DE1665096A1 - Time sequencer with a plurality of predetermined progressive intervals - Google Patents

Description

"Time sequencer with a large number of predetermined ones
progressive intervals "

For this application, the priority of the corresponding USA application Ser. No. ί? 1β 411 of January 3, 1966 in
Availed.

The invention relates to a timer of the selection time intervals between gradual and sudden advancement or advancement.

Most timers of this type have a plurality of control knobs or drivers which are mounted on a cam disk and which, by rotating the same, provide a step-by-step progression through the programmed one
Ensure time cycle throughout. The step-by-step advancement is characterized by the progression of the control cam by an exact angular amount at high speed after a predetermined time interval.

009851/0736

In most cases, the amount of advancement, the rate of advancement, and the time interval are mean a mechanical locking or. Inhibition mechanism set. The locking mechanism is driven by a motor, the energy of which is stored in a locking spring will. After a predetermined amount of rotation of the locking mechanism, the energy of the spring is released, as a result of which the camshaft, which carries the control cams, advances very rapidly.

A disadvantage of these locking mechanisms described above is that the time interval for the advance the control cam is rigidly fixed and cannot easily be replaced or changed. According to the invention Possible ways of overcoming the aforementioned disadvantages are shown in the following Sections discussed.

One of these possibilities is to use an electronic lock that intermittently energizes the drive motor. An electronic locking device uses a timing circuit of a variable relaxation oscillator to power a silicon rectifier in series with the drive motor. The disadvantage of an electronic locking device is that it is too expensive.

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Another option is to use two motors, one motor to drive a cam actuating switch for determining the time interval and a second motor for turning the control cams on the timer. The second motor is then energized for a specified period of time by means of the cam actuator Switch operated by the first motor. The selection time interval is obtained from the presence by more than one switch actuating the cams, which is driven by means of the first motor, and which comprises means for selecting switch interconnects. The disadvantage is that that two motors are required for the timer. The cam actuating switch operated by the first motor is driven must always have returned to its starting position when the timer advanced or advanced is. This requirement makes the use of a reversed, cam operated switch with all of them resulting problems are necessary.

The device according to the invention contains a timer which has a single simple drive means, a first Cam device for determining the different time intervals for the advancement of the timer and a second cam device for determining the amount of Winicel advancement on the control cam of the timer. The first cam device is

009851/0736

connected to and driven by a drive device. The second cam device is connected to and driven by the drive device when the first cam device has actuated a pair of electrical contacts. This is a coupling between the first and second cam auxiliary means so that the first cam device of FIG the second cam device can be driven when it is rotated. The coupling closes one One-way clutch on because the second cam device is rotated a tighter or more permanent portion, as the first cam device,

The second cam device of the device according to the invention is always started and stopped at a specific point. This characteristic feature of the invention Device is by means of a magnetic coupling for coupling the second cam device to the drive means achieved after a predetermined time interval with the first drying device. The magnetic coupling is energized by means of a pair of contact members connected to the second cam device Condition kept. When the second cam device rotates the first cam device, both cam devices become then stop when the second call device the contact links connected to it opens. Both the first and second cam devices can be in one and in the other

009851/0736

SAD ORfGINAL

Turn direction. The first cam device rotates at a relatively slow speed until a predetermined time interval is reached is. Then the second cam device rotates and the first cam device rotates in the starting position. The second cam device is always rotated one revolution. The first cam device is rotated relatively slowly through part of a revolution and then starts a rapid movement together with the second cam device and with this one in synchronism. This is done by means of means for coupling the second cam means to the camshaft of the timer so that the camshaft moves when the second cam device rotates.

As the first and second cam devices of the present invention, unidirectional cam devices they no longer return to the initial state or to the zero position by means of a spring back, the contact members that are connected to the cam device can very quickly make the necessary Close contacts. The quick opening and closing. the contacts is essential for the good functioning of the Magnetic coupling required.

