GB2088032A - Tumble drying machines - Google Patents

Abstract

In a tumble dryer machine, a motor 7 which drives the drum 5 and circulating fan 6 continues to operate at the end of a drying cycle, but with the air heater 4 cut-out, until the exhaust air temperature sensed at 16 reduces to a predetermined level. The time during which the heater 4 is in operation can thus be reduced. A heat exchanger 2 serves to preheat the incoming air with the exhaust air. <IMAGE>

Description

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GB 2 088 032 A 1

SPECIFICATION Tumble drying machines

This invention relates to tumble drying machines and to a method of operating such 5 machines.

In known tumble drying machines used in the laundry industry, and as installed in launderettes, ambient air is drawn by a fan into the machine, raised in temperature, passed through a rotatable 1 o drum and discharged to waste. The heat energy which has to be applied is in excess of the true work requirement because some of the heat energy of the drying air is used in heating the machine parts, such as the rotatable drying drum 15 and the machine housing. In existing machines the energy used to heat the machine parts remains as residual heat after the drying operation has been completed. With present day high energy costs, the residual heat is an expensive waste and in 20 launderettes could make machines considerably less profitable.

It has been proposed to overcome the problem of residual heat in coin-operated machines by providing an "over-run" period in which the 25 primary heat source is inoperative and in which the drum and the air circulation fan remain operative, the air thus removing the residual heat. However, in such machines the mechanism which provides the over-run is coupled to the coin-feed 30 mechanism so that the period of over-run is constant for each cycle of operation irrespective of the period actually required to remove the residual heat. Thus, the period of the total drying cycle, including the over-run, could be greater than that 35 required for optimum machine performance. This results in poor machine utilisation and poorer monetary return per hour than desirable.

The present invention aims to overcome the above-mentioned problem and provides a tumble 40 dryer machine having a rotatable drum, a fan for circulating air from an inlet through the drum to an outlet, a primary heat source for heating the air, motor means for operating said fan and said drum, and control means including temperature-45 sensitive means which is operative to operate said motor means and prevent operation of said heat source at the end of a drying cycle and to stop said motor means when the temperature sensed by the temperature sensitive means is reduced to a 50 predetermined value.

The temperature-sensitive means preferably senses the temperature of the air at the outlet. Preferably, it comprises a single pole changeover thermo-disc type switch connected in an electrical 55 circuit incorporating said motor means. The switch breaks the circuit below the predetermined temperature and makes the circuit above the temperature.

The invention also provides a method of 60 controlling the cycle of a tumble dryer comprising a fan, a drum and a primary heat source, said method comprising operating said fan, drum and heat source simultaneously, switching off said heat source whilst still operating said fan and 65 drum, sensing the temperature of the air exiting from said drum and switching off said fan and drum when said sensed temperature reaches a predetermined value.

Thus, the duration of the over-run part of the 70 cycle, when the heat source is inoperative, is dependent upon the temperature of the exhaust air, which is itself dependent upon the residual heat of the machine.

In order to further increase the efficiency of the 75 machine according to the invention it is preferred to use a heat exchanger through separate channels of which inlet and outlet air respectively pass, the outlet air serving to warm the inlet air during operation of the machine.

80 A tumble dryer machine in accordance with the invention will now be described, by way of example, with reference to the accompanying drawings, in which:—

Figure 1 is a schematic side view of the 85 machine illustrating the major components of the machine and the direction of air flow,

Figure 2 is an exploded rear view of a heat exchanger and control device of the machine, and Figure 3 is a diagram of a control circuit of the 90 control device.

The tumble dryer machine comprises a housing 1 attached to the rear of which is the heat exchanger 2 and control device 3 and within which are located, in the direction of airflow, a 95 primary heat source 4, a rotatable perforated drum 5 and a fan 6. The drum 5 and the fan 6 are operated by a motor 7.

In use, ambient air is drawn through inlet 8 of the heat exchanger 2, along parallel inlet tubes 9 100 formed in the heat exchanger, through an opening 10 and over the heat source 4. From there the air passes through the perforated drum 5, where the air becomes moist, past the fan 6 and through a heat-resistant, flexible hose 11 to an opening 12 105 at the bottom of the heat exchanger. The air passes through parallel outlet tubes (not shown) of the heat exchanger to a heat-resistant, flexible exhaust hose 13 and from there to atmosphere. The heat exchanger is so arranged that 110 substantially all of the inlet air passes therethrough.

The inlet and exhaust tubes of the heat exchanger are arranged alternately and are preferably rectangular in cross section, having 115 smooth uninterrupted surfaces, without ripples, indentations or projections such as rivets, to reduce the risk of blockage by lint and fluff.

