US1378625A - Motor for regulators - Google Patents

Description

B. J. SIEATOR. MOTOR mR. REGULATORS.

- APPLICATION FILED MAY 17, I920. 1,378,625. Patented May 17,1921.

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MOTOR FOR REGULAIOBS. "APPuvcA-nou msu HAY17, 1920.

Patented May 17,1921.

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R. I. SEATOR'. MOTOR FOR REGULATORS. A'Pkucmou -F|LED Mun. I920.

Patented May 17,1921. 3 S HEETSfSHEET I'Z.

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ROBERT J. SEATOR, OF BATTLE CREl IHERBER'I MATTHEVTS, 0.x:

MOTOR For. nneuna'rous.

Application filed May 17,

I! '0 all whom it may concern.

Be it known that I, ROB RT J. SnA'roR, a citizen of the United States, residing at Battle Creek, county of Calhoun, State of Michigan, have invented certain new and useful Improvements in Motors for Regulators, of which ,the following is a specification.

This invention relates to improvements in motors for regulators.

My improved motor is especially designed by me for regulating furnaces and I have shown the same in an. embodiment adapted for that purpose. My improvements are,

however, desirable for use and may be readily embodied 1n structures designed "for other uses.

\Iy present improvements are an adaptation of and in some respects an improvement upon the structure shown in my Letter Patent No. 1,329,553, issued l ebruary 3, 1920.

The main objects ct this invention are:

First, to provide an improved motor for regulators which is very positive in its action. v Second, to provide an improved motor actuated by Weight and hydraulic power which is simple and economical in structure and durable and not likely to get out of repair.

structural details willdeliniteh appear from the detailed description to follow.

l accomplish the objects of my invention by the devices and means described in the following specification. The invention is dearly defined and pointed out in the claims.

A. structure which is a preferred embodiment of my inventiouis clearly illustrated in the accompanying drawing forming a part of this specification in which:

Figure I is a diagrammatic view. of astructurc embodying the features of my invention illustrated in operative relt to a furnace, the parts being shovvn manrlv ir conventional form and Without regard to proportion. o

II is a front view of my improved re 'ulator with the plunger in its initial or retracted position and the inlet valve closed and exhaust valve opened, the Waste connection being omitted.

Specification of Letters Patent.

Further objects, and objects relating to Patented May 17, 1921. 1920. Serial no. 381,878.

J" F 1g. Ill is a i ront view corresponding to that of llg. 11, with the locking dog trip lever released, theeilhaustvalve closed and the inlet valve opened, the plunger, how ever, still remaining in its initial position.

lug. IV is a front elevation corresponding to that of Figs. 11 and ill with the plunger in its actuated or extended position and the exhaust valve opened andthe inlet valve closed.

Fig. V is a detail end elevation looking from the left of Fig. H, with the parts in the position shown therein. V

' V1 is a detail'end elevation similar in the position shown in Fig. Ill.

llig. VII is an enlarged detail vertical,

corresponding to line 7'? control valves, partially in vertical section.

Fig. L 18 an enlargul detail view par: tially in vertical longitudinal section showing details of the control means.

l ig. it is a detail view showing details of the electrical connections.

X1 is a diagrammatic view of the electrical connections.

In the drawing similar reference characters refer to similar parts throughout the several views, and thesectional views are taken looking in the direction of the little arrows at the ends of the section lines.

Referring the drawing, 1 preferably mount the parts upon a base plate 1 adapted to be mortified upon a Wall or othersupport in proper relation to the furnace dampers or other ts to be controlled. In Fig. l, 2 th d attdamper of a furnace 3,

d or damper of a furnace ears of the cables 6 and 7 pulleys 8.

. V, with the locking dog released or These dampers are connected under 9 is mounted'on the while the outlet is controlled by the valve 16. These valves are of the plunger type and are oppositely disposed to coact with conical supporting bearing seats 17 and 18 respectively. The valves are provided with stein- like portions 19 and 20 which engage when the exhaust valve is closed to lift the inlet valve from its seat. The means for controlling the valves will be disclosed as the description proceeds.

