US1921314A

US1921314A - Door closer and check

Info

Publication number: US1921314A
Application number: US583025A
Authority: US
Inventors: Forrest C Garrison
Original assignee: OSCAR C RIXSON CO
Current assignee: OSCAR C RIXSON CO
Priority date: 1931-12-24
Filing date: 1931-12-24
Publication date: 1933-08-08
Anticipated expiration: 1950-08-08

Description

Aug? 1933- F. c. GARRISON DOOR CLOSER AND CHECK Filed Dec. 24, 1931 4 Sheets-Sheet l [7206?4527 far/6193* C. Garret :307z.

1-933: F. c. GARRISON 1,921,314

DOOR CLOSER AND CHECK Filed Dec. 24, 1931 4 Sheets-Sheet 2 L253... IIIIIIIIIIIIIK 157'7655' 6. Garrison 1933. F. c. GARRISON DOOR CLOSER AND CHECK Filed Dec. 24, 1931 4 Sheets-Sheet 3 Patented Aug. 1933 UNITED V srAT s noon 'cnosna AND cm-zcx Forrest 0. Garrison, Evanston, 111., assignor to The Oscar C. Rixson 00., Chicago, Ill, a.

ration of Illinois Application nece bifza 1931. Serial No. ssiozs zclai ms. (01.16-49) i not to be visible and to be suitable for standard door constructions and thecasings within which the doors are mounted.

The objects of the invention are to provide a compact unitary structure of this nature which I may be readily installed .within door frames, particularly the customary designs of metal frames; to provide a new, general arrangement of such door closers and checks permitting the use of a durable and compact mechanism easily assembled, having a. separable or detachable spring barrel depending from the body portion of the check, and to provide various refinements in the mechanism, and an improved arrangement for rendering invisible the arm connectin the door check with a door casing when the door is in closed position; to provide an improved arangement of the controlling valves for the fluid acted upon by the checking piston for making a check immediately effective in all positions of a door; and to provide improved means for taking up any possible backlash or playin the mechanism.

The objectsof the invention are accomplished by means of the constructionas illustrated in which Figure 1 shows an exterior elevational view of the door closer and check in connection with a door and its casing partly broken away and in section. f x

. Fig. 2' is a sectional detail taken onithe line 2-2 of Fig. 1.

Fig. 3 is a plan section taken on the line 3-3 oiFig.1. r.

Fig. 4 is a fragmentary perspective .view show- ,ing the comer of the door within which the closer and check are mounted.

' Fig. 5 is a horizontal section through the piston portion of the check, as indicated by the line 5-5 of Fig. 6. I

Fig. 6 is a sectional view taken longitudinally through thedoor .closerand check.

Fig. 'l is a plan view of the doorclosing spring portion of the device; as indicated by the line 7-7 of Fig. 6. j 1

Fig. 8 is a sectional viewof the spring and its housing as indicated by the line 8-8 of F18. 6.

" W Figrais 'another sectional. view as indicated by the line 9-9 of Fig. 6.- v

F13. 1018 a detail viewshowing the operating -thickness.

"geared thereto and maybe turned by an arm piston .3. The checking piston may be reciprospindle of the check and thedoor check casing as indicated by the line l0-10 of Fig. 6. Fig. 11 is a fragmentarysectional detail to illustrate a; valve for "controlling the closing action of a door. This sectionis-taken on the 0 line Il -'11 of Fig. 13.

Fig. 12 is a sectional view taken on the line 12-1 2'of Fig. 13 to illustrate a valve which controls the final or latching motion ofa door.

Fig. 13 a fragmentaryview in horizontal 5 section of the check casing and shows bothvalves.

- Fig. 14 is an of the valves.

The constructionillustratedprovides a vcompact unit suitable without change for .doors which swing either to the,right or to the left and is of such dimensions as, to be received by the hollow frame-portions'of a door of standard enlarged sectional view .ot one i The principal elements of the construction are a casing formed to provide a cylinder for a 'fiuidcushioned piston whichis actuated by a spindle connecting the upper end of the spindle with a rail on the door casing. The lower end of the spindle is' connected with a spring sha tt around which is a coiled spring having connection with the shaft at its opposite ends whereby it may be tensioned upon a partialrotation of the shaft either to the right or tothe left. v Referringto thedrawings, the casing portion 1 of the door' closer and check is a casting formed to providea cylinder: 2 for a checking cated within the cylinder 2 by means of a spindle 4 which has teeth-15 for engaging rack teeth 16 formed on piston 3. The spindle is rotatably supported in a bearing 5 formed at the bottom of casing 1 ends. bearingfi in a cover 7 for easing. 1. The upper end 8 of the spindle is squared and tapered to fit ja,similarly formed aperture9 in an actua'ting arm 10. A roller '11 is carried at the outer end of arm 10 and fits a rail or channel bar 12,' fixed in the lintel portion I of the door casing. When the door is swung open around its hinges 13, Fig. 1', the spindle D 4 is necessarily turned on its axis as the roller ll holds the outer end of arm 10 within the channel bar 12: The roller travels along the channel bar toward a rubber stop 14 at the end of the channel bar. '1 1 its teeth 15 The turning of spindle 4 causes to engage rack teeth 16 onpiston 3. The piston is-therebyv along the cylinder 2. The

