US2119959A - Refrigerating apparatus - Google Patents

Description

June 7, 1938. c PEARCE 2,119,959

REFR IGERAT ING APPARATUS Filed Dec. 30, 1935 5 Sheets-Sheet l June 7, 1938.

' G. C. PEARCE REFR IGERATING APPARATUS Filed Dec. 30, 1933 5 Sheets-Sheet 2 June 7, 1938. G. c. PEARCE REFRIGERATING APPARATUS Filed Dec. 30, 1933 5 SheetsSheet 3 June 7, 1938. a. c. PEARCE 2,119,959

REFRIGERATING APPARATUS Filed Dec. 50, 1933 5 Sheets$heet 5 INVENTOR.

ATTORNEYS Patented June 7, 1938 UNITED STATES PATENT OFFICE General Motors Corporation, Dayton, Ohio, corporation of Delaware Application December 30, 1933, Serial No. 704,685

1 Claim.

This invention relates to refrigerating apparatus and more particularly to control means therefor.

It is an object of my invention to provide for refrigerating apparatus and other means an improved switch having, great flexibility as to range and differential adjustments and which will be equally applicable for use with alternating and direct current so that it may be easily and readily adjusted to fill the requirements of a wide range of situations.

It is another object of my invention to provide a switch means having an improved readily removable bellows assembly provided with protective means for preventing undue expansion of the bellows when removed from the remainder of the switch means and which serves as a useful part when connected to the remainder of the switch means.

It is a further object of my invention to provide an improved overload means for a magnet type switch having an improved resetting means which prevents the forcible closing of the circuit under overloading conditions.

It is another object of my invention to provide an improved snap acting means for controlling the operation of a bellows and switch means which will accommodate misalignment without being affected in its operation in any substantial way.

Further objects and advantages of the present invention will be apparent from the following description, reference'being had to the accompanying drawings, wherein a preferred form of the present invention is clearly shown.

In the drawings:

Fig. 1 is a view of a refrigerating system including my improved control means;

Fig. 2 is a left side view of the pressure respon- 40 [sive "assembly. of-the control means shown in Fig. v1;

.Fig. 3 is a right side view of the pressure re- 'sponsive assembly of the control means shown in Fig. 1:

Fig. 4 is a" side view of the overload means, also shown in Fig. 3, showing the overload means in resetting position;

Fig. 5- is a side view of the overload means in tripped position; Y

'Fi8.6 is a side sectional view of the lower portion of the pressure responsive assembly disclosing the differential adjusting means;

Fig. '7 is a sectional view along the line |-l of .Fig. 6;

'65 Fig. 8 is a fragmentary top view of the pressure responsive assembly including switch contacts and overload means;

Fig. 9 is a left side view of the high pressure cutoutmeans shown in Fig. 1;

Fig. '10 is a right side view of the high pressure cutout means;

Fig. 11 is a sectional view along the line I i-l l of Fig. 1.;

Fig. 12 is a sectional view along the line l2l2 of Fig. 1;

Fig. 13 is a sectional view along the line III-I3 of Fig. 11; and t Fig. 14 is a diagrammatic view of the switch mechanism laid out in such a manner as to illustrate the functions and operation of various parts of the mechanism.

Referring to the drawings and more particularly to Fig. 1, there is shown a refrigerant liquefying means including a compressor driven by an electric motor 2! for compressing the refrigerant and for forwarding the compressed refrigerant to a condenser 22 where the refrigerant is liquefied and collected in a receiver 23. From the receiver 23 the liquid refrigerant is forwarded through a supply conduit 24 to an evaporating -means 25 which, as shown, may be of the low side float controlled flooded type or any other suitable evaporating means. The evaporating means is located within an insulated cabinet 26 and by the evaporation of the liquid refrigerant therein removes heat from the cabinet. This evaporated refrigerant is returned to the compressor 20 through the return conduit 21. The operation of the refrigerant liquefying means, and particularly the operation of the electric driving motor 2|, is controlled by a control means or switch 30 which controls the supply of electric energy thereto through the supply conductors 3|. The control means 30 is operated by a bellows 32 which is connected by tubing 33 to the return conduit 21. By this connection the bellows 32 is responsive to the pressure and therefore the temperature of the evaporating means 25.

