom and passages 12 and 13 for the flow of liquid, a combination of valve seats 4A and 4B and a ball which is held by the valve seats; the plane passing through the passage 13 of the cartridge is a chamfered plane inclined inside the bottom; and the valve body 2 comprises an enclosure having an interior shape matching the external shape of the cartridge 10 mentioned above, the projections 62, 62 are located at the bottom of the cap in positions symmetrical with respect to the center of the cap; the groove 17 is engaged with the projections around the internal surface of the cartridge 10; and the passages 18, 18 of the projections 62, 62 are provided in positions such that the cap is rotated by 90 [deg.] from the positions of the projections in the mounted valve. 9. Cartridge type valve according to one of claims 3 or 8, wherein the valve seat 4B is fixed in the enclosure 11 of the cartridge and the other valve seat 4A is in a variable position; the position being adjusted by adjusting the engagement between the internal thread 15 provided in the passage 12 of the enclosure 11 of the cartridge and the external thread provided on the external surface of the adjusting element 5. 10. Cartridge type valve according to any one of claims 1 or 5, the valve body is provided with a liquid drainage nozzle at the bottom of the cartridge housing.