The plunger rod 21 reciprocates through a 22 on the base plate. The actuating rod 23 is mounted for reciprocating movement in bearings 24 and 25 on the base plate. The actuating rod is provided with steps 26 and 2'? which limit its stroke. The actuating springs 28 are mounted on the rod to be engaged by the tappet or arm 29 on the plunger rod so that the springs are placed under compression toward the ends of the stroke of the plunger and power stored to act ate the red when it released.

The rod is adapted to engage the blade spring 39 on the valve lever 31 which is pivoted at 31 to engage the exhaust valve 16 as shown in VIII. When in the position shown in Fig. Til, the lever is actuated to close the exhaust valve and open the inlet valve. Gravity tends to open the exhaust valve and close the inlet valve as does also the water pressure so that when the actuating rod is returned to the position shown i Figs. TV and VIII, the exhaust valve opens and the inlet valve closes.

A drip cup 32 is positioned below the discharge passage 14, a drain pipe 32 being connected to the drip cup. A vent and drain pipe 33 is connected to the inner end of the cylinder 10 and delivers to the drip cup 32. This pipe 33 takes care of any water that may pass the plunger and provides a vent for the inner end of the cylinder.

The actuating rod is controlled by the locking dog or member 3a which 18 slidably mounted on the end or" the base plate to coact with notch-like keepers 35 in the rodsee Fig. Vll. A spring 36 urges the looking member to its engaging position; This locking member 34 is released by means of the trip 3?" on the plunger and the trip 38 pivoted on the base plate at 39 and controlled by the armature 40 of the electroniagnet e1.

As the details of the electromagnet form no part of the invention they are not illustrated or described herein.

The arinature' lO is provided with a notch are adapted to receive the end of the trip lever 38. When the trip lever is released by the armature and actuated to the position shown in ig. Til, the locking member is disengaged and the actuating rod is actuated by the right hand spring 28 to the position shown in Fi Ill, in which position the exhaust valve is closed and the inlet valve opened.

The water flowing into the cylinder actuates the plunger against the pull or" the weight 44 which is connected by the cable d5 to a post 4L6 on the base, the cable passing over the pulley a? on the plunger rod.

The tappet or arm 29 engages the actuating spring 28 at the left placin the same under stress or compression so that when the trip arm 37 on the plunger rod releases the locking dog 3d, the actuating rod is actuated to release the exhaust valve allowing the inlet valve to close and the cylinder to exhaust.

The return weight would at once return the plunger to its initial position were it not engaged by the detent e8 which is pivoted at 49 on the trip lever 38 to engage the keeper 50 on the plunger rod-see Fig. TIL- so that the plunger is held in its extended position until the armature i0 is again actuated when the p of the weight is sutfi-cient to release the detent, the ooacting faces of the detent and keeper being slightly inclined as shown in Fig. TX.

As the plunger moves to its initial position, it engages the lever 51 which is pivoted at 52 on the trip lever raising the same to the position shown in Fig. i and apply ing stress to the bowed spring 53 one end of which engages a lug 5% on the lever 51 and the other engages a corresponding lug 56 on the detent 48. With this spring under stress, when the armature is again actuated l to release the trip lever, it is thrown up by the action of the spring on the lever 51 to the position shown in Fig. TH and this actuates the locking member 3% to release the actuating rod so that it is actuated by the right hand spring 28 to close the exhaust valve and open the inlet valve as described.

When the plunger is again moved to its extended or actuated position the trip lever drops down as shown in Fig. TV so that it is re'e'gaged by the armature and the detent 43 engages and holds the plunger in its ex tended position.

