DE2950887A1 - COOLING AND HEATING UNIT - Google Patents

Description

EBH2-79 / 48 12/13/1979

Bt / gf

Licentia Patent-Verwaltungs-GmbH Prankfurt / Main

Cooling and heating device

The invention relates to a cooling and heating device according to the preamble of the first claim.

In a known cooling and heating device (DE-OS 26 09 070), the capacitors of a commercially available cooling device are arranged in an air duct, from which an air inflow line to a heat exchange chamber on a heat insulated hot water tank leads. A return line with a built-in fan leads from the heat exchange chamber back into the air duct. As long as the temperature measured by means of a thermostat switch of the water in the hot water boiler is below a predetermined value, the fan remains switched on so that air is conveyed in the circuit via the condensers into the heat exchanger space and back to the condensers will. When the predetermined water temperature is reached

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temperature, on the other hand, the fan is switched off and an inflow opening in the air duct is automatically opened, so that the operationally required cooling of the capacitors is ensured after the Air duct is open at its top. With this structure occur at the air duct as well as through the relatively poor heat transport properties of air result in considerable losses, which is an optimal use of the heat generated by the condensers is not permitted.

The invention is based on the object of providing a cooling and heating device according to the preamble of the first claim to design that with little heat loss at the condenser and without switching in the refrigerant circuit liquid intermediate heat transfer medium can be used and still a direct extraction of heat from the refrigerant circuit is possible when the hot water tank is heated up.

This object is achieved according to the invention by the characterizing features of the first claim.

In the embodiment of the cooling and heating device according to the invention is the heat generated during operation of the cooling device on the jacketed section of the condenser from the in Jacketed pipe flowing liquid intermediate heat transfer medium added, which a much higher heat exchange than air. As a result of the arrangement of the capacitor in a thermally insulated chamber, practically none is possible Heat is lost, so that all the heat generated by the condenser is routed via pipes to a hot water boiler.

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Neten heat exchanger can be performed. If, on the other hand, the contents of the hot water boiler are heated, none for the operation of the cooling device a sufficient cooling of the condenser, then air is in the chamber as a cooling medium blown in. In this operating case, the heat contained in the refrigerant circuit is immediately and without Delay emitted by the air flow from the unsheathed section of the condenser, so that a delay-free heat extraction is ensured. It therefore does not need what is contained in the jacket pipe first Intermediate heat transfer medium to be cooled by the air flow before heat is extracted from the refrigerant circuit he follows.

Advantageous embodiments of the invention are specified in the further claims.

An exemplary embodiment of the invention is explained in more detail below with reference to drawings.

Show it:

Fig. 1 is a schematic representation of the functional elements and

2 shows an electrical circuit for controlling the functional elements.

In a cooling device 1 there is a heat pump with a compressor 2, an evaporator 3, and an expansion valve 4 and a coolable condenser divided into two sections 5, 6 in a common refrigerant circuit. As a result, the cooling device 1 is functional in itself. The capacitor 5,6 consists of a tube,

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the section 5 of which is surrounded by a casing tube 7 at a distance. The free distance between the pipe of the section 5 and the jacket pipe 7 is used to guide water as an intermediate heat transfer medium. The jacket pipe 7 lies in a water circuit 8, in which a heat exchanger 9, a circulating pump 10 and a further heat exchanger 11 are placed are. The heat exchanger 9 is located in the lower region of a heat-insulated hot water boiler 12, while the heat exchanger 11 is designed as an oil cooler for the compressor 2. A pressure equalization tank is also attached to the water circuit 8 13 connected. The sections 5, 6 of the capacitor are coiled, with the section that is not sheathed is arranged coaxially within the sheathed section 5. Within the subsection 5 or the coiled one Jacket pipe 7 is a ventilation pipe 16 which surrounds the subsection 6. Overall, the capacitor is so constructed 5, 6 covered with a cap 14 which is open on its underside and a thermal insulating layer 15 for the rest wearing. The vertically arranged ventilation pipe 16 ends on its underside in the same plane as the cap 14, whereby an automatic air flow due to a heat lift is avoided. In contrast, the air duct 16 a fan associated with an electric drive motor, which when a predetermined temperature is exceeded Output of the jacket pipe or of the subsection 6 is switched on. As soon as, accordingly, through the intermediate heat transfer medium circuit 8 no or insufficient amount of heat

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is delivered to the hot water tank 12, a forced ventilation of the condenser takes place accordingly by the fan 18 5,6 within the chamber 19 enclosed by the cap 14. The uncovered section 6 of the Condenser is acted upon directly by the conveyed cooling air and thus provides a necessary for maintaining the Sufficient cooling at the condenser during cooling operation. Part 5 can also contribute to this, when the intermediate heat transfer medium in the jacket pipe 7 is cooled by the air flow. In normal operation on the other hand, via the intermediate heat transfer medium circuit 8, not only the heat generated at the condenser 5, 6 but also the heat obtained via the heat exchanger 11 at the compressor 2 is used to heat the hot water boiler 12.

