DE2204722A1 - Device for initiating a defrosting process in cooling systems - Google Patents

Description

ν /. 560

Augsburg, January 31, 1972

Thermo King Corporation, 314 West. 90th, Street, Minneapolisj Minnesota, V.St.A.

Device to initiate a defrosting process in

Cooling Systems

The invention relates to devices for initiating a defrosting process in refrigeration systems with an evaporator to be defrosted from time to time and with a fluid moving during operation of the relevant refrigeration system »

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It is known that in evaporator cooling systems the evaporator must be defrosted from tent to time, to prevent excessive ice formation on the evaporator, which would interfere with the operation of the cooling system and could lead to their complete failure. Numerous devices for generating a defrost signal for periodic defrosting of the evaporator are already known. Some of these well known bodies speak on a certain number of operating hours of the cooling system, - while others on. the accumulation of ice on the vaporizer and other wines combined Address the condition from the number of operating hours and ice formation. A typical example of a conventional device for Initiation of a defrosting process is known from US Pat. No. J5,159. In this known device, a defrost start switch is used operated by a clockwork gear, which is directly from the drive motor of the to be cooled Fluid is driven by the evaporator conveying fan,

The object of the invention is to be achieved a device for initiating a defrosting process in To create cooling systems which, depending on a flow rate moving within the relevant cooling system,

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-means and not having a mechanical coupling a rotating part of the cooling system, for example the compressor or the main fan motor

In order to achieve this object, the invention includes a device for initiating a defrosting process in refrigeration systems with an evaporator to be defrosted from time to time and with one during operation the relevant cooling system moving fluid. Such a device is according to the invention by a displaceable by the moving fluid lh rotation Impeller and characterized by a switch coupled to this impeller, which depends on is operated by a certain state of rotation of the impeller and thereby a defrost signal for the relevant cooling system initiates.

The actuation of the defrost switch of the device according to the invention as a function of the moved Fluid has numerous advantages. For example, it is advantageous that the gear drive for the switch not in the immediate vicinity of either the fan wheel and its motor or the

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Compressor and its motor needs to be attached. In addition, it is an advantage that the gear train can be designed so that it is either a change in speed or a change in the flow rate of the by the evaporator to be cooled fluid or the period of time during which such Fluid flows through the evaporator or can be adjusted to both conditions. in the the latter case could include the time span of the flow of the fluid before the initiation of the defrost signal increasing ice formation.

The fluid that is in the facility after of the invention drives the impeller, although it is preferably that by passing it through the heat exchange fins of the evaporator fluid to be cooled, but it can be from another moving fluid, such as the refrigerant. Of the. The switch to initiate the defrosting process is in Further development of the invention coupled to the rotating impeller via a suitable gear train, that it is operated as a function of a certain state of rotation of the impeller, for example after a certain number of revolutions of the wing

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wheel according to the operating period of the relevant Cooling system or, for example, depending on a change in the speed of the impeller according to a Change in the flow condition of the fluid flowing in the relevant cooling system. With a preferred Embodiment of the device according to the invention is the impeller in one to the evaporator arranged in parallel bypass and the switch speaks to a certain number of impeller revolutions indicated by a clockwork gear driven by the impeller, and thereby shows a total operating time of the relevant cooling system. In the aforementioned embodiment of the device according to of the invention are the impeller and the clockwork gear due to the fluid flow in the bypass, which becomes stronger with increasing ice formation on the evaporator driven and operate the defrost signal switch sooner than when the evaporator is not covered with ice. In a further preferred embodiment of the Device according to the invention, the switch is a centrifugal switch connected to the impeller via a gear train. This gear transmission is not a clockwork transmission, but a suitable one Reduction or transmission gear, which the

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required speed of the centrifugal switch then generated when the impeller is at a certain speed rotates, which indicates the flow rate in the evaporator that corresponds to the state of a corresponds to certain ice formation on the evaporator. If the switch, is a centrifugal switch and when the impeller is arranged in the bypass on the evaporator is, the switch is operated by increasing the speed. On the other hand, if the impeller is located directly in the fluid flow either upstream or downstream of the evaporator, so speaks the centrifugal switch to reduce the speed of the impeller and generates a defrost signal due to ice formed on the evaporator.

Several embodiments of the device according to the invention are shown in the drawing and are described in more detail below. Show it:

Fig. 1 in elevation and partly in

Section a preferred embodiment of the device according to the invention, in which the Abtauslgnalschalter over a clockwork transmission is operated,

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Pig. 2 another preferred one

Embodiment of a device according to the invention, which within a bypass connected in parallel to the evaporator is arranged,

Fig. 3 shows a diagram yet another

Embodiment of the device according to the invention, at which the impeller and the defrost signal switch to the flow movement of a respond to gaseous refrigerant in the cooling system, and

Fig. 4 shows another illustration

management form of the device according to the invention, in which a centrifugal switch is used as a defrost signal switch.

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Fig. 1 shows an evaporator 10, which is attached to a transverse wall 11 within a channel 12 of a cooling system is appropriate. The fluid to be cooled by the cooling system, usually air, is supplied with the aid of a Blower I ^ in the direction of the arrows the evaporator 10 blown through. The transverse wall 11 is on one side of the evaporator 10 with a Opening 14 is provided, in which an impeller I5 rotates is stored. The impeller 15 is connected to a defrost start signal switch 17 via a gear train 16 coupled. The gear train 16 can be a simple clockwork transmission, which instead of by the conventional clockspring driven by the impeller I5 will. The impeller 15 rotates as long as the fan 13 to be cooled by the fluid Evaporator 10 conveys through and also conveys part of this fluid through opening 14. After a certain number of revolutions of the impeller I5 corresponding to a certain period of time the flow of fluid through the evaporator, the gear train 16 closes the defrost start signal switch 17 and thereby generates a signal which is sent via conductors 18 and 19 to a device (not shown) is forwarded, which, after receiving this signal, reverses the operation of the cooling system in a manner known per se

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and thereby causes the evaporator 10 to be defrosted. As the formation of ice on the evaporator 10 increases, the air flow through the evaporator decreases. As a result, however, the air flow through the bypass opening IH- and thus the speed of the impeller 15 and the clockwork gearbox 16 are greater, so that the switch 17 is actuated and a defrosting start signal is emitted sooner than when there is on the evaporator 10 no ice would have formed.