For convenience in making the electrical conneztions. l mount an insulated plate 57 on the base plate 1. The plate 57 is provided with binding posts 58 to which the temperature control. device 59, shown conventionally in Fig. X1 is connected. The binding post 60 is connected to the source of current as the battery 61. The binding posts 58 are connected to the spring contacts 62 mounted on the plate 57 so as to be engaged by the tappot 29 on the plunger rod when the plunger rod is at the ends oi its stroke, the circuit being broken during the stroke of the plunger. L

A third contact 63 is provided to enact with the stop 27 on the actuating rod. This contact 63 is connected to the electromagnet by the connection 64., the electromagnet being also connected to the binding post by the connection which binding post also is connected to the battery by the connection 66. The connection for the binding post 58 to the right hand magnet is through the contacts 62 and 63, the parts engaging with the contacts when in the position shown in Fig. II, the connections being brokenwhenthe parts are in the position shown in Fig. III so that should they remain in this position through lack of water pressure to actuate the plunger, the battery is not run down.

lVith the parts arranged as illustrated and described, the operation of the device is as follows:

Assuming the parts to be in the position shown in Fig. II, upon the actuation of the armature ID, the trip lever 38 is thrown upwardly to the position shown in Fig. III by the lever 51 actuated by the spring 53. This movement of the trip lever releases the locking dog Set of the actuating rod 23. The actuating rod being released, its actuating spring 28 at the right hand end being under compression as shown in Fig. II, moves the actuating rod toward the right and closes the exhaust valve and opens the inlet valve, and the water flowing into the cylinder, actuates the plunger.

When the plunger passes from beneath the lever 51, the trip lever drops down and is reengaged by the armature and the actuating rod locking dog is released engaging the outer keeper of the actuating rod and holding it in its actuated position until the plunger has placed the lett hand actuating spring 28 under stress. Its trip 37 releases the locking dog allowing the actuating rod to release the valve lever, opening the drain or exhaust valve and closing the inlet valve. The plunger is retained in its actuated position by the detent 48 on the trip lever until the trip lever is again released by the actuation or" the armature from the thermostat or temperature control means, when the weight returns the plunger to the position shown in Fig. II, which completes the cycle of movement.

My improved regulator is entirely automatic, that is, there is no weight or motor to wind. It may be very. easily installed even by an unskilled workman, as the parts are all assembled upon the base plate which may be mounted on any suitable support and connections made to the dampers to be operated.

I have not attemptedto illustrate or describe certain modifications in structural details which I contemplate as I believe the disclosure made will enable those skilled in the artto which my invention relates to embody or adapt the same as may be desired.

Having thus described my invention,

what I claim as new and desire to secure by. Letters Patent is:

1. In a structure of the class described, the combination of a cylinder, oppositely seating inlet and exhaust valves for said cylinder, the exhaust valve being adapted to open the inlet valve when the exhaust valve is closed, a pivoted valve actuating lever engaging said exhaust valve, a plunger, a weight for returning said plunger, a reciprocatingly mounted actuating rod adapted to engage said valve lever, said actuating rod being provided with a pair of stops limiting its movement, actuating springs on said actuating rod, a tappet on said plunger adapted to place said springs under stress by the stroke of the plunger so that when the actuating rod is released it is actuated thereby, a locking member for said actuating rod. a trip on said plunger coact-ing with said locking member on the out-stroke of the plunger, a trip lever also coacting with said locking member and provided with a detent for said plunger, an electromagnet comprising an armature constituting a lock for said trip lever, an actuating spring for said trip lever placed under stress by the return of the plunger to its initial position, and electrical connections for said electro magnet comprising three relatively fixed contact members, two of which are electrically connected to said electroma-gnet. a contact member on said plunger adapted to coact with the third of said relatively fixed contact members and with one of the pair connected with the electromagnet, said actuating rod being adapted to coact with the other of saidpair to complete the circuit when the parts are in their initial position, the circuit being broken when the actuating rod is in position to open the inlet valve.

