DE2558137A1 - DEVICE WITH HEAT PUMP FOR ROOM HEATING - Google Patents

Description

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Maurice BARTHAIOIT. OBB 1967

Device with heat pump for heating rooms.

The invention relates to a device with a heat pump for Heating of rooms. The term "space" is very general here and concerns every closed, inhabited or uninhabited, fixed or mobile space that requires heating requires.

There are devices with Mrmepumpe known which a Contain motor-compressor unit, which can be electrical and is assigned to a cooling circuit, the evaporator of which is heat takes from a cold source, and whose condenser supplies heat to a heat source. In the application considered here, forms The condenser is a radiator that supplies heat to the air in the room, while the source of cold is supplied by the outside air or a mass of water is formed, the cooling of which by removing heat is of no importance. Has in the known designs the compressor pistons, which are driven by a rotating motor.

The known devices of this type have major disadvantages which, incidentally, have damaged their development. So The above cold cycles produce significant fluctuations in supply pressure as the temperature of the outside air is generated The cold source fluctuates within fairly wide limits

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cheapest design of the motor-compressor unit for a particular Prevented operating point to achieve sufficient efficiency. In particular, nJmnt when the outside temperature drops the pressure ratio to what the thermodynamic The efficiency of the cycle is reduced under the conditions under which the greatest efficiency would be desirable, as a result of which even working can be prevented.

Attempts have been made to remedy these disadvantages, at least in part, by using a cold source with little variability The temperature can be remedied, e.g. by using the stale air exiting the room, with this solution also an energy saving with it. Since this stabilizes the conditions at the inlet of the compressor, the efficiency of the compressor is improved, but still to a very insufficient extent. This is because this efficiency is always still very low on the compressors of the known type mentioned above, especially if they have a low unit capacity have so that the gain coefficient or the ratio between the heat dissipated by the condenser ■ and the electrical energy absorbed by the compressor, which is of the order of five to seven times the efficiency of the compressor, the value 3 only for electric compressor units large unit performance achieved. In the case of units with low unit output, the gain coefficient exceeds hardly the value 2, which has no economic entitlement.

In addition, the small compressors are a well-known one Construction heavy and expensive in relation to its performance. This explains why this type of heating is economical Reason has only evolved, even using the improved thermodynamic cycles as indicated above.

Another disadvantage of the known electric compressors is that they have a significant starting point Take excess current from the electrical energy source, which generally involves a complete rebuilding of the electrical system requires. The same reason prevents the use of photocells as a source of energy, despite the obvious economical nature Advantage of this solution.

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In addition, the energy delivered by such cells is very low at the beginning and at the end of the day, i. especially at the hours when additional heat has to be supplied by the household heating system «

Furthermore, refrigeration circuits have been proposed

which use gas compressors with a linear electric motor, however, they are not going to be of industrial use in applications reaches the cold generation. The most powerful work namely in synchronism with resonance, and their performance decreases considerably when operating with inlet and outlet pressures or with voltages which are of nominal values are different. They are therefore poorly suited for generating cold, at which these pressures fluctuate within very wide limits. what changes the natural oscillation frequency of the movable arrangement

The electric compressors with linear motor for In any case, cooling purposes are never used industrially for services which exceed a few tens of watts. Hun is at least the requirement for heating individual apartments of the order of magnitude of the kilowatt, i.e. almost a hundred times that of the unit.

The result is that the heating of rooms by a heat pump has so far been an almost complete failure was because the above-mentioned remedies always failed when used individually.

The invention aims to produce a device for heating by a heat pump, which has a large Has gain coefficients which is considerably larger than that of the known systems, with the system costs themselves for small unit outputs are low, and their work is not affected by even significant fluctuations in the outside temperature is influenced, whereby it can be satisfied with an energy source formed by photocells.

The device according to the invention with a heat pump for the heating of rooms with an electric compressor, which is assigned to a refrigeration circuit, which a heat a external cold source taking evaporator and a condenser, which is formed by the air of a room.