As better shown in Figs. 2 and 3, the bellows 32 are located between two generally square, flat, upper and lower plates 34 and 35. At the opposite corners of the plates the plates are connected by pins 36 which are provided with shoulders at their ends and a reduced portion which passes through the plates and is riveted over on to the opposite sides thereof so as to hold the plates in spaced relation.

As more particularly shown in Fig. 6, the bellows 32 is fastened to the lower plate by having its bottom plate 31 seated upon the lower plate and fastened thereto by means of the nut 38 which surrounds the upper end of the tube 33. The upper plate 34 serves as a stop to prevent undue expansion of the bellows under high pressure conditions within the system, such as are prevalent when the system is shut down. The upper plate 34 is provided with an aperture through which extends a pin 39 which is connected to the movable end of the bellows 32. This entire bellows assembly including the bellows 32, the tube 33, the upper and lower plates 34 and 35, as well as the riveted pins 36 is fastened to a U-shaped bracket 40 by means of long machine screws H which pass through the remaining two corners of both the upper and lower plates 34 and 35.

A pin 39 extending from the bellows assembly is provided with a conical point which projects into arecess provided in a bellows follower 42 which is provided with a pair of cars 43 at one end, which are pivoted upon a pivot pin 44, better shown in Fig. 7. This pivot pin 44 is supported by the pair of ears 45 projecting from the U-shaped bracket 46. The expansion of the bellows 32 is opposed by a spring adjusting means including a lower spring retainer 46 provided with a conical point 41 seated upon the bellows follower 42 substantially opposite the conical point of the pin 39 extending from the bellows assembly. Seated upon the spring retainer or spring seat 46 is a rather stiff heavy coil spring 49 which is. concentric with an ad justing screw 48 having threaded thereon the upper spring retainer 56 which holds and confines the spring 49 between it and the lower spring retainer 46. The upper spring retainer is provided with a projection 5! which is guided by.

a slot in the upper end of the U-shaped bracket 40 in order to prevent the spring retainer 56 from turning when the screw 48 is turned. The tension of the spring 49 is adjusted by turning the control knob 52 adjustably connected to a serrated disc 58 at the top of the screw 48. The knob 52 is preferably provided with an arm 53 cooperating with a pin 51 to limit its normal rotation to one revolution in order to prevent any unauthorized person from adjusting the tension of the spring so as to prevent the proper operation of the switch. The knob 52' is provided with suitable indicating means, such as shown at 54 in Fig. 2, to indicate the proper normal position of the control knob 52. The control knob 52 is fastened to the screw 46 by a small threaded screw so that it is removable together with arm 53 so that the service man is permitted to turn a screw 48 to any amount he desires. The upper end of this screw 46 is provided with a flange 55 which bears against the upper end of the U-shaped bracket 40.

The bellows follower 42 at its free end is pivotally connected by a pin 242 to a link 60, which at its lower end is provided with a slot 6I slidably receiving a pin 62 which passes through and is slidably mounted within an arcuate slot 63 provided inan arm 263 extending from the U- shaped member 65. The location of the pin 62 within the arcuate slot 63 is controlled by a long thin screw 64 extending in substantially the same direction as the arcuate slot 63 and which has an enlarged portion of the pin 62 threaded thereon. The screw 64 has its end rotatably and flexibly mounted within the U-shaped member 65 and is thus secured against longitudinal movement in the U-shaped member 65 towhich the arm carrying the arcuate slot is fastened.

aiiaoso The location of the pin 62 within the arcuate slot 63 determines the differential of the switch by changing the distance of the pin 62 from the fulcrum pins 258 upon which the Ushaped member 65 pivots. In order to increase the differential between the cut-in and cut-out points upon the switch the long thin screw 64 is turned so as to move the pin 62 inwardly closer to the pivot pins 258 upon which U-shaped pin 65 is pivoted. In order to decrease the differential the screw 64 is turned in the opposite direction so as to move the pin 62 outwardly. The arm 263 ,having the arcuate slot 63 has its inner end rigidly fastened to the U-shaped member 65. A tension spring 56 connects the bellows follower and the end of the arm 263 having the arcuate slot 63 so as to normally hold the pin 62 in the inner end of the slot 6I in the link 60. However, should any resistance be encountered which. is greater than the tension of the spring 56 or the pins 62 will be permitted to move away from the inner end of the slot 62 against the tension of the spring 56.

