US2025240A

US2025240A - Refrigerant gas compressor

Info

Publication number: US2025240A
Application number: US749137A
Authority: US
Inventors: William W Higham
Original assignee: UNIVERSAL COOLER CORP
Current assignee: UNIVERSAL COOLER Corp
Priority date: 1934-10-20
Filing date: 1934-10-20
Publication date: 1935-12-24
Anticipated expiration: 1952-12-24

Description

Dec. 24, i935.

l INVENTOR 3 h//LL/AM h/ MGH/1M l BY ATTORNEYS.

Dec. 24, 1935.

- '.w. w. HIGHAM REFRIGERANT GS COMPRESSOR 5 Sheets-Sheet 2' Filed Oct. 20, 1934 INVENTOR. l/l//LL/AM W H/GHAM Jgd ATTORNEYS.

Dec. 24, 1935. w. w. HIGHAM 4 REFRIGERANT GAS COMPRESSOR 3 Sheets-Sheet Filed 001'.. 20, 1954 INVENTOR. -h//LL/AM W H/GHAM BY m,

ATTORNEYS.

Patented Dec. 24,

'2.025.240 aEFmGEaANT Gas comaassoa William W. Higham, Detroit, Mich., assigner to Universal Cooler Corporation, Detroit, Mich., a

corporation of Michigan Application October 20, 1934, Serial No. 749,137

9 Claims. (Cl. 23o2s1) 'Ihis invention relates to refrigerant compressors, and has to do particularly with a valve assembly for the entrance of expanded refrigerant into a compressor and for the discharge of the compressed refrigerantl therefrom.

Heretofore it has been largely the practice with compressors of the type employing reciprocating pistons, to draw theeXpanded refrigerant into the crank case of the compressor, passing the same through a valve'in the piston head, then compressing" the gasesin the cylinder and dischargingthe same from the cylinder. Such a 4compressor employs lubricating oil in the crank case, with the result that the refrigerant at times carries slugs of oil through the valve inthe piston into the compressing chamber above the piston, and such oil passes through the refrigerant lines. This is undesirable from a number of standpoints, and notably the fact that such slugs of oil are forced through outlet valves which must be constructed to handle such slugs, and resulting in undesirable valve noise. 'I'here is always the possibility of .the refrigerant mixing with the hot lubricating oil and creating an eifervescing of the oil, thus increasing the tendency of the refrigerant to carry the oil with it into the compressing chamber. y

This invention provides a valve assembly for use with a compressor of the piston type wherein refrigerant is drawn directly into the compressing chamber, compressed 4therein and` discharged therefrom Without passing through the crank case. This structure positively eliminates slugs of oil getting into the refrigerant lines. The invention further contemplates a structure for the draining of any oil which may get into the refrigerant back to the crank case, it being understood, of course, that in the normal operation of such a compressor there may be some oil leakage past the piston and piston rings. Still further, the invention aims to provide a unit valve assembly where, in one assembly, both the intake and discharge valves are included. This assembly is arranged so that the entire assembly may be quickly and easily removed and a new assembly installed, thus materially facilitating repair and reconditioning work, and requiring no tearing down of the compressor as a whole and requiring no access to the crank case.

A compressor constructed in accordance with the invention, due to this valve arrangement, is capablel of more universal use in that it will satisfactorily perform its work under varying loads. In other Words, a compressor of constant speed and of constant displacement will satisfactorily take care of operations where the loads on the compressor vary. For example, such a compressor may be switched from an ice cream freezing system to a hardening system where-there is a large differential in the temperatures maintained.

To further'exemplify this thought it may be pointed out that with some freezers, for example, the pressure in the refrigerating system may be about 10 pounds, while, for example, in some hardening units the pressuremay be about minus 10 inches 5 of mercury. This represents a total difference of about 30 pounds, yet the compressor Vwill satisfactorily perform its function under such varying conditions.

I In the accompanying drawings: l t l0 Fig. l is a sectional view taken through a compressor cylinder illustrating the cylinder structure and some of the valve assembly.

Fig. 2 is a plan view with some parts removed showing what may be termed the underside of l5 the valve plate and illustrating valve structure.