I am a further advantage of the timer according to the invention is characterized in that the contact members that

009851/0738

connected to the second cam device, icurz are brought together to continuously and rapidly drive the control cams of the timer can. Rapid progression can thus be achieved very easily.

Further features of the timer according to the invention will be apparent from the following statements.

A feature of the present invention is to provide a timer that operates at selected time intervals progresses gradually and also has a rapid advance.

Another feature of the present invention is to provide a timer that has a single, has a simple drive device that enables the gradual advance and the rapid advance, and wherein the drive device is an auxiliary means for rotating the device to achieve the time interval is the valle of step-by-step advancement.

Another feature of the present invention is that it provides a timer which is a first Cam device for determining the time interval of the step-wise advance of the timer and a second cam device for determining the angular magnitude of the advance of the control cams of the timer, the first and

009851/0736 bad original ... /,

the second cam device by means of a simple drive device are driven.

Further objects and features of the device according to the invention are taken from the following drawings in conjunction with the following description.

Pig. 1 is a perspective view of the invention Timer, partly on average,

FIG. 2 illustrates the interaction of the various, shown schematically in the diagram Transmission elements of the timer,

Figure 3 is a top plan view of the timer 3-3 from Pig. 4 and shows the interaction of the various gears of the transmission elements of the timer

4 is a partial side view of the timer; which represents the different transmission elements, the drive motor and the control cam,

Fig. B is the representation of the first phase of actuation the step control cam and the time base unit cam of the timer according to the invention,

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Pig. b is an illustration of the second phase of the step control cam and the timebase unit noise
and

Pig. 7 is an illustration of the operation of the third phase of the step control documents and the time base unit noctce of the invention Timer.

The present invention relates to a timer having a plurality of control nods, which are mounted on a camshaft so that they can be rotated with this and has a large number of control switches with the control cams can be operated together by these, characterized in that that the timer is a driving device, a first, a plurality of rising and falling Contours for the actuation of a plurality of contact members having cam device for defining a Time intervals for the port progression of the control, one second, contours for opening and! closing an attached Pair of. Contact members with rotation having Nocüenvorrichtung for fixing the Amount of port pacing of controls, tools for coupling the first cam device to the drive device, electrically operated tools for Koppeiu the second notification device with the drive device

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after rotating the first cam device by a predetermined amount, means for coupling the first cam device with the second cam device after the first cam device with the second cam device has moved forward together, with the connection selection of the contact members by means of the first circulating device, those attached to the first cam device, specifically to the electrical parts of the device sina, can be carried out and the electrically operated device is energized after a predetermined time interval, una the second circulating device for connecting the contact members associated with the second cam device, i.e. with the electrically operated device is connected, wherein the electrically operated device, naqhdem the Control cam has advanced a predetermined amount, is energized, and a device for coupling of the second cam device with the camshaft when the second cam device is rotated.

An example embodiment of the invention Timer, which has a plurality of control cams which are mounted on a camshaft so that they with this can be rotated and the one multi-toothed. of KontraL! .switches with the control cam are operated cooperatively by these, is characterized in that the timer is a drive device, a first, a variety of ascending and

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sloping contours for the actuation of a variety of Nooking device having contact elements for determination a time interval for port progression of the control cams, a second, contours for opening and Sctuießri of a connected pair of contacts during rotation having cam device for setting the Amount of advance of the control cams, one Device for coupling the first cam device with the drive device, the coupling device including a one-way clutch, auxiliary means for the coupling of the second Nockenvorricntung with the Drive device after rotation of the first cam device by a predetermined amount, this coupling device being actuatable by means of a coil Coupling includes means for coupling the first cam device to the second nocite device, to advance the first cam device with the second cam device, where uiese Coupling device including a second one-way clutch, first circuit means for connection selection, wherein the contact members with the first cam device connected to the clutch operated in the middle of the coil are, whereby, the clutch is energized after a predetermined time interval, second circulating means for connecting the contact members connected to the second cam device to the coupling to the Clutch after the control cam by a predetermined

009851/0736 "· ^{/ 11}

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Amount advanced to de-energize and means for coupling the second cam device to the camshaft, to then rotate the camshaft when the second cam device rotates, includes.

