DE1551310A1 - Evaporator coil - Google Patents

Description

McQUAY, INC., Minneapolis, 136ΟΟ Industrial Park Boulevard, Minnesota, V. Sτ. Α.

"Evaporator coil"

The invention relates to evaporator coil constructions, how they are used in ice machines and in particular on an evaporator coil, which is used in connection with an ice machine, which is referred to in specialist circles as "point freezer", is used, i.e. machines in which water is drawn will flow over a cooled area - "point" - to to put ice in this area in such a way that it grows to the desired size and shape.

Designed as a "point freezer" ice machine is generally described in US Patent 2 77 ¹ * 223 and generally comprises a pair of metal surfaces that face each

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opposite. Immediately opposite areas or "points" of the metal surfaces are interposed cooled by metal buttons or beads that are soldered or soldered to the outside of the metal surfaces in series-lying pairs are otherwise attached. The beads are in turn soldered to an evaporator tube, which carries a coolant and which transfers the cooling effect to the beads, which in turn cool the areas or points on the metal surface. Farther water is forced over the inner side of the metal surfaces to flow and freeze in the area of the cooled points of the surfaces. The water will freeze until the frozen at the two opposite points until it has grown so large that the two pieces of ice grow together, so that thereby a generally coiled thread Ice particles er-ieii will »

These known *, -is machines have the disadvantage that the the metal surfaces soldered beads and the evaporator coils are relatively thick and thus have a reduced heat transfer characteristic, which results in a deteriorated degree of efficiency the ice machine is effected. Furthermore, the solder, which the beads with the evaporator shaft and with the Metal surfaces connects, a very low thermal conductivity and thus causes the beads to be isolated from the evaporator coil and likewise from the metal surfaces, so that thereby

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in turn, the efficiency of the ice machine is reduced. ' >

The present invention relates to an improved evaporator coil suitable for use in the above general defined ice machine is determined, wherein the improved evaporator coil comprises a metal tube which has a generally rectangular cross-section *, so that each other opposite side walls of the tube in general are flat. The metal pipe many wall parts that are shaped so that a plurality of protruding Beads are formed along the metal tube in the direction of the longitudinal axis of the tube at a distance from each other are arranged. The protruding beads of the evaporator tube are then soldered to one another or to one another in some other way connected so that they touch the flat metal surfaces, so that isolated areas on the metal surface or demarcated Areas on the metal surface are cooled. Since the wall thickness of the improved evaporator coil is relatively thin, this coil has a much better thermal conductivity than the previously known devices, and in addition only a soldering point is provided for the connection, namely between the protruding beads of the evaporator coil and the metal surface. As a result, the heat transfer between the evaporator surface and the metal surface is improved and the effectiveness of the Ice machine increased.

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The invention relates to an improved ice machine.

Another object of the invention is an improved ice machine with an improved evaporator coil.

Finally, an evaporator coil is the subject of the invention, in which the walls are shaped to create a plurality of protruding beads.

Further advantages and features of the device according to the invention

go from the following description with reference to the drawings emerged. In the drawings shows

Fig. 1 is the pedigree of an ice machine according to the present invention, with some parts broken away,

FIG. 2 shows a section along the line 2-2 in FIG. 1, wherein also some parts have broken off,

3 shows an enlarged view along the line 3 - 3 in Fig. 1,

FIG. K shows a perspective illustration of an evaporator coil according to the invention and FIG

FIG. 5, on an even larger scale, a view of the evaporator coil according to FIG. K, parts also being broken away. . . ·

In the drawing, a compressor is designated eit 10, the

has an exit side 11 and an entrance side 12. the

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The output side of the compressor 10 is connected via a pipe 13 to a T-shaped connection part Ik , of which an output part is connected via the pipe 15 to the input side of a condenser. The outlet side of the condenser 16 is connected to one end of a capillary tube 21 via a drying device 17 and a filter element 20. The other end of the capillary tube 21 is connected to the inlet side of an evaporator 22. The evaporator 22 comprises a plurality of evaporator coils 23, and the output side of the evaporator 22 is connected to the input side of an accumulator 2k . The outlet side of the accumulator 24 is connected to the inlet side of the compressor 10 with the interposition of a pipe 25. The other outlet side of the T-piece \ k is connected to the inlet side of the evaporator 22 with the interposition of a hot gas solenoid 26.

The evaporator 22 consists of a plurality of evaporator coils 23, each consisting of a metal tube having generally flat, opposing walls 30 and 31 and opposing flat walls 32 and 33 has, the walls 30, 31, 32 and 33 a in general Create a metal tube with a right-angled cross-section. The opposing walls 30 and 31 are shaped so that a plurality of protruding beads are formed, which in the direction of the longitudinal axis of the tube in the

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Are arranged one behind the other at a distance from one another.

The wall 30 of the helix 23 is designed so that a first wall part Jk and subsequent wall parts provided with an odd number, for example 35 and 37t, are offset in one direction, while the wall 31 has a second area kO and subsequently just numbered parts , for example k2 and kk , which are offset in the opposite direction.