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deten heat source supplies heat is characterized by the combination of a heat pump cycle, the evaporator of which is in contact with a cold source with little variable temperature, with a reciprocating electric compressor with free-flying pistons, which is driven directly by a linear electric motor, whereby the natural frequency determining parameter (such as in particular the diameter of the piston, the diameter of the magnetic core, the rigidity ^of; spring, the mass of the moving assembly, etc ·) are determined so that virtually receives a work at resonance under the Druckbedihgungen at the inlet, which correspond to the little changeable temperature of the cold source of the mentioned cycle.

The applicant has found that by combining the two means one cold source with little variable Temperature and an electric compressor with a linear motor receives a work which is different from the ones previously encountered Error-free · If you adapt the electric compressor to this function, you will get an excellent one Gain coefficients at very low investment costs, with at the same time, work is in no way impaired by changes in the outside temperature

This result is all the more surprising as these agents have so far always failed when used individually had led, and it was impossible to foresee that their combination would provide an effective device would.

The cold source can be through a groundwater layer or through a watercourse or preferably through the from the Used air exiting the heated room can be formed if this room is provided with a ventilation device. In this latter case, the heat source is created by the ventilation air supplied to the room.

According to a particular embodiment of the invention, the natural frequency of the electric compressor causing Parameters are also determined in such a way that practically working at resonance is obtained when the outside air has a temperature which has a common mean winter tempera-

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door in the area concerned (e.g. between O and 10 ° C for temperate zones)

According to an advantageous embodiment of the invention, the electric compressor is powered by photocells fed, which constitutes a considerable economic interest if the industrial production of the same can be done cheaply, and what by using an electric compressor with a linear motor that does not absorb any overcurrent when starting.

According to a preferred embodiment of the invention, the natural frequency of the electric compressor causing Parameters also determined in such a way that practically working at resonance under lighting conditions is achieved, which are considerably below the strongest lighting.

This promotes the operation of the electric compressor at times when that comes from the sun electrical energy is reduced as a result of meteorological conditions.

The invention is described below with reference to FIG the drawing explained by way of example.

Fig. 1 is a semi-schematic side view of a Device according to the invention for equipping a house.

Fig. 2 is a sectional side view of one of the electric compressor belonging to the device according to the invention

Fig. 3 is a view corresponding to Fig. 1 Design modification of the device according to the invention.

J * ig · 4 is a block diagram of the electrical supply of the electric compressor in the variant embodiment of FIG. 3.

In Fig. 1, a house 1 is provided with a ventilation system which sucks in the outside air through a supply fan unit 2 via a filter 3 and ejects the used air to the outside through an exhaust fan unit 4- via an outlet 3. In house 1, the air roughly follows the path indicated by the arrows.

A refrigeration circuit 6 contains an electric compressor unit 7, which is preferably on the path of the incoming air and means for promoting heat exchange between

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this air and himself has a condenser 8, also on the path of the entering air, an expansion device 9 and an evaporator 11, which is located in a channel 12, which receives the used air to be discharged and opens at the outlet 5.

The outside air sucked in from the outside through the unit 2 is evidently heated as it flows through the condenser 8, before it spreads in the rooms of the house 1 · The relatively warm, sucked in by the discharge unit 4 Used air gives off part of its sensible heat to the evaporator 11 before it is ejected to the outside through the outlet 5 will.

The incoming air is additionally heated by their contribution to the cooling of the electric compressor 7 · There are additional electrical resistors 13, which are useful are built into the filter 3, and the resistor 14 is provided.

The electric compressor 7 asked the type with linear Motor and free-flight piston and preferably has electronic switching. It conveniently has those in the French patents No. 1 472 032 and 1 472 988. According to 2 it contains a hermetically sealed chamber 15 'which contains a cylinder body 16 on which a cylinder head 17 is attached with inlet openings 18 provided with valves of known type, not shown. The cylinder body 16 also carries a fixed magnet frame 19 »which is surrounded by an excitation winding 21 and forms an air gap 22.

A movable assembly 23 comprises a piston forming hollow cylinder 24 which cooperates with the cylinder body 16 to form the compression chamber. Of the Cylinder 24 is fixed to a magnet armature 25 of the same diameter connected, which slides on a rod 26, which in a bracket 27 attached to the fixed magnet frame 19 is screwed and is blocked in a certain position by a lock nut 27a.

