US1709039A - Closing device for all fluids, particularly for liquids used in automobiles - Google Patents

Description

April 16, 1929. L. I. POIRMEUR 1,709,039

CLOSING DEVICE FOR ALL FLUIDS, PARTICULARLY FOR LIQUIDS USED IN AUTOMOBILES Filed Nov. 1926 2 Sheets-Sheet 1 Z Poke V150,;-

April 16, 1929. L. I. POIRMEUR 1,709,039

CLOSING DEVICE FOR ALL FLUIDS, PARTICULARLY FOR LIQUIDS USED IN AUTOMOBILES FiledNov. 1926 2 Sheets-Sheet 2 Patented Apr. 16, 1929.

LOUIS ILDEVERT POIRMEUB, OF MERU, FRANCE.

CLOSING DEVICE ALL FLUIDS, PARTICULARLY FOR LIQUIDS USED IN AUTOMOBILES.

Application fi1ed November 1, 1926, Serial No. 1%,682, and in France November 10, 125551 It is sometimes desirable to close the flow or a thud 111 a piping to make up for the lack of water-tightness arising in the cooks for any reason whatever. I

My invention relates to a closing device adapted for use in particular on the gasoline r they are not quite new. Moreover they do not work in a constant manner; sometimes they get wedged and sometimes they close under order to avoid any-loss of gasoline to close the cock whenever the automobile steps, which means the driver is obliged to lift the IIlOtOlllOOCl in most cases unless he is obliged as in the case of the Ford car to slip under the carriage. This is anyway a very uncomiortable and often dirty movement.

it haveimagined to provide at any point of the piping leading to the carburettor for instance, a three way cock and a normal piping leading thereto wherein a spring-urged needle is adapted to move. This needle when closed is urged by its spring to close the passsage oi the iiuid by engaging a recess provided therefor in the cock. The needle is suitably opened for instance by a yielding cable whereby it compresses its spring. end of the cable passes into a box wherein it is secured to a spring urged ar alignment actuated by a swivel-joint lever disposed near the driver.

According to my invention it may replace this control arrangement by a controlling part provided with a helical slz pe. In this case the controlling part comprises a cylindrical box provided with a hole at its rear end where through the cable is adapted to pass. The cover of the cable is on thecon trary secured by its extremity to thisrear part oi: the box.

lnsidethe box is disiosed a helical slope The other along which is adapted toinove the part hearing the lever to which is secured the end oi. the cable. Thusit is evident that when the cable holding lever is rotated in the proper direction, it will slide inside the box and draw along with it more or less the cable. The said lever must be adapted to be blocked and to remain stationary at each end of its track. In view oi this stop notches can be provided at each end of the helical slope which the lever holding part can engage.

The helical slope may be cut out of a block independent "from its casing; in this case it is yieldingly'secured thereto. The lever holding part can be provided with a shoulder constituted by a metallic wire inserted in a slot and adapted to bear against a corresponding shoulder of the part bearing; the helical slope so as to prevent the outward movement of the lever-holding part.

I have described hereinbelow and shown in appended drawings, by ay of etiample, two forms oi execution of my invention.

Fig. 1 is a general view of myinvention used with an automobile} Fig. 2 is a cross section of the cock and needle.

Figs. 3, 4 and 5 illustrate a first form of execution of the contii-ollinp; part consisting; in this case in a spring urged arrangement adapted to move between two given positions.

' Fig. 3 is a view oi the inside of the control box the cover oi which is supposed to be moved. I

Fig. 4 is a section along line A. B of Fig. 3 and Fi 5 a section along line C, D oi Fl 3.

Figs. 6 to 12 illustfate a second term of execution oi" the controlling part consisting; in a helical slope guiding the (silica-holding lever.

Fig. 6 is a Front view oi the apparatus.

Fig. 7 is a vertical section taken along; the line 77 of Fig. (land supposed seen in the direction of the arrows. p i

Fig. 8 is a side view of: the inside of the apparatus; the casing being supposed out along a central planeand the lever at an end of its path.

Fig. 9 shows the helical slope developed on a plane together with the corresponding part oi the levenholding part, the apparatus being supposed in the position shown on Fig. 8. Fig. 10 is a view similar to Fig. 8 with the lever at the other end of its path.

7 three ways 3, 4, 5 the normal pipe 5 of which series to guide the needle 6 which the spring 7 urges into the, recess 8 of the cook 2. The

- body 9 of the needle 6 slides moveover in the connection 10 screwed on the pipe 5 and against which the spring 7 bears as well as the box or casing 11 enclosing the end of the yielding cable 12 secured to the needle. The

casing 11 can be'constituted by'a Watertight tube, or in a more simple manner by a metallic cover of the Bowden type, but in this case the-connection 10 must comprise a watertight arrangement. In View of this, the body ;9 of the needle 6 is provided at its'top end with a second needle 34 bearing against a seat provided in the connectlon 10 when the cock is open.