Referring to the drawings and especially to the 1, the individual parts of the device according to the invention are shown in the following Representation described.

The metal plates 1U and 12 are the main structural parts of the timer. The connection terminal block 11 is between the. Plates 10 and 12 held and carries the FederkontaKtglieder 17 to 24. The contact members 21 and 24 are by means of the Gledes 2i? connected together. The drive devices, which in the example embodied according to the invention consist of the motor 13 and the magnetic coil 14, are mounted on the plate 12. The solenoid 14 operates the clutch 1b by looking down the clutch arm 15. The coupling arm Λ b is held on the plate 1ü at point 1 ip *. In FIG. 1, part of the first cam device is in connection with the time base unit cam 2υ of the timer, part of the control cams 27 of the timer and a part of the member 2b containing the pole shoes, which is connected to the control cams 27.

Gerii ^; ii.) I ^| lig. > ^J Wiru that interaction of the different

discussed.

0098 5 1/0736

The output shaft of the motor 13 has a gear pinion 32 for the transmission of the movement to the balance transmission elements of the timer. The gear pinion 32 of the motor 13 drives the first section, una although the Rdaktio ns gear 33 on. The reduction tooth in turn drives the changeover mechanism gear 34 and the second reduction gear 3 ^. The changeover mechanism gear 34 actuated via the clutch 16, in the case in which the clutch 1b by means of the energized coil 14 is closed, the pinion 3ϊ> · The pinion gear 35 rotates with the clutch 16 and drives the step control gear 44. The step control pinion 4 !? rotates the tension roller gear and pinion 4b, which the camshaft gear 47 drives. The controls 27 of the timer are mounted on a camshaft so that they can be operated by means of the Nocttenwelienzahnrades 47 can be rotated.

The first reduction gear 33 drives the second reduction gear 36, which in turn drives the third Reduction gear 37 rotates. The third reduction gear 37 meshes with the intermediate link gear and pinion 3ö, which in turn is the time base unit gear 39 sets in motion and actuates the sub-interval gear 49. The Unterintervali gear wheel 49 operates the Subinterval nocicen!? Ü.

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The time base unit gear 39 sets by means of the one-way clutch 40 the time base unit snack 2b in rotating Move. When the coil 14 is energized, the step control gear 44 drives the time base unit snack 2b via the one-way coupling 43. Is the time base unit snapshot 2b driven by means of the step control gear 44, then the one-way clutch 40 is locked, which is achieved by a simple pawl can be made possible.

The various gears, clutches and pawls are shown in FIG. The motor pinion 32 drives the aduction gear 33, which rotates, the Reverse mechanism gear 34 and the redutation gear 3b drives. The reverse mechanism gear 34 is on the same shaft with the clutch 1b and rotates with this. The reduction gear 3b drives the transmission section of the reduction gear 37, which rotates offset, the intermediate link gear and pinion 3ö drives. The gear portion of the gear and pinion 3B moves the subsection gear 49, which in turn sets the subsection Nooke 5U in rotation and the The intermediate link gear and pinion 3ü drives the time base related gear 39. When the gear 39 rotates, moves the one-way clutch 4ü, which in the embodiment as a pawl or a trigger is shown and drives the pawl 42, soft the time base unit BnocKe 2b in rotation Betzt. When the sink 14 energizes

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is, the pinion gear 35 is rotated and by means of the gear 34 drives the step control gear at. The step control knob 54 rotates nut the step control gear 44. It can be clearly seen that the step control cam 54 the control members 17 and actuated. The time base unit cam 2b is by means of of the step control gear 44 through the one-way clutch 43, which cannot be seen in FIG. 3, is set in rotation.

