FR2480140A1 - Air closure for storage hopper - has double acting ram which acts on rack displacing butterfly air admission valve - Google Patents

Abstract

The closure selectively admits air and allows it to escape for a pulsating chamber of a piston operated hopper (1). It gives cyclic opening and closing of pipework (8) connected to the chamber, under action of a control. The closure is by butterfly valve (9) controlled by a double acting ram following an oscillating movement on its axis. The ram has a piston fixed to a rack, displacement of which controls rotation of the butterfly valve. The ram is fluid supplied by a timer controlled distributor.

Description

 The present invention relates to the separation by densimetric classification in a liquid medium of grain products of different densities in a plunger tank where the liquid is subjected to pulsations pneumatically controlled by admission of compressed air into a chamber communicating with the separation chamber, the bottom consists of a grid immersed in the liquid. In the bed above the grid, the products to be classified are separated into two superimposed layers, a lower layer composed mainly of high density products and an upper layer composed of low density products. It then becomes easy to discharge the products of the two aforementioned layers separately.

 The invention relates more particularly to the admission of compressed air into the pulsation chamber of such a piston tank and / or the exhaust of air from said chamber.

 A known solution consists in providing air intake and exhaust pipes, each of them being cyclically open and closed at the end by a shutter disc secured to the rod of a jack, when said rod, rapidly displaceable according to the axis of the piping, under the action of the actuator control fluid, reaches one or other of its two end-of-travel positions.

 This solution has the drawback of causing a significant impact of the obturator disc against the end of the piping, at each closing operation of the latter. It is then necessary to use special cylinders provided with particularly effective damping means.

Maintaining the shutter disc in the closed position also requires the use of a large force, which requires the use of cylinders that are largely dimensioned, hence a high consumption of control fluid.

 The main object of the invention is to avoid the drawbacks inherent in the above-mentioned solution.

 It relates to an air intake and / or exhaust device for the piston chamber pulsation chamber, formed by a shutter capable of cyclically opening and closing an air pipe connected to said chamber, under the action of a control member, characterized in that said shutter is constituted by a butterfly valve mounted on the piping, and controlled by a double-acting cylinder according to an oscillating movement around its axis.

 According to a first form of the invention, the jack comprises at least one piston to which is fixed a rack whose displacement controls the rotational drive of the axis of the butterfly valve.

 According to a second form of the invention, the jack comprises a piston provided with a rod, said rod being articulated at the end of a connecting rod whose other end is coupled to the axis of the butterfly valve driven in rotation by said connecting rod.

 Regardless of one or the other of the two aforementioned forms, the cylinder is supplied with fluid from a distributor controlled by a timer for programming the operation of said cylinder.

 The invention will be better understood by referring to the description which follows, given with reference to the appended drawings, relating to two particular embodiments given by way of nonlimiting examples.

Figure 1 is an overview of a piston container provided with the device according to the invention;
FIG. 2 illustrates a first embodiment of the device shown partially in side view, and partially in section, perpendicular to the axis of the butterfly valve
Figure 3 is a section along line AA of Figure 2
Figure 4 is a view similar to that of Figure 2 corresponding to a second embodiment of the device
FIG. 5 is a section along line BB in FIG. 4.

 In FIG. 1, the reference numeral 1 designates the pulsation chamber of a piston tank for the separation of grain products of different densities. The chamber 1 is supplied with water by a tube 2. Inside the chamber 1, the water is subjected to pulsations controlled pneumatically by admission of compressed air, under conditions which will be explained below. Said pulses are transmitted to the water contained in a separation chamber 3 situated above chamber 1, said chambers communicating with one another. The bottom of the chamber 3 is constituted by a grid 4 in the form of a perforated table which is immersed in water. In the bed 5 located above the grid 4, the products are separated under the effect of pulsations, into two superimposed layers. The products of the lower layer, of high density, are evacuated by the tube 6 which is provided for the lower part of chamber 1, while the products of the upper layer, of low density, are evacuated with water by overflowing of the latter out of chamber 3.

 The foregoing description relates to the provisions relating to any conventional piston container. Or will now describe the characteristic arrangements of the invention, namely, the means for admitting the compressed air inside the chamber 1 as well as the means for exhausting the air from said chamber .

 The reference 7 designates a compressed air manifold connected to the chamber 1 by a pipe 8. On the pipe 8, and preferably inside a sleeve inserted thereon, is mounted a butterfly valve 9 capable of ensuring cyclically the opening and closing of said piping, more precisely the opening and closing of the passage that said piping establishes between the manifold 7 and the chamber 1 for the admission of compressed air. The butterfly valve 9 is actuated for this purpose by a double-acting cylinder, under conditions which will be specified with reference to the description of the following figures.