In the piston 24, a spring 28 is housed, which between the bottom of the piston 24 and one on the

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End of the rod 26 supporting shell 29 is compressed.

In the side surface of the cylinder, an outlet opening 18a is formed, which is calibrated with a not shown Valve is provided · More detailed information on the arrangement of this opening is given below.

An electrical pulse, preferably obtained by electronic switching, is sent to the coils 21 and excites the fixed frame 19, which pulls the armature 26 into the air gap 22 and thereby pulls the piston 24 downward in the figure takes with it what the supply of refrigerant through the openings 18 causes. Subject cessation of the impulse, the spring 28 brings the piston 24 back upwards, with the refrigerant is compressed and then discharged through the opening 18a When the piston 24 has exceeded this opening, the residual volume of the compression chamber forms a dead space, which forms an accumulator cushion, the relaxation of which contributes to the return of the piston during the next work cycle. The phase shift between the movements of the piston and the periodic electrical control pulses depends on the natural frequency of the movable arrangement 25. This natural frequency depends on a certain number of parameters, which in particular the mass of this arrangement, the stiffness of the spring 28, the value of the pressures at the inlet and outlet and are the height of the storage cushion, which in turn is determined by the position of the outlet opening 18a. The skilled person can based on known mechanical and thermodynamic considerations determine this position in order, on the assumption that the other parameters are determined, a preferably corresponding to the resonance to get the most favorable phase angle. The only parameters that change a priori in an unforeseen way are the pressures on the suction side and the delivery side of the compressor. But now there is an essential characteristic of the invention is to have chosen a cold source with a practically constant temperature, since it depends on the temperature is formed, to which the house 1 is heated, whereby a practically constant pressure is maintained on the suction side will.

The delivery pressure can change within limits, which are due to the foreseeable fluctuations in the winter outdoor

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are temperature-related. In the temperate zones you can e.g. the cheapest version of the electric compressor for one temperature from 5 ° C + 5 ° C. In case of excessive If the cold persists, the additional electrical resistors 13 and 14 can be put into operation. The preheating through the resistor 13 allows its operating point of the compressor to approximate the most favorable value.

It should be noted, by the way, that even a considerable reduction in the outside temperature is achieved by lowering the Discharge pressure can worsen the efficiency of the actual compressor somewhat, but the thermodyxtamisehen efficiency of the refrigeration cycle is improved, in contrast to what is observed with the known refrigeration systems.

These considerations can be an attempt to explain the excellent result, which is a priori surprising form, which is obtained by the combination of two means, which so far always to be used individually Failed.

Besides the excellent efficiency of the

Electric compressor, which has a high multiplication coefficient It should be noted the great simplicity of the compressor and the fact that it does not start when it is started Absorbs overcurrent, so that the existing electrical system does not have to be converted, resulting in low system costs leads.

Referring now to FIG. 3

described a second embodiment of the invention. A house 41 contains a ventilation circuit similar to the ventilation circuit in FIG. 1, which has an Ixift circulation according to the arrows generated. A one-piece arrangement 42, which can expediently be completely prefabricated, contains a cooling circuit 6 similar refrigeration circuit and motor fans 2 and 4 similar to motor fans. On the roof 43 of the house 41 are photocell panels 44, of which at least some, 44a, can be tilted at will according to the height of the sun. These panels are electrically connected to the block 42 in order to receive its power supply by means of an accumulator battery 45 and a feed device described below

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The house is heated without using any possible energy source. This way of working can only be obtained with the device according to the invention. A usual electric compressor requires namely with everyone Starting an amperage ι which is four and a half times their nominal value is · The photocell panels would therefore have to be over-dimensioned in the ratio 4.5: 1, which leads to impossible investment costs which does not even take into account the weaker lighting in the morning and in the evening · In addition, could this usual electric compressor will not work at all under these conditions.

The device according to the invention runs against it without overcurrent and thus without overdimensioning the photocell panels even during the hours of weak lighting. If also taking into account the improvement in the efficiency achieved by the compressor, a reduction is achieved the surface of the panels in an approximate ratio of 6 ι 1 compared to the known solutions. Finally adapts if the lighting is reduced, the free flight path of the Compressor automatically to these new conditions.