Connected to one side of the U-shaped member 65 by rivets is an insulating strip 66 which carries an armature arm 6? of magnetic material fastened thereto by nut and bolt means 68. It should be noted that there is provided a rigid assembly which includes the U-shaped member 65, the member 263, the insulating arm I06, the arm i 54, the insulating strip 66, the armature arm 6?, and the flexible contact member and which assembly pivots about the pivot pins 258 which pass through the U-shaped member 65 and the insulating members I5 and 95 which with the U-shaped member 40 form the nonmovable supporting frame of the switch. This nut and bolt means serves as a binding post to connect the electrical conductor 69 to the flexible contact member I6, preferably of spring brass, which is fastened to the top of the armature arm 61 by the nut and bolt means 68. This spring brass strip 10 is provided with a silver or silver plated contact II at its free end which projects through a neckedin portion at the free end of the armature arm 61 and contacts with a cooperating contact I3 which is located between the ends of a U-shaped permanent magnet I4. This U-shaped permanent magnet I4 is mounted upon an insulating member .59

I5 of hard rubber or some suitable phenol condensation product. This insulating member 15 is provided with a flange 16 against which one side of the U-shaped magnet is held so as to provide a lateral locating means for the permawhich contacts with the permanent magnet.

14 and which adjusts the minimum distance between the armature arm and the permanent magnet so as to prevent the armature arm from freezing to the permanent magnet.

field between the contacts and thus snuffs out any are which might pass between the contacts by the action of an electric turn in a magnetic field. This is particularly valuable in connection with direct currents and enables the switch to The permanent magnet I4 sets up a magnetic -"0 have a relatively high direct current rating so that it may be used for both alternating and direct current. In addition to snuifing out the arc the permanent magnet also aids in giving a snap movement to the armature arm. This also aids in preventing arcing at the contacts. With this arrangement, the differential between the cut-in and cut-out points may be made very small. The spring and slot link connection provided by the link 60, the slot 6|, the pin 62, and the spring 56 prevents any force greater than the tension of the spring 56 from being applied to the armature arm 61 so that any damage to the armature arm because of excessive expansion of the bellows 32 is avoided.

The stationary contact I3 is mounted upon an L-shaped brass or copper strip conductor BI fastened to the top of the insulating member I5, which member is provided with an car 82 and a binding screw 83 for fastening the electrical conductor 84 thereto. The electrical conductor 69 which receives electrical energy from the con ductor 84 through the L-shaped member, the stationary contact I3, the movable contact II, and the spring brass strip "I0 is connected to a brass strip conductor 05 which has a turned up end portion 86 which limits the upward or outward movement of the armature arm 61. If desired, the armature arm 61 may be provided with a contact 81 which cooperates with'a contact mounted upon the L-shaped member BI.