The construction of the heat exchanger is best shown in Figure 2. Each hose 11, 13 is attached to 120 a full-width cover plate 14 which is secured to the top or bottom of the heat exchanger by two quick-release clips 15. The plates 14 allow quick and easy access to the heat exchange tubes for cleaning.

125 The heat exchanger works as follows. The hot, humid air enters the exchanger at opening 12, passes through the exchanger and exits to

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atmosphere. In passing through the exchanger this exhaust air gives up part of its heat to the fresh air entering the tumble drying machine. This heat gain to the fresh air entering the machine causes it 5 to increase in temperature prior to it reaching the primary heating source 4; thus this fresh air is preheated. The primary heating source can be either a gas fired natural draught burner bar or bars, or a hot water or steam heating coil, or an electrical 10 heating element. Whatever form the primary heating source of the machine takes, because of the fresh air being pre-heated through the exchange battery and thus being at a temperature significantly above ambient, it will require 15 significantly less energy to raise it to the set temperature, than would be the case with fresh air entering at ambient temperature. It should be noted that there is no mixing of fresh air and exhaust air. No exhaust air is allowed to re-enter 20 the machine and each type of air follows separate, sealed paths and no inter-mixing takes place.

The tumble drying machines in which air entry to the drying drum is allowed on both sides of a common upstanding formation of drum case and 25 in which the primary heat source is on one side only of this up-stand may have a blanking plate fitted to close off the air way from the side without heat source.

The blanking or baffle plate (not shown) results 30 in increased velocity over the heat source and at the air port left open, which in turn provides a significant improvement in uniformity of temperature throughout the bulk of the air entering the drum 5. This improved uniformity in 35 temperature provides increase of drying work per unit of entering air. Conversely, this improvement of "work per unit of air" allows equal drying at reduced bulk of entering air. This reduction of total entering air quantity results in a corresponding 40 reduction in the energy needed to raise the air temperature to the set point of the tumble drying machine's control thermostat.

The baffle plate is an addition to improve machine performance and results in energy 45 saving.

The control device is provided to control the operation cycle of the machine and the control circuit is illustrated in Figure 3. The circuit illustrated is for a coin-operated machine, but 50 could be adapted for other machines.

The control device comprises a temperature sensitive device 16 which is preferably a single pole changeover thermo-disc switch. The switch is connected in the electricai circuit by live line part 55 17. Another live line part 17A, having common commencement point as line 17, is taken through a clock switch 18, operated by a coin feed mechanism (not shown) and connected to a terminal 19 and to the operating coil of a two pole 60 changeover relay 22 of which ultimately all terminals are used. The operating coil of relay 22 has a connection to neutral. A centre changeover contact terminal 20 of relay 22 is connected through a door-operated switch 23 to the motor 7. 65 A connecting line is provided from the door switch

23 to the other centre changeover terminal 24 of relay 22.

With the relay in the energised condition centre changeover contact 24 is made to fixed contact 70 25, which in turn is connected through normally closed thermo switches 27—28—29 to gas valve 30. The motor 7 and the gas valve 30 have connections to neutral.

Operation of the control device will now be 75 described. An inserted coin operates the clock switch 18 to energise the relay 22, so that when the door is closed and thus door switch 23 is made the motor 7 operates and the gas valve 30 is opened to provide the heat source 4. Thus 80 initially the machine works with the fan, drum and heat source all operating via electrical motive force provided on path from line 17A. At this stage the thermo disc switch 16 is in the cold condition and therefore open, effectively breaking the circuit 85 along the alternative path line 17.

After a considerable period of time, when a predetermined temperature in the exhaust air has been reached and maintained, which is so arranged as to be about 80% of the time through 90 the drying cycle, the switch 16 closes, but because relay 22 is still in the energised condition the circuit along line 17 is broken at relay terminal 21. Thus, at the time of changeover of switch 16 from "cold" to "hot" condition i.e. from "broken" 95 to "made" circuit condition, the operation of the machine is in no way affected.

After a predetermined time, determined by the number of coins fed into the slot, the clock switch 18 opens and this de-energises the relay 22. 100 Since switch 16 is closed, the motor 7 still operates, fed along line 17, through switch 16 to terminals 20,21 of relay 22, which is in the de-energised condition, and through door switch 23. Changeover terminal 24 breaks the contact with 105 terminal 25 and contacts the terminal 26 and thus the gas valve or other heat source control 30 is closed to cut off heat source 4.

Further operation is an over-run with fan and drum operating until the exhaust air temperature 110 drops to and remains below a predetermined value, at which the residual heat is substantially dissipated, and the switch 16 changes to the "cold" condition, which opens the contacts to cut off the motor.