2. In a structure of the class described, the combination of a cylinder provided with inlet and exhaust connections, a plunger, a weight for returning said plunger, a reciprocatingly mounted actuating rod, said actuating rod being provided with a pair of stops limiting its movement. actuating springs on said actuating rod, a tappet on said plunger adapted to place said springs under stress by the stroke of the plunger so that when the actuating rod is released it is actuated thereby, a locking member for said actuating rod. a trip on said plunger coacting with said locking member on the out-stroke ot the plunger, a trip lever also coacting with said locking member and provided with a detent for said plunger, an electromagnet comprising an armature constituting a lock for said trip lever, an actuating spring for said trip lever placed under stressby the return of the plunger to its initial position, and electrical connecions for 'said electromagnet comprising three relatively fixed contact members, two

of which are electrically connected to said electromagnet, a contact member on said plunger adapted to coact with the third of said relatively Xed contact members and with one of the pair connected with the electromagnet, said actuating rod being adapter to coact with the other of said pair to complete t e circuit when the parts are in their initial position, the circuit being broken when the actuating rod is in position to open the inlet valve.

3. In a structure of the class described, the combination of a cylinder, oppositely seating; inlet and exhaust valves for said the exhaust valve being adapted to open the inlet valve when the exhaust valve is closed, a pivoted valve soon ting lever said exhaust va ve, a plunger, a

i I for returning said plunger, a reciprooatingly mounted actuating rod idapted to engage said valve lever, said actuating provided ith a pair of: stops rod being;

limiting its movement, actuating springs on said actuating rod, a tappet on said plunger adapted to place said springs under stress by the strolre of the plunger so that when the actuatin rod is released it is actuated thereby, a locking member l aid actuating rod, a trip on said plunger with said locking member a :d p vided with a detent tor sa plunger. an electromagnet comprising an armature constitutin a lock ior said t'io le J61 and an :73 J, a actuating spring ror said B11} JBVGI r under stress by the return or to its initial position.

4. in a structure of the class described, the combination of a cylinder provided with inlet and exhaust connections, a plunger, a v-Jeight for returning said plunger, a reciprocatingly mounted actuating rod, said actuating rod being provided with a pair of stops limiting its movement, actuating springs on said actuating rod, a tappet on said plunger adapted to place said springs under stress by the stroke of the plunger so that when the actuati rod is released it is actuated thereby, a locking member for said actuating rod, a trip on said plunger coacting with said locking member on the out-stroke of the pluns a trip lever also coacting with said locking member and provided with detent For said plunger, an electromagnet comprisr ,n armature constitutinna loclr for said n lever, and an actuat spring for said u g lever placed under stress by the return to its initial position.

In a' structure of the class described, the combination of a cylin r provided with inlet and exhaust conn-c. ions, means for controlling said connections comprising an actuating member, a plunger, :1 weight for returning said plun -er, actuating springs for said actuating rod, means for placing said springs under stress by the stroke of the plunger so that when the actuating rod is released it is actuated thereby, a locking member for said actuating member, a trip on said plunger coacting with said locking member on the out-stroke oi the plunger, a trip lever also coasting with said locking member and provided with a detent "for said plunger, an electromagnet comprising an armature constituting a lock for said trip lever, an actuating spring for said trig leve placed under stress by the return o1 the plunger to its initial pOSltlOn, and electrical connections for said electromagnet comprising three relatively fined contact members, two of which are electrically connected to said electromagnet, a contact member on said plunadapted to coact with the third or said relatively fixed contact members and with one of the pair connected with the electroniagnet, said actuating member being adapted to coact with the other of said pair to complete the circuit when the parts in their initial position, the circuit being broken when the actuating member is in position to open the inlet valve.

6. In a structure of the class described, the combination of a cylinder provided with inlet and exhaust connections, means for controlling said connections comprising an actuating member, a plunger, a weight for returning said plunger, a control means "for said actuating members comprisan electromagnet, and electrical connections for said electromagnet comprising three relatively fixed contact members, two of which are electrically connected to said electromagnet, acontact member on said plunger adapted to coact with the third of said relatively fixed contact members and with one of the pair connected with the electromagnet, said actuating member be ing adapted to coact with the other of said pair to complete the circuit when the parts are in their initial position, the circuit being broken when the actuating member is in position to open the inlet valve.