which is controlled by a ball check 29. This ball is seated in a continuation 21 of the port 19 butwhich is of larger diameter than the ball 29,

while the port 19 is of smaller diameter. The port 19 is below'the axial center of passageway 21, to insure complete closure of the port, due to the weight of the hall alone, except when the ball is lifted by the pressure of the fluid in back of it.

Due to this arrangement, when the fluid is flowing in the opposite direction, there is no chance-for any of it to escape around the ball.

' The cylinder ends are closed by the

caps

22 and 23 which have threaded engagement with the walls of the cylinder.

The spring shaft24 is hexagonally formed at its'upper end 25 to fit a correspondingly formed socket 25-in the lower end of spindle 4.

Thus the spring shaft turns with the spindle. The spring shaft carries a pin 27 extending radially therefrom in position to engage a pin 28 extending upwardly'from a collar 29 which is loose on the upper end of the spring shaft and to which the upper end of a spring 31) is hooked in a groove 31 formed in a reduced portion of the collar.

Thus, if the lower end of the spring is held against rotation, the spring is wound .upon the turning of the spring shaft in the direction indicated by an arrow 32, Fig. 7,.by pin 27 engaging pin 28 and rotating collar 29.

The opposite unwinding motion oi-the spring is limited by a fixed stop pin 33, in position to be engaged by pin 28. The pin 33 projects from a flanged member 34 which is secured by screws 35 to casing '2, and carries rigidly a spring casing 01" barrel 38. The lower end of spring casing 36 is closed by cap 37.

-The lower end of the'spring 39 is hooked into a groove 38 in a collar 39 loosely fitted over the spring shaft 24. To prevent the collar from rotating when the springis wound in the direction indicated by arrow 32, a pin 49 projects downwardly therefrom and it may be fitted. within any one .of the apertures 49' at the lower end ofcollar' 39. The pin 49 engages a stop lug 41 on a washer-shaped element 42 fitted within notches 43 in the lower end of spring barrel 36.. -.When the spring shaft is rotated in the opposite direction, indicated by arrow Y 32, as would be the case when the door opensin the opposite direction, the spring is not wound from the upper'end but is wound from the lower end. In this direction of movement, pin 27 engages stop pin 28, and a radially extending of the direction of rotationof the spindle 4 and-the spring shaft coupled therewith. Also, piston 3 is reciprocated in a like manner, re-

' gardless of the direction of rotation of the spindle 4 since this spindle is provided with a set of teeth 15 for engaging either one of the opposed racks 16 on the piston.

When the door is released, the unwinding of spring 30 reverses the action of all moving parts of the mechanism and draws the door to its closed position. The action" of the spring is prolonged sumciently to eifect an easy closing of the door by controlling the rate at which the fluid returns from the left side of piston 3, Fig. 6, to the right thereof. This is accomplished by means of a valve 46, Fig. 11, constructed as indicated by the enlarged view of Fig. 14.

This valve has a conical end 47 for controlling a port 48 communicating by means of a passage valve 46 is slidably fitted within the valve bodyby a slot and pin connection and is pressed out wardly by a spring 53. By adjusting the valve body 54, the point of the valve is withdrawn slightly from the seat so that normally the fluid n1ay' slowly pass by the valve. The valve is lifted further from its seat when excessive closing pressure is exerted against the door. The

valve body may be adjusted as desired through the aperture 55, Fig. 1, in the door. As the door moves toward its closed position, the piston 3 covers the inlet of passageway 49 and the final latching motion of the door is regulated by valve 56, similar to valve 46, but generally adjusted to permit a freer flow of the fluid so that the spring 30' may more easily overcome the resistance of the door latch.-

.The adjustment of valve 56 is effected by.

means of a screw 57 also accessible from the rearedge of thedoor. Both valves are shifted further away from their seats by the pressure Valve 56 controls a port in a passageway 58 leading to the left end of the cylinder chamber. This port remains uncovered by the piston 3 throughout thestroke of the piston. When the door is closed the piston comes to rest in the position indicated by the broken lines 59', Fig. 12. The detailed sectional views of the drawings, suchas Figs. 5, 6, Hand 12, illustrate the piston in the extreme end position in the cylin der as forced by spring 39, Fig. 6, before the device is installed in the door and the lever 19,