 The reference 10 designates an expansion pot connected to the chamber 1 by a pipe 11. On the pipe 11, and preferably inside a sleeve inserted thereon, is mounted a butterfly valve 12 capable of ensuring cyclic ment the opening and closing of said piping, more precisely the opening and closing of the passage that said piping establishes between the chamber 1 and the expansion pot 10 for the exhaust of compressed air. The butterfly valve 12 is actuated for this purpose by a double-acting cylinder, under conditions which will be specified with reference to the description of the following figures.

 It goes without saying that the operation of the butterfly valves 9 and 12 is controlled alternately.

 In Figures 2 and 3, there is shown a first embodiment of the invention with reference to the control mode of the butterfly valve 9. It is understood that the provisions are identically applicable to the control of the butterfly valve 12 .

 According to these figures, the control member of the butterfly valve 9 is constituted by a double-acting cylinder 13 of the so-called rack type. The cylinder 13 comprises a piston in two longitudinally spaced parts which are made integral by a rack 14 The end chambers of the jack are alternately supplied with fluid from a conventional distributor 15 controlled by a timer 16 for programming the operation of the jack 13. Under the action of the control fluid, the piston of the jack 13, and consequently, the rack 14 makes rapid longitudinal movements back and forth, the movement of the rack 14 controls, by means of a coupling 17, the rotary drive, in an oscillating movement, the axis 18 of the butterfly valve 9 which, therefore, cyclically opens and closes the passage of compressed air.

it would be possible, as a variant, to provide a double-acting cylinder 13 comprising two separate pistons, each of them being provided with a rack driving in rotation the axis 18 of the butterfly valve 9. The two pistons of such cylinder are then ordered according to spacing and rap sequences
successively alternately.

 Whatever its structure, the cylinder 13 of the link-type type is advantageously mounted on a console 19 fixed to the piping 8, and more precisely to the housing of the butterfly valve 9 constituted by the cuff 20 inserted on said piping.

 In FIGS. 4 and 5 which illustrate a second embodiment of the invention, the same references have been kept as in the preceding figures to designate the identical or technically equivalent elements.

 The double-acting cylinder 13 is here a conventional cylinder whose rod 21 is articulated at one end of a connecting rod 22 whose other end is coupled to the axis 18 of the butterfly valve 9. Said butterfly valve is thus driven in rotation according to alternating oscillation sequences, under conditions analogous to those which have been explained previously with reference to FIGS. 2 and 3.

 The object of the invention which has just been described has, compared with the prior art, important advantages.

 A butterfly valve constituting a balanced shutter, the forces to be brought into play for its control are significantly lower than with conventional shutters. it then becomes possible to use cylinders of reduced diameters whose consumption of control fluid is particularly low.

 Although the invention has been described with reference to two particular embodiments, it goes without saying that it is in no way limited thereto, and that modifications can be made to it without departing from its field.

 The butterfly valve 9 or 12 with circular profile, shown in the figures, may possibly be replaced by a butterfly valve with rectangular profile forming a shutter. This possibility has the advantage of adapting the type of butterfly valve to the section of the piping on which it is inserted.

 The invention is also applicable to any type of piston tank other than that illustrated in FIG. 1, and in particular to piston tanks where the air intake and / or exhaust takes place within the liquid itself. , inside the pulsation chamber.

We can, of course, replace any of the means described by a technically equivalent means.
The invention therefore covers, in addition to the examples shown, their different variant embodiments.

Claims (4)

1. Air intake and / or exhaust device for  piston chamber of pulsation chamber, formed by a  shutter capable of cyclically ensuring opening and  the closure of an air pipe connected to said  chamber, under the action of a control member, charac  terized in that said shutter is constituted by a  butterfly valve mounted on the piping, and controlled  by a double-acting cylinder following a movement d  cillation around its axis. 2. Device according to claim 1, characterized in  that the cylinder comprises at least one piston to which is  fixed a rack whose movement controls the  drag in rotation of the axis of the butterfly valve. 3. Device according to claim 2, characterized in  that the cylinder comprises a piston provided with a rod, the  said rod being articulated at the end of a connecting rod  the other end of which is coupled to the axis of the van  do butterfly. 4. Device according to one of claims 2 or 3, ca  characterized in that the cylinder is supplied with fluid at  from a distributor controlled by a timer  programming of the cylinder operation.