Fig. 3 is a sectional view taken through the cylinder block of a compressor showing the valve plate assembly substantially on line 3--3 of Fig. 2.

Fig. 4 is a view of a. compressor showing the 20.

lparts cut away, illustrating the valve plate struc- 25 ture.

Fig. 6 is an enlarged detail view showing some of the valve plate structure and valve arrangement. f'

Fig. 'lis a detail view illustrating a valve re- 30 taining member.

Fig. 8 is a detail view of a cage structure for a discharge valve.

'I'he compressor, as shown herein, has the usual crank case I with a crank therein as shown at 2, 35 designed to be driven by suitable means. The compressor has a cylinder block 3 which has two cylinders, as shown herein, and pistons 4 operate in the cylinders and are connected to the crank shaft by conventional connecting rods 5. 'Ihe 40 invention is not limited to a compressor with two cylinders, as the valve assembly may be used with a compressor having but a. single cylinder. The cylinder head is illustrated at 6 and this may be suitably fastened to the cylinder block by cap 45 plate may be shaped as illustrated in Fig. 5, and

provided with apertures I1 into which connect 55 refrigerant return pipes I8. These' two pipes may be branches of a single return pipe or may each constitute a separate returnfrom the cooling unit or units. A shut-off valve I9 may be provided in each returnline of desired. The 00 screws 1 may pass therethrough, thus to hold the valve plate securely positioned and sealed between the cylinder block andthe cylinder head. vSuitable gaaketsfmayfbe used *for this purpose.

In thefonn shown'the' valve plate has two complete valve arrangements, each embodying ini take and outlet4 valves, there being a complete valve arrangement for each cylinder. The valve plate is preferably sealed as by means of a gasket against the wall of the cylinder block which divides the cylinders, as illustrated at (Fig. 4).

'Ihe inlet valve arrangement advantageously comprises a plurality of circularly arranged ports in the valve plate and connecting into the chamber I6. A floating valve may be provided for each port, 'and such valves may take the form ofA light metal discs 26. A holding ring 21 may be positioned over the several discs 26 and secured to the plate by screws 28. The valve body is suitably machined to 'provide recessed curved walls 29 so that each valve member is held posi- .tioned over its port and the valve body may have a circumferential groove 30 in which the valves are located and in which the holding ring 21 is I located. The valves 26ilt rather loosely relative l the cylinder above a piston. When compressionv 6, for the free passage of refrigerant. A slight clearance is provided so that the valves may shift axially, seating against the valve seat 3l around each port in one extreme position and resting against the holding ring 21 in another extreme position. The holding ring may be provided with an aperture 32 adjacent each valve.

It will be noted that this structure forms a check valve arrangement in that when a suction occurs in the cylinder gases may flow from the chamber I6 through the several valves and into occurs in the cylinder the valves 26 are caused to seat against the valve seats 3l, thus closing the ports and preventing the refrigerant returnlng to the chamber I6. As willbe noted by reference to Flg.2, such a valve arrangement is provided for each cylinder.

'Ihe discharge valve for each cylinder may advantageously be located centrally of the circularly arranged inlet valves. For this purpose the r valve plate may have an aperture 35 extending therethrough, there being an-aperture for each cylinder. A discharge valve controls each aperture. The discharge valve structure may take the form of a valve member 36 arranged to contact with a valve seat- 31. A cage .structure 40 may be fastened to the valve plate by cap screws 4l. A guide stud 42 may be carried by the cage and provided with a head 43 for guiding the valve 36, the valve being formed with a suitably shaped recess 44 for receiving the head 43. The valve 36 is held normally seated advantageously by two spring structures, one of which is 'relatively weak to permit of normal valve movement in the discharge of refrigerant, the other of which is stronger and functions to permit the passage of a. slug through the valve. structure may take the form of spring metal discs 45 acting on the valve and reacting against the head of the stud 42. In normal valve action these spring discsA flex to let the valve move from its seat. The stud 42 is preferably acted upon by a stronger spring which may be a. coil spring, shown at 46, and if the presence of a slug requires additional movement in the opening of the valve, the -spring 46 iiexes.