For optimal control of the heating and cooling device, a thermostatic switch 25 is thermally coupled to the outlet of the jacket pipe for the flow medium-side of the subsection 6 and actuates a changeover contact. With the normally open contact, the drive motor of the blower 18 can be switched on when a predetermined upper temperature is reached. In contrast, a normally open contact of a delay relay 2o and a drive motor for the pump 10 are connected in series with the normally closed contact of the thermostat switch 25. The normally open contact of the delay relay 20 is actuated, for example, by an externally heated bimetal 21, the heating winding 22 of which is connected in parallel to the drive motor of the compressor 2. As a result, the circulating pump 10 is switched on with a delay in relation to the compressor 2, so that the pump is switched on only when, after a certain operating time, a usable amount of heat is available at the section 5 of the condenser. After switching off the compressor 2 remains

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then the normally open contact of the delay relay 20 is still closed for a time, so that the still in the subsection 5 the amount of heat contained in the condenser can be fed to the hot water boiler.

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Claims (9)

EBHZ-79/48 12/13/1979 Bt / gf claims 1./KUhI- and heater with a heat pump, the entire Refrigerant circuit with compressor, evaporator and condenser is assigned to the refrigerator part, and with one filled with an intermediate heat transfer medium Secondary circuit, in which on the one hand the condenser and on the other hand a heat exchanger is placed, which is a hot water boiler is assigned, characterized in that the condenser (5,6) as a pipe carrying the refrigerant is designed that a section (5) of the tube is enveloped on the outside at a distance from a jacket tube (7), in which the liquid intermediate heat transfer medium is performed, and that the capacitor (5,6) in a thermally insulated, The chamber (19) through which a cooling medium can flow is well arranged 2. Cooling and heating device according to claim 1, characterized in that the unsheathed section (6) of the tube is arranged in the direction of flow of the cooling medium in front of the sheathed section (5) 3. Cooling and heating device according to claim 1 or 2, characterized in that that the chamber (19) has a thermally insulated cap which is open at the bottom and which surrounds the capacitor (5,6) on the outside (14) and an air guide tube (16) arranged inside the cap (14) and that inside the air guide tube (15) the uncovered and outside the sheathed 130026 / 0U9 ORIGINAL INSPECTED EBH2-79 / 48 12/13/1979 Bt / gf Part of the capacitor (5,6) is arranged. 4. Cooling and heating device according to claim 1 or one of the following, characterized in that the air guide tube (16) is arranged centrally in the chamber (19) with a vertical longitudinal axis. 5. Cooling and heating device according to claim 1 or one of the following, characterized in that the air duct (16) ends in a plane with the lower edge of the cap (14). 6. Cooling and heating device according to claim 1 or one of the following, characterized in that a heat exchanger (11) is connected upstream of the jacket tube (7) in series, which is in heat exchange with the compressor (oil cooler 11). 7. Cooling and heating device according to claim 1 or one of the following, characterized in that the air duct (15) a fan switched depending on the temperature of the covered section of the condenser (5, 6) (18) is assigned. 8. Cooling and heating device according to claim 7, characterized in that a in the circuit of the fan drive motor Thermostat switch (25) is placed on the refrigerant side 130026 / OU9 EBHZ-79/48 December 13, 1979 Bt / gf term output of the condenser (5,6) or the intermediate heat transfer medium side The output of the jacket tube (7) is arranged. 9. Cooling and heating device according to claim 7 or 8, characterized in that the thermostat switch (25) has a changeover contact has, at its normally open contact the fan drive motor and at its normally closed contact the series circuit a time delay contact (20) and a drive motor to promote the intermediate heat transfer medium Pump (10) are switched and that the control signal for the time delay contact (20) on the drive motor of the Compressor (2) is removed. 130Q26 / 0U9