The brass strip conductor 85 is provided with an ear 88 at its opposite end to which is connected a coiled heater wire 89 which is connected by a binding post 90 to the electrical conductor 9I leading to the electrical motor 2I. Extending through the coiled portion of the heater wire 89 is an improved type of solder pct 92. This solder pot 92, as better shown in Fig. 8, has a hollow portion which is provided with a fusible material, such as a rather low melting solder 93. This solder melts and so absorbs a certain amount of heat by its change in state from the heater wire 69 before any further change in temperature of the solder pot 92 takes place. At the opposite end of the solder pot there is fastened a ratchet wheel by a slightly higher melting solder so that upon an overload sufliciently high to cause the normal carrying capacity of the heater 89 to be exceeded the ratchet wheel will not be released until the special solder 93 is melted. This prevents actuation of the overload means under overloads over such a short period that no harm would be done to the. apparatus. This solder pot 92 and heating coil 89 are mounted upon a second insulating member 95 which is parallel to the other insulating member 15 and which extends between the end portions of the U-shaped bracket with a catch 99 formed of a spring brass strip which is adapted to engage the ratchet wheel 94 when the overload mechanism is set. The member 96 is resiliently urged to the left as viewed in Fig. 3 so that the spring catch 99 is urged in engagement with the teeth of the ratchet wheel 94 by a tension coil spring I02 which has one end connected to an ear I03 extending from the member 96 and the other end connected to a pin I04 extending from the insulating member 95. The member 96 on the opposite side is provided with a pivot pin I00 which extends through an intermediate portion of a floating lever IOI. One end of this lever IOI extends into a notch I05 formed in the member 98 and this forms the sole connection between the slide 96 and the member 98, while the other end of the lever IOI extends in an opposite direction beneath an insulating arm I06 which extends from the U- shaped bracket 65 on a side opposite the insulating arm 66.

When an excessive amount of current flows through the switch and particularly through the heater coil 89 the solder or fusible material 93 will first be melted and then the solder connecting the ratchet wheel with the stem of the solder pot 92 will melt and permit rotation of the ratchet wheel. This will release the spring member 99 and the member 96 and permit the spring I02 to carry the member 96 and the lever IOI toward the left as viewed in Fig. 3, so that an end of the lever IOI will engage the end of the arm I06, as shown in Fig. 5, in order to forcibly move the armature arm 6'! and the contact 'II to open circuit position. This movement is permitted regardless of the condition of the bellows 32 by reason of the slot 6| which under the control of the spring 56 permits the movement of the armature arm 61 independently of the movement of the bellows in this direction. This slot and spring connection of the slot GI and the spring 56 also prevents damage to the armature arm by-taking up any excess movement and expansion of the bellows 32 without placing a force upon the armature arm greater than the tension of the spring 51.

In order to reset the overload means, the member 98 is forced directly downwardly as shown in Fig. 4 so that its notch I05 bears upon the one end of the lever Ifli against the tension of the spring I0! and so that by the reaction of this force, the other end of the lever IOI contacts with the arm E06 and thereby holds the switch contacts open. The reaction of the force imposed upon the lever iii! by the notch I05 also moves the slide member 96 downwardly against the tension of a spring I92 so that the spring catch 99 is moved beneath the ratchet wheel as viewed in Fig. i so that when the member 99 is released the spring catch will rise and engage the ratchet wheel and permit the lever iii! to move away from the arm I06 in order to permit the switch contacts to move to closed position. The member 98 may also be employed to open the contacts by pressing directly down thereon to cause the lever IOI to be turned in a clockwise direction as shown in Fig. 4 to engage the arm i06.

Referring now more particularly to Figs. 1 and 9 to 13 inclusive, there is provided a high pressure cut-out mechanism at the left of the pres- ,sure responsive mechanism heretofore described.

This high pressure cut-out mechanism is provided with a U-shaped bracket I20 similar to bracket 40 which has a bellows assembly mounted on one end. This bellows assembly has an upper plate I2I and a lower plate I22 riveted together by pins I26 similar to the other bellows assembly. The bellows assembly is fastened to the U- shaped bracket I20 by screws II9 which pass through opposite corners of the upper and lower plates I2I and I22. Fastened to the lower plate is the end plate I23 which carries the high pressure tubing H24 connecting the bellows assembly with the supply conduit 24. Surrounding the upper end of the tubing [I24 is a gland nut i245 which fastens the end member i2? to the bottom plate H22. The high pressure tubing H24 is soldered to the end plate I23 to seal the connection.

Connected to the end plate H23 and sealed thereto is a tubular member l2? which is connected at its upper end to the upper end of a bel-- lows i28 located Within the cylindrical member I2'I. Within the bellows I28 is a pin I29 having a reduced portion l30 extending through the closed lower end of the bellows into the central passage within the end plate I23. The upper end of the pin I28 has a reduced portion I 3I which extends througha central aperture in the upper plate I2I and an aperture in the U-shaped bracket I20 and has a conical point at its upper end which engages a recess in the bellows follower I32. The bellows follower is a triangular plate provided with a pair of cars I60 receiving a pivot pin I6I which is held by a pair of ears I62 extending from the U-shaped bracket I20. This reduced portion of the pin forms a shoulder which is adapted to engage the upper plate I2I in order to prevent the complete collapse of the bellows I28.