7 In a structure of the class described, the combination oi a cylinder, oppositely seating inlet and exhaust valves for said cylinder, the exhaust valve being adapted to open the inlet valve when the exhaust valve is closed, a pivoted valve actuating lever engaging said exhaust valve, said lever having a spring mounted thereon, an actuating member adapted to engage said spring, a plunger, a weight for returning said plunger, actuating springs for said actuating member, means for placing said springs under stress by the stroke of the plunger so that when the actuating member is released it is actuated thereby, a locking member for said actuating member, a trip on said plunger 'coacting with said 8. In a structure of the class described,

the combination of a cylinder, oppositely seating inlet and exhaust valves for said cylinder, the exhaust valve being adapted to open the inlet valve when the exhaust valve is closed, a pivoted valve actuating lever engaging said exhaust valve, an actuating member coactingwith said lever, a plunger, a weight for returning said plunger, actuating springs for said actuating member, means for placing said springs under stress by the stroke of the plunger so that when the actuating member is released it is actuated thereby, a locking member for said actuating member, a trip on said plunger coacting with said locking member on the outstroke of the plunger, and a trip lever coacting with said locking member and constituting a means for holding said plunger in its actuated position.

9. In a structure of the class described, the combination of a cylinder, oppositely seating alined inlet and exhaust valves for said cylinder, the exhaust valve being adapted to open the inlet valve when the exhaust valve is closed, a pivoted valve actuating lever engaging said exhaust valve, said lever having a spring mounted thereon, an actuating member adapted to engage said spring, a plunger, a weight for returning said plunger, and means for controlling said actuating member comprising said plunger, a trip member and an electromagnet controlling said trip member.

10. In a structure of the class described, the combination of a cylinder provided with inlet and exhaust connections, means for controlling said connections comprising an actuating member, a plunger, a weight for returning said plunger, actuating springs for said actuating member, means for placing said springs under stress by the stroke of the plunger so that when the actuating rod is released it is actuated thereby, a looking member for said actuating member, a trip on said plunger coacting with said locking member on the out-stroke of the plunger, a trip lever also coacting with said locking member, an electromagnet comprising an armature constituting a lock for said trip lever, a detent pivotally mounted on said trip lever for holding said plunger in its actuated position, an actuating lever for said trip lever pivotally mounted thereon to be engaged by said plunger when the plunger is at the end of its stroke, and an actuating spring for said trip lever acting on said detent and adapted to be placed under stress by said trip actuating lever so that upon the actuation of the armature the trip lever is actuated to release the actuating rod locking member.

11. In a structure of the class described, the combination of a cylinder provided with inlet and exhaust connections, means for controlling said connections comprising an actuating member, a plunger, a weight for returning said plunger, a locking member for said actuating member, a trip on said plunger coacting with said locking member on the out-stroke of the plunger, a trip lever also coacting with said locking member, an electromagnet comprising an armature constituting a lock for said trip lever, a detent pivotally mounted on said trip lever for holding said plunger in its actuated position, an actuating lever for said trip lever pivotally mounted thereon to be engaged by said plunger when the plunger is at the end or" its stroke, and an actuating spring for said trip lever acting on said detent and adapted to be placed under stress by said trip actuating lever so that upon the actuating of the armature the trip leveris actuated to release the actuating rod locking member.

12. In a structure of the class described, the combination of a cylinder, a plunger, a weight for returning said plunger, a control means comprising a trip lever, an electromagnet comprising an armature constituting a lock for said trip lever, a detent pivatally mounted on said trip lever for holding said plunger in its actuated position, an actuating lever for said trip lever pivot- .ally mounted thereon to be engaged by said plunger when the plunger is at the end of its stroke, and an actuating spring for said trip lever acting on said detent and adapted to be placed under stress by said trip actuating lever so that upon the actuation of the armature the trip lever is actuated to release the actuating rod locking member.

In witness whereof I have hereunto set my hand and seal in the presence of two witnesses.

ROBERT J., snares.

lVitnesses

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