'The other end of the cable 12 is connected withthe controlling part which as explained he-reinabove, may be either a spring urged arrangement or a lever cooperating with a helical slope. I

In the first case (Fig. 3, 4 and 5) the other end of the'cable 12 passes into a box 13, the

bottom 14 of which bears thesheath 11, and is connected with the movable plate 15. This plate shows lateral lugs 16, 17, 18, 19 at each end. The conical lugs 16 and 17 slide in the apertures 20, 21 of the guiding parts 22, 23 secured normally to-the bottom 14 and the th 18, 19 are capped by the'coils of v a spring 24 which constantly urges the'plate 15 towards the upper end of the apertures 20,21 the breadth of which is smaller at this point so as to prevent the plate from escaping. 7

The plate 15 is made thicker at 25 so as to guide a fork 26 securedto a lover of the first type the swivel joint. bearing 27 of which rot-ates inside the central opening 28 of the cover 29 of the box13 and the lever proper 30 being outside the box.

The bottom lat is secured to a suitable part by the screws 31passing through the holes 32 and the cover 29 isjsecured to the bottom 14 by a bayonet joint 33 for instance.

Vhen it is desired to shut off the gasoline -'it is sufficient to actuate the lever 30 whereby the fork 26 bears against the part 15 and the cable 12 is released and thereby also the needle 6 which is urged by the spring 7 into its recess 8.

To admit the gasoline the lever 30 is rotated in the opposite direction so as to tree the plate 15 urged by its spring 24 towards the top of the apertures whereby it pulls the cable 12 and the needle 6 which compresses its spring 7.

V I will now describe the second form of execution of the controlling part according to my invention.

Referring to Figs. 6 to 12, 32 is the casing of the apparatus comprising a cylindrical box open at one end. At this end the casing shows a lateral flange 33 provided with holes 31 for the passage of the screws 35 which allow the apparatus to be secured to any suitable point such as the control board 36 of an automobile for instance.

At its other extremity the casing comprises a tubular connection 37 where through the cable 12 can pass. The casing or sheath 11 of this cable abuts against the connection 37 at 38 (Fig. 10).

Inside the casing isdisposed the hollow ,mctal block 39 bearing the double helical slope i0 shown developed on Figs. 9 and 11. This block can be secured inside the casing by two screws 41 passing through two corresponding holes of the envelope and engaging two slots 42 (see especially Fig. 12) provided in the block at each end of the slope. The block is yieldingly secured to the casing by a strong coil spring 43 disposed inside the block 39 (see especially Fig. 7) and bearing on one hand against the bottom of the box and on the other against a. shoulder 45 (Fig. 7) of the block 39. Thus it is easy to see the bottom of the slots 42 is constantly pressed against the screws .1.

-The lever-holding part 46 can slide inside the block 39. This part is constituted by a cylindrical body 47 hearing a piston-like part 48 sliding inside the casing 32; to the outside of the piston is secured the hand-lever 49 through which is bored an axial hole 50 passing throughoutthe said hand-lever and allowing the cable 12 to pass through it (see on Fig. 10 a cross-section of the hand-lever). The cable is secured to the hand-lever by lneans of a tightening screw 51.

The cylindrical body 47 shows on the part which slides in the block 39 a slot 52 where- .in is disposed a. small bit of wire 53 (Figs.

7 and 12) adapted to bear against the shoulder 45 of the block 39. This bit of wire 53 serves to limit the outward sliding motion of the lever holding part 46.

The lever-holding part 46 comprises besides on'both sides of the cylindrical body 47 two parts 5-1 sliding on the helical slope to which as shown on Figs. 9 and 11 comprises at 55 two notches adapted to stop the parts 54.

The apparatus works in the following manner:

Suppose the apparatus is in the position shown on Figs. 10 and 11 corresponding to the closing of the cock. It keeps this position ltlt) under the action normally exerted on the cable at its other end by the spring 7. This action is however not great enough to balance the action of the spring 43 on the block 39.

Now if the lever 49 is turned in an anticlockwise manner, the parts 54 will slide on the helical slope and thereby the leveris pushed inward in the direction opposed to the tension of the cable, until the closing device at the other end of the cable is completely open, and the sccondneedle 34 (Figs. 1 and 2) bears against its seat, which happens when the parts 54, which slide on the helical slope 40, have traveled over the two-thirds of their way. From this moment, the cable 12 is locked by the needle, at its other end, and thence, the block 39, which bears the helical slope is obliged to yield under the push exerted by the parts the said block is then pushed inward the casing 32', the slots 42 sliding along the screws 41, and it compresses the strong coil spring 43, until the parts 54 are heldback by the notch 55.

In this position the coil spring 43 exerts constantly a strain upon the Whole including the block 39. the lever holding part 48, the cable 12 and the needle 34 Which at the other end of the cable is then constantly yielding-1y pressed against its seat.

This yielding closing permits then to automatically take up the slack Which would occur in the transmission for any reason.

l/Vhen the cock is to be closed it is sutlicient' to rotate the lever in the opposite direction whereby it returns to its original closing posit-ion F (Fig. 6) under the action of the cable.

As may be seen, the mounting of the app! ratus is very easy, all its parts are easy to get at for cleaning and lubricating; purposes. I Refer-rm5 to the above description of the entire de ice, it easy to see the needle cannot leak like an ordinary cool; and remains constantly in the position it is given under all circumstances. Besides toe amaaratusl has the advantage of beingnear the hand of the driver who can at any moment shut ell the gasoline as he cuts oil the ignition. No loss o'l gasoline can thus occur at the carburettor and the risks oi tire are greatly minimized.

Of course the cock control given by way of example should not limit the scope of the invention and may be replaced by any other equivalent system such as a rod arrangement without departing from the spirit of the invention.

I claim:

1. In a means for operating a cable for the control of a valve, a casing; open for the passage of the cable, a block held against other than a sliding movement in the casing, said block being formed with inclined guid Ways, member rotatable in the casing and block and having projections to bear on said other than a sliding movement in the casin guideways to move the member longitudinally of the casing in its rotation relative to the block, means for connecting the cable to said member, and means to cause the block to move longitudinally of the casing in the relacontrol of a valve, a casing open for the passage ofthe cable, a block held against other than a sliding movement in the casing, a member mounted for relative rotation in the casing, the member and block cooperating to compel a longitudinal movement of the mem ber dru'ing its relative rotation, means for connecting the cable to said member, the complete relative rotative movement of the member compelling a longitudinal movement thereof in excess of such movement as permitted by the cable, and means to cause lonpitudinal movement of the block to compensate for such additional relatively longitudinal movement of the member.

3. In a means for operating a cable for the control of a valve, a casing; open for the pasof the cable, a block held against other than a sliding movement in the casing, a member mounted for relative rotation in the casing, the member and block cooperating to compel a longitudinal movement of the member during; its relative rotation, means for connecting the cable to said member, the

complete relative rotative movement of the member compelling a longitudinal move mentthereof in excess of such movement as permitted by the cable, and means to cause longitudinal movement of the block to compensate for such additional relativtdy longitudinal movement of the member, such. means exerting a yielding tension on the cable.

4. In a means for operating a cable for the control of a valve, a casing open for the passage of the cable, a bloclt held against to) a member mounted for relative rotation in the casing, the member and block cooperating; to compel a longitudinal movement of the member during its relative rotation. means For connecting the cable to said member. the complete relative rotative movement oi the member compelling a longitudinal movement thcreot in excess of such movement as per mitt-ed by the cable, and a spring to cause longitudinal movement of the block to com pensate for such additional relatively longitudinal movement of the member.

5. A. means for operating a cable for the control of valve, comprising a casing; open to the passage of the cable, a block mounted fo sliding movement in the casing, a spring for holding the block at its limitot sliding movement, said block being termed with inclined guideivays terminally provided with reversely-inclined holding portions, a member rotatable in the casing and formed with v projections to ride on the inclined guide- Ways of the block to compel a relatively longitudina-l movement. of the member during its rotation, and means for securing one end of the cable to said member, the limit rotative movement ofthe member'serving to move the cable to its limit and thereafter move the bloekjagainst the tension of said spring, whereby in limit operative position the projections of the member cooperate with the holding portions of the inclined guideways underthe holding pressure of the spring to prevent casual reverse movement ofthe parts.

6. In combination, a valve limited in its opening movement, a cable for operating the valve, and means for operating the cable,

said means including relative rotary memof its rotative movement to draw the cable to the limit permitted by the valve, and a spring permitting the other of said members to move longitudinally during' the remaining portion of the rotative movement of the cable connected member to cause the spring to exert a continuous tension on the cable.

Signed at Paris, in the county of Seine and State of France this twenty second day of October A. D. 1926.

LOUIS ILDEVERT POIRMEUR.

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