It may further be pointed out that prior to the The weak spring act of assembling the cylinder head to the cylinder block the valve plate may be attached to the cylinder block by cap screws 56 passing through apertures 5| in the valve plate, with the cap screws threaded into the block. 5 For the purpose of draining such lubricating oil as may be carried by refrigerant, due to the leakage of the oilpast the piston into the compressing chamber, the cylinder block is provided with a passageway 55 connecting into the 10 crank case andextending through the cylinder block and opening in the top of the block. A

port- 56 is provided inthe valve plate and the same communicates with the passageway 55, thus establishing a. connection between the refriger- 15 ant return chamber I6 and the crank case. It will be also noted that a structure which is preferable embodies lower wallslof the chamber I6 which are inclined with the port 56 at the lowest portion thereof in order to provide for a drain- 20 ing action of lubricant to the port 56 for drainage back into the crank case through the passageway 55.

In the operation of .the compressor downward movement of a piston creates a depression in the 25 cylinder and expanded refrigerant is drawn into the cylinder through the inlet ports 25. Upward movement of the piston causes the valves 26 to close the ports 25, compresses the gases and forces the same out through the discharge valve 36. The :zo refrigerant passes into the compartment 8 and then out through the conduit 9. Ordinarily. a relief valve arrangement such as provided by the spring 46 is unnecessary in this structure. 4However, some lubricating oil, as above men- 35 tioned, may leak past the piston ring, and if the same develops into a slug it may freely pass through the discharge 'valve by functioning of the spring 46. This relief valve arrangement is provided largely as a safety factor to take care 40 of any unusual or unexpected conditions. The expanded refrigerant returns into the chamber i6, and dueto the fact that this chamber is connected to the crank case the pressures are equalized. Accordingly, any lubricant which re- 45 turns with the refrigerant may drain back into the crank case, the draining being facilitated by the inclined walls 51. It will be observed that each cylinder has its own valve assembly including both inlet and discharge valves and accordingly it is within the invention to employ a compressor with but a single cylinder, using one valve assembly. The action of the valve when relieved by the spring 46 for the passage of a slug therethrough creates the objectionable noise, as

above alluded to, but with the present arrangement this action of the valve is practically eliminated.

Many times an installation develops an imperfect action, and many times this action is 60 entirely due to ineiiicient or defective valve action. With the present structure a repair or conditioning j ob merely requires removal of the head, replacing the old'valve plate assembly with a new valve plate assembly and then remounting the head. This is a simple operation which can be quickly and easily done and it requires no tearing down of the compressor as. a whole, and requires no access to the crank case.

As above pointed out this structure is capable of functioning efficiently on varying loads even though the compressor be of a constant speed type and of constant displacement. This is facilitated by reason of the fact that the conditions of the returning refrigerant. the temperature and is not complicatedvby crank caseconditlons as would be the casel if the rcfrigerant-:werefdrawn r throughthe crank case. Substantially the only variation in the crank case condition resides in the fact that the pressures in the chamber i8 and crank case are balanced, with the result that the pressure in the crank, case will vary with that in the chamber I6, but this variation has no sub. stantial effect upon the operationof the compressor.

I claim:

1. In a refrigerant compressor, the combination of a compressor having a cylinder block and a crank case, a' cylinder head attachable to the cylinder block and forming a discharge compartment, a valve plate having a chamber for expanded refrigerant, a valve controlled port in the plate connecting the chamber to the cylinder, a valve controlled discharge port in the 'plate connectlng the cylinder with the discharge compartment, and a drain conduit connecting the said chamber with the crank case of a compressor.

2. In a refrigerant compresson; the combination of a compressor having a cylinder block and a crank case, a cylinder head attachable to the cylinder block and forming a discharge compart- Y ment, a valve plate having achamber for expanded refrigerant, a valve controlled port in the plate connecting the chamber to the cylinder,

a valve controlled discharge port in the plate.

connecting the cylinder with the discharge compartment, said plate having an aperture therein connecting into said chamber, and drain conduit extending from said aperture to the crank case for draining lubricating oil to the crank case.