The evaporator coil 23 can be made of any corresponding metallic Material, such as a copper tube, and the manufacture of the protruding beads of the helix can by a corresponding work tool is carried out. Preferably, the copper pipe is used to form the protruding beads with a non-compressible liquid, such as water, and a corresponding pressure relief valve is provided, to control the hydraulic pressure before reaching a pressure that would destroy the copper pipe. That with The water-filled pipe is inserted into an appropriate working tool, and the two working tool halves become forced to approach each other, so that the walls of the copper pipe are deformed. Are the walls of the copper deformed pipe, hydraulic pressure is built up in the pipe,

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which forces the walls of the pipe to move into the appropriate to take place in the work tool.

A metal surface k $, for example made of corrosion-resistant steel, is in contact with the protruding beads on the wall 30 of each evaporator coil, and another, for example a plate 46 made of corrosion-resistant steel, is in contact with the beads, which consist of the wall 31 each Evaporator coil 23 are formed. Die.Metallflächen k $ and k6 are attached to the protruding beads in any way, such as by soldering or brazing.

The water circuit for the ice machine according to the present invention

finding is as follows

A water inlet 50 is connected to a float valve 52 with a pipe 51 interposed. The float valve 52 controls the water level in a water tank 53 · 5 ^ A pump having an outlet which leads the interposition of a _(pipe 55 to a water collector 56th A water distributor

57 is arranged below the water collector 56 and has • a plurality of openings 58 in the ground, the openings

58 arranged in rows above the metal plates k5 and k6 • Ind. Water guide surfaces 60 are arranged below the openings 58 of the water distributor 57 and lead the water from the supply

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plate over the surfaces of the metal plates 45 and 46-. Below of the metal plates 45 and 46 and above the Vaeserbehälters 53 iöt an inclined screen 61 is arranged. An end of the screen 61 engages over an ice collecting container 62.

The cooling circuit of the ice machine according to the present invention operates in two working cycles, one being the cooling cycle, on the other hand the "harvest cycle".

During the cooling cycle, the compressor 10 pumps a high voltage Gas through the line 13, the T-piece 14 to the condenser 15t in which the gas is condensed into a liquid. That liquid refrigerant enters the evaporator 22 and evaporates, thereby absorbing heat, and the protruding Bulges on the evaporator coils are cooled. The low pressure. Steam then leaves the evaporator and enters the accumulator 24 and returns to the compressor 10 from there.

During the "harvest cycle lake", the hot gas solenoid 26 is below Voltage is set so that as a result the high-tension hot cooling gas can bypass the condenser 16 and into the evaporator 22 entry. The hot gas heats the protruding bead on the Evaporator coil 23 and thereby causes that the Plates 45 and 46 collected ice. Falls off. The hot gas flows then from the evaporator into the accumulator 24 and from there to the compressor 10.

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The water flows to the water reservoir 53 from the source via line 51 and float valve 52. The water pump

54 pumps the water from the container 53 via the water pipe

55 to the water collector 56. The water from the water collector 56 flows into the distributor 57 ^{un (} * from the plurality of holes 58 in the bottom of the distributor 57. The water emerging from the holes 58 flows over the guide surfaces 6O and is forced over the surfaces of the plates 45 and 46. The water that flows over the chilled beads on surfaces k5 and 46 freezes and the ice grows on these chilled beads. If the water or the freeze cycle freezes long enough, it grows on each other opposing beads of the surfaces 45 and 46 to such a size that the two separate ice particles combine and form a single coil-shaped piece of ice the ice particles are removed from the surfaces 45 and 46 and are guided via the inclined screen 61 into the ice collecting container 62. The water flows from the surface From 45 and 46, through the screen 6 \ , into the water container 53.

It goes without saying that the invention is not based on that illustrated Embodiment is limited, but there are

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on the other hand, changes are possible without the basic idea of Invention to leave.

Claims

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Claims (1)

1 «Ice maker marked by a) a metal tube (23) with a horizontal axis, b) the metal tube (23) has first and second generally flat wall areas (30, 31), c) at least on one of the walls (3 ° t 31) a plurality of projecting beads (34, 35, 37) or (40, 42, 44) , d) the beads are arranged at a distance from one another in the longitudinal direction of the tube (23), e) surfaces (45, 46) connected to the beads on the metal tube (23) , f) Devices which supply a coolant to the metal tube (23) in order to prevent the protruding beads (34, 35t, 37) or (4O, 42, 44) surfaces (45, 46) in contact to cool g) Devices to allow water to flow over the surfaces direct and freeze from it. 2. Device according to claim 1, characterized in that both sides of the metal pipe (23) are provided with protruding beads. 3 · Device according to claim 1, characterized in that the with the protruding beads connected plates made of corrosion-resistant steel. - 12 - - 009809/0599 k. Device according to at least one of the preceding claims, dadurch_gekennzeichnet _A that the tube acting as an evaporator (23) has rectangular cross section. 5. Device according to at least one of the preceding claims, characterized ^ that the projecting beads of the tube are achieved by deformation of the tube and are offset from one another in the direction of the longitudinal axis of the tube (23). 6. Device according to at least one of the preceding claims, characterized in that the plates (45, 46) with the flat bead surfaces (34, 35, 37) or (40, 42, 44) soldered or firmly connected in otherwise known manner β ind. 009809/0599 Ί3: Empty soap