The movement of the bellows I28 and the pin I29 is controlled by resilient adjusting means including a lower spring retainer I 33'having a conical point I34 which engages a recess in bellows follower I32 substantially directly opposite the pin I39. Seated on the lower spring retainer I33 is a compression type of coil spring I35 which extends upwardly and surrounds at its upper end an adjusting screw I36 provided with an upper spring retainer I31 which is threaded thereon which receives the upper end of the spring I35. This upper spring retainer I3'I is prevented from turning by a projection which extends into a slot provided in the upper vertical portion of the U-shaped bracket I20. The adjusting screw I36 is provided with a fiange I 38 at its upper end which transmits the thrust of the spring to the U-shaped bracket I20. The upper end of the adjusting screw I36 is provided with a serrated disc I39 which is adapted to receive a key or the control knob 52 or a similar knob in order to turn the adjusting screw I36 which may be provided with means to limit its free rotation to one revolution. In order to strengthen the U-shaped bracket, a threaded pin I40 is provided which extends from the upper portion of the U-shaped bracket to the lower portion of the bracket in order to prevent the spreading of the extremities of the bracket I20.

In order to control the movement of the bellows follower I provide a floating type of snap acting mechanism. At the free end of the bellows follower I32 there is fastened a block I42, better shown in Fig. 13, which is engaged on either side by a conical pointed pin I43. These pins I43 engage recesses in the arms I44 which are pivoted at their upper ends of the U-shaped bracket I120 at the rear and to an extension. E45 therefrom at aliases the front. These arms I44 are pulled together by a spring means which includes a screw I46 extending inwardly from one of the arms and having a plate i4! threaded thereon which supports one end of a compression type coil spring I48 surrounding the screw I46. The other end of the spring I48 bears against the yoke I49 which extends through a slot in the other of the arms and is fastened by a cotter pintI50. With this arrangement a toggle mechanism formed by the conical points I43, the arm I44, and the spring H48 floats upon the pivot pins I5I and in this way is enabled to move laterally to'take care of any misalignment between it and the bellows follower without substantially affecting the action of the toggle snap acting mechanism. The bellows follower has an arm I53 extending therefrom (see Fig. 1) which when pressure within the supply line 24 and the bellows assembly is sufliciently high to overcome the force of the spring I35 and the toggle snap acting means is adapted to engage the arm I54 (see Fig. 2) which extends from the U-shaped member 65 in order to move the armature arm 61 to open circuit position regardless of the pressure within the bellows 32. This is permitted by the spring controlled slotted link connection 60. This high pressure cut-out therefore prevents the operation of the refrigerating apparatus under high pressure conditions when it would be dangerous to operate the system.

The U-shaped brackets 40 and I20 are provided with laterally projecting pairs of cars which are employed to fasten the pressure responsive means and the high pressure cut-out assemblies to the rear wall of the control housing I66 provided with the electrical inlet and outlet connections I61 and I68.

If desired, the high pressure cut-out mechanism may be omitted when such is not necessary to protect the apparatus. The overload mechanism may also be omitted if unnecessary. The adjusting screw mechanism for the high pressure cut-out and the temperature and pressure responsive switch means permit a great range of a setting of the control mechanism which is readily effected.

While the form of embodiment of the invention as herein disclosed, constitutes a preferred form, it is to be understood that other forms might be adopted, all coming within the scope oi the claim which follows.

What is claimed is as follows:

Refrigerating apparatus including a refrigerant evaporating means, and a refrigerant liquefying means operated by electric energy. means for controlling the supply of electric energy to the liquefying means including means responsive to the temperature of the evaporating means. means responsive to excessive flow of electric energy for stopping the supply of electric'energy,

and means responsive to conditions of the liquefying means for modifying the operation of the temperature responsive means.

GEORGE C. PEARCE.

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