1 3. Inarefrigerant compressor, the combination of a compressor having a cylinder block and a crank case, a cylinder head attachable to the cylinder block and forming a discharge 'compartment, a valve plate having a chamber for expanded refrigerant, a valve controlled port in the plate connecting the chamber to the cylinder, a valve controlled `discharge port in the plate connecting the cylinder with the discharge compartment, said valveplate having an aperture therein connecting into said chamber, a passageway formed in the cylinder block and connecting at one end to the crank caseand at its opposite end to said aperture for-*draining lubricant or the like into the crank case.

4. In a refrigerant compressor, thercombination of a compressor having a cylinder block and a crank case, a cylinder head attachable to the cylinderblock and forming a discharge compartment, a valve plate having a chamber for expanded refrigerant. a valve controlled port 'in the plate connecting the chamber td the cylinder, a valve controlled discharge port in the plate connectingthe cylinder with the discharge compartment, said plate having a drain aperture therein connecting into the chamber, the lower walls of vsaid chamber being inclined downwardly to said drain aperture to facilitate gravity now, and a drain conduit associated with said aperture and running into said crank ease. v

5. In a refrigerant compressor, the combination of a compressor having a cylinder block and a crank case, a cylinder head attachable to the cylinder block and forming a discharge compartment, a valve lplate having' a chamber for expanded refrigerant, a valve controlled -port in the plate connecting thek chamber to the cylinvpressor comprising, a hollow plate for disposition 10 4between a cylinder block and cylinder head of a 20 der, a valve controlled discharge port in the plate connecting the cylinder with the discharge compartment,` said plate having `a drain aperture* therein connecting into seid chamber, and admin i 5 passageway formed in the cylinder block and 5 connecting at one end into-the crank case and at its opposite end to said aperture for draining lubricant into the crank case;

6. A valve plate assembly for a refrigerant com.-

between a cylinder block and cylinder head of a compressor, said hollow plate forming a chamber for expanded refrigerant, a valve controlled port in the wall of the plate connecting into said chamber, a discharge' aperture extending through l5 the plate,.and valve means mounted on the plate for controlling said discharge aperture.

7. A valve plate assembly for a refrigerant compressor comprising,T a hollow plate for disposition compressor, said hollow plate forming a chamber Afor expanded refrigerant, a plurality of circularly arranged ports in the wall of the plate, a floating disc valve for each port, a holding ring positioned over the severaldisc valves, a discharge aperture25 extendingv through the plate, and valve means mounted upon the plate and controlling theopening and closing of the discharge aperture;

8. In a refrigerant compressor, in combination with a cylinder block having a cylinder witha-SO piston therein, and a cylinder head forming a discharge compartment and which is removably attached to the cylinder block, and which has a discharge aperture; of a hollow valve .plate positioned between the cylinder block and cylinder 35 head, said hollow valve plate having an inlet aperture through one of its walls leading into the hollow interior for the passage of expanded refrigerant into the hollow 4interior of the plate independently of the cylinder block and cylinder 40 head, a valve controlled inlet port in one wall of the hollow valve plate connecting the interior of the hollow head to the cylinder, and a valve controlled outlet port extending through -the valve'plate and connecting the cylinder and the 45 said discharge compartment formed by the cylinder head.

9. In a refrigerant compressor, in combination with a cylinder block having a cylinder with a piston therein, and a cylinder head forming n50 discharge compartment, and which is removably attached to the cylinder block, and which has a discharge aperture; of a hollow valve plate positioned between the cylinder block and cylinder head, said hollow valve plate having an miei; 55

aperture through one of its walls leading into the hollow interior for, the passage of expanded refrigerant into the hollow interior of the plate entirely independently of the cylinder block and cylinder head, said valve plate having ports inc one of its walls connecting the hollow interior of the valve plate to the cylinder for the inlet o f gaseous refrigerant to the cylinder, valvevmeans carried entirely by the valve plate and controlung said ports, saidv valve plate having n .dis- 5 charge port extending entirely through the valve plate which is separated from the hollow interior thereof and which connects lthe cylinder and disp charge compartment, and a discharge valve carried entirely by the valve plate said discharge port.

for controlling WIIHAM" w. HIGHAM: