US110573A - Improvement in machines for cooliug air and for the manufacture of ice - Google Patents

Improvement in machines for cooliug air and for the manufacture of ice Download PDF

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US110573A
US110573A US110573DA US110573A US 110573 A US110573 A US 110573A US 110573D A US110573D A US 110573DA US 110573 A US110573 A US 110573A
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air
chamber
ice
manufacture
machines
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B9/00Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point
    • F25B9/002Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the refrigerant
    • F25B9/004Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the refrigerant the refrigerant being air

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  • the invention consists, further, in the construction and arrangement of the vessel for receiving and cooling the water while on its way to the freezing-chamber.
  • a in the drawing represents a large cylindrical casing made of wood or other suitable material. It contains two transverse partitions, 'a and b, which divide it into three main chambers, c, d, and e.
  • the middle chamber, d has, furthermore, two horizontal partitions, f f, which are connected by open-ended pipes 'g 9. These pipes serve as communications between the upper and lower ends h of the chamber d, and traverse a chamber, '2', which is formed ,by and between the partitions f.
  • a pipe, j connects the lower part of the chamber c with the'upper part of d, or rather h.
  • Another pipe, k connects the lower part'of the chamber h with the chamber 6, and a third pipe, 1, connects the chambers '11 and e. 7 All these pipes have suitable stop-cocks,
  • thermometer t.
  • a manometer, u should be applied to the upper chamber a.
  • O D are the two cylinders of a double-acting air-pump, the plungerso or which are operated by a rotary crank shaft, E, or other machinery, to which motion is applied by suitable mechanism.
  • the lower sucking-pipe w of said pump entersthe compartment 11, while the upper discharging pipe :1: enters the chamber 0.
  • the pump is of suitable construction, and provided with all necessary valves.
  • the operation is as follows: The pump withdraws ;air from the chamber 1', and compresses that within the chamber 0. When, the air in c has been compressed to the desired degree,
  • the pipe 7' is opened, and it is allowed to enter .the chamber h, passing through the pipes g g, which are cold, by being surrounded with rarefied air in t.
  • the air from o is thus at once expanded, and additionally cooled in h, the degree of heat-absorption by the pipes .g and plates f increasing in the same ratio in which air is Withdrawn from 'the compartment
  • the air is from the chamber it allowed to enter eby the pipe is, and is within the compartment 0 further expanded and cooled. Thence it passes through the pipe 12. into the chamber 1, cooling thepipes p and plates 0. Water to be frozen enters the upper chamber 4 through a pipe, y, and'is reduced in temperature by contact with thecold plates 0 and pipes 12.
  • the vessel B can be dispensed with, and the rarefied air conducted to the apartments or devices which are to be cooled. It is evident that the number of vessels used for successively expanding the air can be'varied at will, as well as their size, shape, and positiouto each other, and that the power of the machinery is increased by the addition of other vessels.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)