Although the gear train 16 has been described above as a clockwork transmission, which the Qesatntnummer of the revolutions of the impeller 15 can be integrated by using the device according to the invention a centrifugal type defrost start signal holder 17 and by replacing the clockwork gear with a reduction gear coupled to this centrifugal switch via a shaft 21 can be replaced, which allows a considerable speed of the impeller with very little effort before the Shaft 21 has reached a sufficient speed to operate the centrifugal switch 17. With this arrangement accelerates with increasing ice formation on the

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Evaporator 10 increasing flow on the impeller 15 the same and consequently also the shaft until a certain speed is reached, which corresponds to an undesirably high degree of ice accumulation on the evaporator 10 and which is sufficient to actuate the centrifugal switch, so that this one Emits a signal to initiate a defrosting process. The centrifugal bowl 17 may be a switch which is either normally open or normally closed, depending on the type of signal transmission circuit to which each switch is connected. It is only important that the switch works so that it initiates the defrosting of the evaporator when a certain impeller speed is reached, which corresponds to an undesired formation of ice on the evaporator.

In Fig. 2 a modified embodiment of the device according to the invention is shown at which the impeller 15, the gear train 16 and the defrost start signal switch 17 in a bypass channel 25 are arranged, the inlet or outlet with the main channel 12 upstream or downstream of the Evaporator 10 is in communication. With this out

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guide form is part of the blower IJ conveyed fluid passed through the bypass channel 25. The pressure of the bypass channel diverted fluid becomes larger with increasing ice formation on the evaporator 10 and causes that the impeller 15 rotates faster and thereby accelerates the gear train 16, which the defrost start signal switch 17 after a certain number of revolutions of the impeller or at a certain Speed of the shaft 21, as already described above, actuated.

In an embodiment shown in FIG of the device according to the invention are the impeller 15 * the gear train 16 and the defrost start signal switch within a channel downstream of the evaporator 10 arranged. With this arrangement, if ice forms on the evaporator, the flow of the through the Evaporator flowing through to be cooled fluid weaker and causes the impeller rotates at a lower speed. In this embodiment of the device according to the invention is the Defrosting start signal switch 17 is preferably a centrifugal switch, which at a certain drop in the

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Impeller speed emits a defrost start signal. The impeller 15, the gear train 16 and the centrifugal switch 17 do not need to be arranged downstream of the evaporator 10, as shown in FIG. 4, but rather can also be placed upstream of the evaporator; the effect is essentially the same in both cases, because ice formation on the evaporator 10 causes a reduction in the flow of the on the impeller 15 past and through the evaporator 10 flowing out fluid, so that the impeller rotates more slowly and actuates the defrost start signal switch 17 at a certain low speed.

Is shown in FIG. 3 i ^st a cooling system shown, in which a compressor 20 via a suction line 31 relativ.großer inside diameter with the outlet of an evaporator 32 and via a line 33 connected to the inlet of a cooling coil 34. The outlet of this cooling coil 34 is connected to the inlet of the evaporator 32 via a line 35 which contains an expansion valve 36. The device according to the invention for initiating a defrosting process, which consists of an impeller 40, a wheel gear 41 and a defrost start signal switch 42, is held in a suitable manner within the suction line 31 so that

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the impeller 40 through the In the suction line 3I during the operation of the cooling system is set in rotation to the compressor 30 flowing refrigerant. The gear train integrates the total operating time of the cooling system between the defrosting processes that are carried out by the defrost start signal switch 42 can be initiated.

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Claims (8)

Claims; IIJ device for initiating a defrosting process in refrigeration systems with an evaporator to be defrosted from time to time and with an during operation of the relevant cooling system moving fluid, characterized by a fluid moved by the fluid rotatable impeller (15 or 40) and by a coupled with this impeller Switch (17 or 42), which depends on a certain state of rotation of the impeller is actuated and thereby emits a defrost start signal for the refrigeration system in question. 2. Device according to claim 1, characterized in that the fluid flows by flowing past fluid to be cooled on the heat exchange fins of the evaporator (10) 1st. 3. Device according to claim 1 or 2, characterized characterized in that the impeller in a bypass (I5) connected in parallel with the evaporator (10) is arranged for diverting part of the fluid. - 14 - 209835/075 $ 4. Device according to claim 1, characterized in that the fluid from the refrigerant is formed in the relevant cooling system. 5. Device according to one of claims 1 to 4, characterized in that the switch (17 or 42) with the impeller (15 or 40) via a clockwork gear (16 or 41) is coupled, which the Switch actuated after a certain number of vane rotations. 6. Device according to one of claims 1 to 4, characterized in that the switch (17) is a The centrifugal switch is actuated as a function of a certain speed of the impeller (15) will. 7. Device according to claim 6, characterized in that the specific speed of the impeller (15) is greater than the speed at which the evaporator (10) does not yet need to be defrosted. 8. Device according to claim 6, characterized in that the specific speed of the impeller (15) - 15 - 209835/0755 is less than the speed at which the evaporator (10) does not yet need to be defrosted. - 16 - 209835/0755