Fig. 3, applied thereto with its roller within the guide or rail 12. When lever 10 is applied to spindle 4-, the spindle is turned manually about 45 degrees in order to tension spring so and keep it tensioned when the roller 11 on the arm is in the guide rail 12 and the door is in its closed position. When the piston moves far enough to the left, Fig. 12, to uncover port 60,

,the latch valve 56 becomes efiective to by-pass I fluid around the piston head 59 according to the pressure of the fluid. The fluid flowing outwardly through passageway 58 past thevalve is returned to the piston chamber to the right of piston head 59 through the passageway 60.

In order to avoid any free uncushioned motion of the door, due to backlash between the teeth 15 and racks. 16, a spiral cone-shaped door casing. Thus the only part of the doorcylinder head 22. This spring is made coneshaped so that the convolutions thereof will interfit when the spring is compressed the maximum amount-by the movement of the piston. The check valve20 being located in an inclined passageway 21 is heldagainst its seat by gravity and aids in eliminating backlash with or without pressure in the compression endof the cylinder. The checking action is immediately effective on release of the door. Both the spring and the gravity operated check are essential for" correct operation of the door check.

The upper edge of the door,

ceiving arm 10, when the door is in its closed position, and a flange 63, at one side of the recess, conceals the arm 10 from the face side of the door. I

The rail 12 is mounted within a recess provided therefor in-the upper transverse element of the closing and check mechanism which is visible is the arm 10 and that only'when the door is in its open position. The door closing and'checking device is supported in the door by screws 64. Fig. 1, which afford an easy means of attachment.

A forced closing of the door results in developing a high fluid pressure in back of the plunger. v

It is therefore necessaryto have the parts of the construction'strongly built and arranged to prevent leakage of oil through the casing, particularly at such points where the valves are carried thereby and which are adjustable from the outside of the casing to respond to various pressures.

The valve-bodies 65, as shown in Fig. 11, are provided with an annular groove 66 which registers with a drain back aperture 67. Thus, if

the pressure is high enough to force the oil along the exterior of the body. of the valve, such oil may freely return through the drain back aperture 6'7.

The, valve shown in Fig. 12 is subjected to the full pressure in the' compression chamber when the door is closing from 90 degrees to 20 degrees, as both endsof the two

passageways

58 and 60 are then opened to the compression chamber. This would cause the checking fiuidto leak out throughthe valve packing if it were notfor'the groove 66 in drain 6'7.

, In the operation of this door closing and check mechanism, when the door-is swung outwardly on its hinges 13, the arm 10 turns the spindle 6, thus causing the piston 3 to move from its normal position, as shown by broken lines 59, Fig; 12, to the right end of the-cylinder. .The fluid in spring 30 is tensioned by near the hinge' end thereof, is provided with a pocket 62 for rewhich extends horizontally,

the cylinder tothe right of the piston escapes through the port 18 in the piston. When the door is released and permitted to swing to its shut position, a reverse rotation of spindle 6 returns the piston 3 to the position 59'.

On the opening movement of the door, the one of the pins 27 or 40 engaging pins on one of the

collars

29 or 39. When the door is released, the spring,

through one of these collars and pins thereon, reversely rotates the spring shaft and spindle 4. The spindle, through with the piston 3, restores the piston to the position indicated by 59, Fig. 12, and upon the restoring motion, the flow of the fluid from the left end of the cylinder back to the right end of the cylinder is controlled by the pressure operatedgalves 46 and 56 in succession; valve 46 controlling the return swing of the door to nearits latching position when its supply passageway 49 is covered by the piston and the liquid is forced through the passage- .way 58 past the valve 56.

Although but one specific embodiment of this invention has been herein shown and described,

it will be understood that certain details of the its geared connection 1; A door closer and check comprising a casing formed to provide a cylinder the. axis of a piston within said cylinder, said piston having a central longitudinally extending opening and rack teeth formed on one side of said opening, a spindle extending vertically through the opening in the piston and having pinion teeth for engaging the rack teeth, a spring barrel removably attached' to the bottom ofsaid casing, a coil spring within said spring barrel, and a shaft extending through said spring and connected therewith to wind the same, said shaft being co-extensive with said spindle and arranged to be coupled with the spindle upon attachment of: the spring barrel to the casing.

2. The combination with a door casing of a door having a hinged connection with the casing, a door check concealed within the door and provided with an operating ann fitting a longitudinal recess in the uppere'dge of the door, said casing having a guideway in the lower surface of its lintel which is above the door when the door is in its closed position,.