Pig. 3 shows, like the control cam 27, the contact members 52, which are connected to the terminal members 2ö, operated.

Pig. 4 shows a side view of the inventive timer. The coil 14 is shown in the de-energized state. When the clutch 1b is excited, the clutch arm 15 pulls the two coupling parts of the clutch Ib together against the force of the spring 1b ¹ .

The time base unit snack 2b, which is a drum clip has three different cam surfaces on its circumference. The spring contact elements 18 to 24 (except 11) can be operated using the three noclcen surfaces, weuti the time base unit noise 2b rotates. The Zwecic and the actuation of the time base unit lock 2b is shown in an analysis of the effectiveness of the present invention discussed.

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The axially movable part 43 'of the coupling 43 moves the Time base unit cam 2b downward against spring 53, The coupling part 43 'consists of a double D-shaft, soft in a double D-opening in the time base egg nheitnoclce 2b finds a suitable place.

For the purpose of a clearer illustration, the motor 13 is shown in Fig. has not been signed. With the help of FIG the mode of operation of the step control cam 54 and the time base control cam 2b and discuss.

When the time base unit cam 2b is rotated in the direction of arrow 55 by means of the gear 39, is located sicti the step control knuckles 54 first in a position as shown in FIG. This is the position in which the clutch 43 is inoperative is set. The contact 21 is in the recess 54 'of the step control cam 54 and there is no electrical Connection with contact 17.

From Fig. 5 it can also be seen that the surfaces of the coupling 43 lie together. The recesses 2b ¹ , 2b ^M and 2b ^lfJ are the three recesses in the time base Eiriuei t: = uoch.e 2b, which are responsible for the opening of the contacts 1ö, iy uriu 2U as shown in FIG.

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The recess 2b ¹ actuates the contact 18, the recess 2b "actuates the contact 19 and the recess 26 ^MI is responsible for the actuation of the contact 20. For this reason, the three different time intervals are determined or by the rotation of the time base unit cam 2b to get the same.

With the help of Fig. B, the discussion of the operation of the step control cam 54 and the time base unit cam will be discussed 26 continued.

When the time base unit cam 26 rotates through the angle X, the contact 18 falls into the recess 2b ·, whereby the coil 14 is energized. The coil 14 is not shown in FIG.

The angle X is the angle by which the time base setting cam 26 must rotate from the starting point, as shown in FIG. 5, until the recess 2b * is below the contact 18. For this reason, the angle X represents a predetermined time interval. At the time when the contact 18 falls into the recess and closes with the contact 22, the step control cam 54 begins to rotate with the gear 44, which by means of the Gear pinion 35 is driven. The pinion gear is then rotated when the clutch 1b with the aid of the spool 14 is closed. From Fig. B it can be seen that two surfaces of the coupling 43 advance by an amount, 009851/0736

which is equal to the angle X. The area of the coupling 43 is shown in dashed lines, which around a Angle X has progressed with respect to the area shown.

With the aid of FIG. 7, the discussion about the mode of operation of the step control cam 54 and the time base unit cam 2b to be continued. The step control cam 54 has moved in the direction of arrow 57, to close contacts 17 and 21. The contacts 17 and 21 keep the coil 14 in the energized state after contacts Lö and 22 are open. It can be seen that the coupling surfaces of the coupling 43 in mutual Are engaged, and that the time base unit cam by means of the gear 44 and the step control cam is driven. The step control cam 54 and the time base unit cam 2b become that shown in FIG Moved starting position.

With the help of the above representation of the individual components of the timer according to the invention and the The description of the drawing is intended to enable the following functional analysis to provide a better understanding of the method of operation / according to the invention Contribute timer or its individual parts. As shown above, the timer according to the invention has two ways of advancement, and one fast and a step forward. The control elements for these two distinguishing features are the

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166bu96

Time base unitary key 26 using the step control cam ^l j) A. The time base unit snoeice 2fa is an aid for determining the time interval between the step-by-step progression of the timer control cams. If the cantacts, which are connected to the step control!? 4, are short-circuited, the control cams of the timer are driven by one or more revolutions or the previously selected cycle takes place at a higher speed.