If the power is supplied by photocells, it is advisable to to set the most favorable working of the electric compressor for an electric supply, which is one of the strongest Lighting corresponds to the lighting lying down This most favorable setting, which, as explained above, consists of adjust the natural frequency of the movable assembly 23, can can be achieved by changing a parameter that remains free, e.g. the initial tension of the spring 28 by regulating the Position of the rod 26 · Such a choice of the most favorable operating point obviously reduces the power fluctuations of the electric compressor as a function of the lighting fluctuations

The following is an example of an apparatus for the power supply of the electric compressor unit is described. In FIG. 4, a certain number of photocell panels is shown schematically 44 shown. The number of these panels can vary according to the performance of the system. These tablets are connected to a coupling device 46, which allows them to be connected in series or in parallel to the accumulator battery 4 $ to be fed, the burden of which has been

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■ 47
direction / is controlled.

The battery 45 is supplied with a certain number of electric compressors that can be varied depending on the system 7 through a power switch 48 controlled by a constant frequency generator 49 and one by the control device 47 controlled multipole switch 51 connected.

In operation, the coupling device 46 receives voltage information from the photocell panels 44 as well from the battery control device 47 and, as a function of this information, establishes the series-parallel connection of the panels 44 to the most favorable value in order to obtain the best temporal integration of the electrical energy, which simultaneously depends on the lighting and the state of charge of the battery 45. In addition, the control device 47 actuates the multi-pole changeover switch 511 to determine the number of electric compressors to be put into operation 7 the power available at the terminals of the battery adapt, taking into account a predetermined degree of work will.

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Claims (1)

PATENT CLAIMS M.J device with heat pump for heating of rooms with an electric compressor, which is a refrigeration cycle is assigned, which contains an evaporator and a condenser extracting heat from an external cold source, which supplies heat to a heat source formed by the air in a room, characterized by the combination of a Cycle of a heat pump whose evaporator (11) is in contact with a cold source with little variable temperature, with a reciprocating electric compressor (7) with Iteiflug piston, which directly is driven by a linear electric motor, the parameters that determine the natural frequency (such as in particular the diameter of the piston (24), the diameter of the magnetic core (25) »the rigidity of the spring (28), the mass of the movable assembly (23) etc.) are determined in such a way that one can practically work in the state of resonance under the supply pressure conditions, which correspond to the little changeable temperature of the cold source of the mentioned cycle. 2. Apparatus according to claim 1, characterized in that it is formed with a layer of groundwater Cold source interacts 3. Device according to claim 1, characterized in that that it interacts with a source of cold formed by a watercourse. 4. Apparatus according to claim 1 for heating a room with a ventilation system, characterized in that that it interacts with a cold source formed by the stale air discharged from the room 5 · Device according to claim 4, characterized in that it is provided with a ventilation air supplied to the hem generated heat source interacts 6 · Device according to claim 5 »marked by at least one additional electrical resistor (13, 14), which is used to heat the ventilation air supplied to the room contributes. 7. Device according to claim 6, characterized in that at least additional electrical resistors (13) 609827/0729 upstream of that. Circuit condenser on the Circulation path of the ventilation air. 8 · Device according to one of claims 5 to 7, characterized by means for transferring the heat generated by its work to the ventilation air supplied to the room · 9 · Device according to one of claims 5 to 8, characterized in that the natural frequency of the electric compressor ( 7) conditional parameters are also determined in such a way that working in the resonance state is practically obtained when the outside air has a temperature between 0 ° 0 and + 10 ° C. 10. Device according to one of claims 1 to 9 »characterized by photocells (44) for powering the Electric compressor (7) and between these photocells (44) and the electric compressor (7) arranged means (48, 49) for chopping of direct current. 11 · Device according to claim 10, characterized in that that the parameters which determine the natural frequency of the electric compressor (7) are also determined in such a way that it is practical working in resonance under lighting conditions the photocells (44) is obtained, which are considerably under the strongest lighting. 12 device according to one of claims 1 to 11, characterized in that the electric compressor (7) contains an approximately cylindrical magnet armature (25) which is the same Diameter as the piston (24) has. 60 9827/0728 Blank page