115 Because of the preheating of the incoming air through the heat exchanger 2 and because of the improved air mixing and because drying will be completed during the over-run period, it is possible, and to achieve maximum economy it is 120 necessary, to reduce the cycle time available through the coin mechanism, as compared to the existing machine cycle time. On a 30 lb. load, 30" drum standard tumble drying machine, the coin cycle time is reduced to 4/5ths. The over-run time 125 available only after the second or third coin cycle, is approximately three minutes. It will be seen that single coin feeding a tumble drying machine fitted with the control device will not affect the overall drying cycle time, because no over-run can occur 130 until the switch 16 has changed to the "hot"

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condition and that changeover, in practise, does not occur until the bulk of the drying work has been done. The saving of 1 /5th of the machine time available through the coin clock is 5 compensated for by the three minutes of over-run available on the last coin only. Thus, the overall drying time remains substantially unchanged, when compared to that for a standard tumble drying machine without press-dry cycle.

10 Shown in broken line in Figure 3 are meters 31, 32 which allow monitoring of the time the tumble dryer is actually in work, fed by the electrical circuit through the coin operating mechanism, and separately the time the drum and fan have worked *15 through the thermo disc switch 16 on over-run. Another meter 33 is provided to record the length of time the heat source has been in action.

The results from these three recording meters allows complete analysis and record of the energy 20 consumption of the machine. The machine coin take can also be recorded to allow accurate calculation of machine utilisation factors.

The thermostat 28 is preferably of rod-type design and is preferably positioned directly in the 25 exhaust air path after the exhaust air has left the fan 6, but before it enters the heat exchanger. If the air temperature reaches a predetermined high value, the thermostat 27 operates to interrupt electric supply to both switches 28 and 29, close 30 the gas valve 30 and shut off heat source 4.

Control and limit thermostats on standard tumble drying machines are very slow in action and have very high differential characteristics. These two weaknesses individually or in combination, allow 35 excessive temperature over-run when the machines work on light work loads, or when the work load is an easy-dry material, such as nylon. Light, easy-dry materials such as nylon, are sensitive to excessive heat and can be burned or 40 scorched in tumble drying machines with excessive temperature over-run.

The additional rod type high temperature limit thermostat reduces the risk of burning the work load. Also, because it is positioned in an easily 45 accessible position and because the thermostat design allows adjustment of the "set point", this limit thermostat can be checked for operation and function in a very short time and with great ease. Because checking of this control is so simple and 50 can be carried out without special equipment, in a very short time, it is practical and possible to make this checking operation part of the recommended routine preventive maintenance applied to tumble drying machines.

55 The addition of the thermostat, makes the tumble drying machines less of a fire risk generally, and less likely to destroy or damage some work loads.

Although described as incorporated in a tumble 60 dryer machine, it will be appreciated that the control device and heat exchanger could be provided as a unit for attachment to existing machines.

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Claims (11)

1. A tumble dryer machine having a rotatable drum, a fan for circulating air from an inlet through the drum to an outlet, a primary heat source for heating the air, motor means for operating said fan and said drum and control means including

70 temperature sensitive means which is operative to continue operation of said motor means (but prevent operation of said heat source) beyond a period in which both the motor means and heat source have been in operation, said temperature

75 sensitive means being further operative subsequently to stop the motor means in response to the temperature which it senses reducing to a predetermined value.

2. A machine as claimed in claim 1, in which

80 the temperature sensitive means senses the temperature of the air at the outlet.

3. A machine as claimed in claim 1 or 2, including timing means arranged for said period of operation of the motor means and heat source to

85 comprise a predetermined duration.

4. A machine as claimed in any preceding claim, further comprising a high temperature limit switch positioned in the exhaust air path and arranged to terminate operation of the heat source

90 in response to the temperature which it senses reading a limit value.

5. A machine as claimed in any preceding claim, further comprising a meter for recording the total time during which the machine is set for

95 normal operation of both the motor means and heat source.

6. A machine as claimed in any preceding claim, further comprising a meter for recording the total time during which the machine is set for

100 over-run operation of the motor means without the heat source.

7. A machine as claimed in any preceding claim, further comprising a meter for recording the total time during which the heat source is actually

105 in operation.

8. A machine as claimed in any preceding claim, further comprising a heat exchanger through which the exhaust air passes to effect preheating of the incoming air, without

110 intermixing of the exhaust and incoming air.

9. A method of controlling the cycle of a tumble dryer comprising a fan, a drum and a primary heat source, said method comprising operating said fan, drum and heat source simultaneously,

115 switching off said heat source whilst still operating said fan and drum, sensing the temperature of the air exiting from said drum and switching off said fan and drum when said sensed temperature reaches a predetermined value.

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10. A tumble dryer machine substantially as herein described with reference to the accompanying drawings.

11. A method as claimed in claim 9 and substantially as herein described.

Printed for Her Majesty's Stationery Office by the Courier Press, Leamington Spa, 1982. Published by the Patent Office, 25 Southampton Buildings, London, WC2A 1 AY, from which copies may be obtained.