From FIG. 2 it can be seen that when the clutch 16 is actuated by means of the coil 14, the control cams of the timer are driven by the motor pinion 32 via the reduction gear 33. Furthermore, the drive takes place via the reversing mechanism gearwheel 34, the coupling 16, the gearwheel pinion 45, the tensioning roller gearwheel and pinion 4b and the camshaft gearwheel 47 , the same with the step control gear 44- rotates, If the clutch 16 is not closed, the basic unit 26 of the motor pinion 32 over the reduction gear 33 »the second reduction gear 3t>» the third reduction gear 37 , the Zwisctiengiiedzalmrad and pinion 3b, the time base unit gear 3t> and the one-way clutch 40 are driven. If the clutch 1b is closed, the time base unit cam 2u or the rotation thereof deactivates the clutch 43.

009851/0736

The different time intervals of the timer for the step-by-step advance are determined by the presence a variety of surface recesses on the time base unit cam for actuating a Received pair of contact members. The depicted The embodiment shows the use of three different sets of contacts. According to Pig. 1 are the Kantakt members 1b and 22, 19 and 23 as well as 20 and 24 are shown, all of which lead into the connection terminals Bio eic 11 or and those by the rotation of the timebase identity cam 2b must be confirmed.

The time base unit cam 2b always rotates in the same direction. If the time base unit cam has the three reduction gears 33, 3b, 37, the intermediate link gear and pinion 3ö, the time base unit gear 39 and the one-way clutch 40 rotates, enables the contacts to be made through the selected recess in the cam the recess are connected to close and to energize the coil * 14.

When contacts 18 and 22 are closed, as in Pig. b is shown via the coupling 1b, which is operated by means of the Coil 14 is actuated »», the time base unit cam 2b and rubbed the timer control cams until the coil is de-energized. However, if the coil 14 is energized, then the step control cam i? 4 by means of the step control J Rotate gear 44 and the time base unit cam 2b operates contacts 17 and 21. Through the contacts

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17 and 21, the coil 14 is constantly in an excited state after the contacts 18 and 22 are opened.

Therefore, the coil 14 remains energized at all times until the step control cam 54 has advanced an angle is which of the recess 54 'allows the contacts 17 and 21 to open. Be that way the step control cam 54 and the time base unit cam 2b continuously returned to the zero position, after a step-by-step advance of the timer.

The different time intervals are determined by the local definition of the recesses on the circumference determined by the time base unit cam 26 and by the rotational speed of the nooke. The amount of angle to the advance of the control cams 27 of the timer is determined by the gear ratio of the step control gear 44 of the pinion gear 45, the intermediate gear and pinion 4b and the camshaft gear The step control cam 54 and the step control gear 44 are always started and at the same point always stopped in the same place. Hence, the amount of circulation of the control cam & s is timer always the same.

When the contacts 17 and 21 are closed, the coil 14 is energized and the clutch 1b sfeLies to the

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Open contacts 17 and 21 again. In this way and In this way, rapid progress is made possible. It should also be mentioned that, whenever the Contacts 1? ' and 21 are closed, the time base unit cam 2b and the step control cam 54 rotate until the contacts 17 and 21 open again by means of the recess 54 '. Therefore, the step control docice 54 are always stopped in a position that is determined by the definition of the recess 54 ' is determined.

The device driving the timer is the motor 13, which is used to determine the time interval on the one hand, and on the other hand, is necessary to supply the rotational energy for the rapid advance of the timer. The illustrated embodiment of the timer according to the invention is only an exemplary embodiment, the invention is not limited to this.