Description

J.KRAFFERT. MACHINE FOR COOLING AIR AND FOR THE MANUFACTURE 01F ICE.
No. 110,573. Patented Dec. 2'7, 1870.
. L'5 i E 1% k a; A
. Harman S'rnrrns Parana @rrron.
JULIUS KRAFFERT, OF HOBOKEN, NEW JERSEY.
IMPROVEMENTlN MACHINES FOR COOLING AIR AND FOR THE MANUFACTURE OF ICE.
Specification forming part of Letters Patent No. 1 [0,573, dated December 27, 1870.
To all whom it may concern:
Be it known that I, JULIUS KRAFFERT, of Hoboken, in the county of Hudson and State of New Jersey, have invented a new and improved Machine for, and Process of, Cooling Air; and I do hereby declare that the following is a full, clear, and exact description thereof, which will enable others skilled in the art to make and-use the saine, reference being had to the accompanying drawing, forming part of this specification, in which- Figure 1 representsa vertical sectional view of my improved air-cooling machine. Fig.2
ment and connection of a series of vessels insuch a manner that compressed air entering the same from one-end will be gradually expanded and rarefied, until its temperature has been reduced to the desired degree.
The invention consists, further, in the construction and arrangement of the vessel for receiving and cooling the water while on its way to the freezing-chamber. A in the drawing represents a large cylindrical casing made of wood or other suitable material. It contains two transverse partitions, 'a and b, which divide it into three main chambers, c, d, and e. The middle chamber, d, has, furthermore, two horizontal partitions, f f, which are connected by open-ended pipes 'g 9. These pipes serve as communications between the upper and lower ends h of the chamber d, and traverse a chamber, '2', which is formed ,by and between the partitions f. A pipe, j, connects the lower part of the chamber c with the'upper part of d, or rather h. Another pipe, k, connects the lower part'of the chamber h with the chamber 6, and a third pipe, 1, connects the chambers '11 and e. 7 All these pipes have suitable stop-cocks,
q into the compartment e. Each of the vessels heretofore specified is provided with a thermometer, t. A manometer, u, should be applied to the upper chamber a. O D are the two cylinders of a double-acting air-pump, the plungerso or which are operated by a rotary crank shaft, E, or other machinery, to which motion is applied by suitable mechanism. The lower sucking-pipe w of said pump entersthe compartment 11, while the upper discharging pipe :1: enters the chamber 0. The pump is of suitable construction, and provided with all necessary valves.
The operation is as follows: The pump withdraws ;air from the chamber 1', and compresses that within the chamber 0. When, the air in c has been compressed to the desired degree,
' the pipe 7' is opened, and it is allowed to enter .the chamber h, passing through the pipes g g, which are cold, by being surrounded with rarefied air in t. The air from o is thus at once expanded, and additionally cooled in h, the degree of heat-absorption by the pipes .g and plates f increasing in the same ratio in which air is Withdrawn from 'the compartment The air is from the chamber it allowed to enter eby the pipe is, and is within the compartment 0 further expanded and cooled. Thence it passes through the pipe 12. into the chamber 1, cooling thepipes p and plates 0. Water to be frozen enters the upper chamber 4 through a pipe, y, and'is reduced in temperature by contact with thecold plates 0 and pipes 12. it passes through the pipes s into the chamber 0, where it is congealed by contact with the rarefied air therein. The ice will be formed upon the bottom hof the vessel 0, which bottom, being hinged, can be swung down whenever the ice is to be removed, The'pipe I can be opened whenever complete circulation is to be obtained through the chambers z, e, and
h, and when, also, by the pump, the air is to be withdrawn from both chambers e and 6.. When thecold air is to be used for other than ice-making purposes, the vessel B can be dispensed with, and the rarefied air conducted to the apartments or devices which are to be cooled. It is evident that the number of vessels used for successively expanding the air can be'varied at will, as well as their size, shape, and positiouto each other, and that the power of the machinery is increased by the addition of other vessels.
It will also be seen that, in this machine, no
agency but power is required, and the expense of ice-making is consequently reduced to the mere production of power and repair of mechanism. H v
I am aware of the patent of Franz Windhausen, dated March 22, 1870, No. 101,198, and. disclaim anything therein contained; but
What I claim as my invention, and desire to secure by Letters Patent, is-
1. The combination of the tubular chamber h and its inclosing-chamber z with the doubleacting air-pump and the compression-chamber.
2. The combination of the'tubular chamber h and its inclosing-chamber i-with the freez-' ing-ch'amber e. t
3. The combination of the tubular coolingchamber q and its inclo'sing-chamber r with the freezing-chamber e.
4. The combination and arrangement of the freezing-chamber e, tubular expansionrchamber h, and the compression-chamber c, as described,
JULIUS KBAFFERT.
Witnesses A. V. BBIESEN, 'GEO. W. MABEE.
US110573D Improvement in machines for cooliug air and for the manufacture of ice Expired - Lifetime US110573A (en)

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