BATH ORIGINAL 009851/0736

Claims (1)

} 66bÜ96 Expectations 1. Timer, which has a large number of controls, which are mounted on a camshaft so that they are with this can be rotated and the one VieJahi. from Control ages that are associated with the control lineages cooperating by these are actuable, thereby characterized in that the timer is a drive (Y'j)
direction; a first, a plurality of rising and falling contours for the actuation of a plurality of contact members (18,1y, 20,22,23,24) having a gap device (2b) for determining a time interval for advancing the control cams (2 /), a second, contours for opening and closing of a connected pair of contact members at Lrehun ^ auiweisenden cam device (54) for the determination of the amount of progression of the control lines (2,), a device for coupling the first cam device (2b) with the drive device (13 ), the coupling device including a one-way clutch, auxiliary means for coupling the second cam device ( ^l > 4) to the drive device (13) after rotating the first cam device (2b) by a predetermined amount, this coupling device being connected by means of a coil (14) activatable clutch (16) included, 009851/0736 Means for coupling the first cam device { 2b) with the second cam device (i? 4) for advancing the first cam device with the second cam device (b4), this coupling device including a second one-way clutch, first circulation means for connection selection, wherein the contact members with the first cam device (2b) are connected to the clutch (1b) operated by means of the coil (14), whereby the clutch (16) is excited after a predetermined time interval, second circulation means for connecting the contact members connected to the second cam device (M) with the Clutch to de-energize the clutch after the control cam is advanced by a predetermined amount, and means for coupling the second cam device (!? 4) to the camshaft to then set the camshaft in rotation when the second cam device rotates , includes. 2. Timer according to claim 1, characterized in that the (13)
The drive device is a "shadei" pole motor. 'i. · Timer according to Claim 1, characterized in that this is an aid for the electrical short-circuiting of the contact members that are connected to the second cam device (i? 4) are connected, for rapid advancement of the control cam of the timer to a certain UmlaulpuriKt is. 009851/0736 4. Timer according to claim. 1, thereby geitennz-eich.net, that the first cam device (2b) and the second cam device (i? 4) are only free in one direction are rotatable, and that the first cam device (2b) with respect to the second cam device (i? 4) freely is rotatable. 5. Timer according to claim 1, characterized in that the means for coupling the second nocite device (54) is a spur gear with the camshaft. b. Timer according to Claim 1, characterized in that the first cam device (2b) is a drum cam with a multitude of individual ascending and descending contours. Y. timer according to claim 1, characterized in that that this is a multitude of subinterval control nocicen (i? O), the middle of the drive device (13) are directly driven, has. ö. timer that has a large number of control knobs, which are mounted on a camshaft in such a way that they can be rotated with this and which are of a large number of control switches with the control cams interacting with this site, indicated by the fact that the timer is one Drive device (13), a first, a large number 009851/0736 of rising and falling contours for the actuation of a large number of contact elements (18,19, 20,22,23,24) having cam device (2b) for defining a time interval for the progress of the Kontroilnocken (2Y), a second, contours for opening and closing a connected pair of Contact members with rotation having cam device (54) for setting the amount of the Advancement of the control cams, means for coupling the first Nocicen device (26) with the Drive device (13), electrically actuatable auxiliary means for coupling the second cam device (54) with the drive device (13) after rotating the first cam device (26) by a predetermined Amount, means for coupling the first nocicen device (26) to the second nocicen device (54), after the first Nocicen device (26) with the second cam device (54) has moved forward together, wherein by means of the first circulating device Connection selection of the contact members, which to the first Nocicen device (26), namely to the electrical Parts of the device are connected, can be carried out and the electrically operated device according to a a predetermined time interval is energized, and the second circulation device for connecting the contact members, which is connected to the second cam device (54), i.e. to the electrically actuatable device, 009851/0736 " BAD OBlGiNAL • _2b- l6BbÜ96 wherein the electrically operated device after the control cams have advanced a predetermined amount are energized, and a device for coupling the second Nociteneinrichtung with the camshaft, if the second cam device is rotated. 009851/07 36 ^BAD