NL8403116A - COMPRESSOR. - Google Patents

Description

i * «[Sn 11,180 1 *; N.V. Philips' Incandescent lamp factories in Eindhoven jCcmpressor.

The invention relates to a compressor with a hermetically sealed housing, in which a notor compressor aggregate is provided, which is provided with an inlet opening with a connecting piece, the wall of the housing is provided with a passage opening, also with a connecting piece, wherein the said connecting pieces are are connected to each other by means of a suction line.

Such a corrpressor is known from DE-PS 26 50 937.

Compressors with a hermetically sealed housing have been manufactured for decades, with the suction line 10 coming from the evaporator opening into the interior of the housing. The motorized compressor unit draws in the dairp-shaped coolant from the space inside the house. It is further known that an improvement in efficiency can be obtained by passing the suction line through the housing wall and connecting it directly to the inlet of the motor pressure generator. This direct suction 15 lowers the presser temperature, thereby reducing the risk of burning the entrained oil. One of the requirements for such a connection between the housing wall and the unit is that the pipe must be "leaky". If not, underpressure - upon absorption of refrigerant in the oil - or overpressure could occur in the hermetic closed housing relative to the pressure prevailing in the closed evaporator-compressor circuit. Overpressure inside the housing should be avoided as it creates additional noise in the bearings.

In the above-mentioned DE-PS a number of constructions are shown for direct suction. Sealing rings with a deliberately chosen leakage pad are used here. The disadvantage of the sealing rings is that due to the effect of the coolant and the oil, they eventually swell, which makes the whole rigid. This in turn causes additional noise production and the connection is no longer "leaky". In other constructions of the aforementioned DE-PS 30 sliding and ball seals are used. These constructions are relatively rigid and therefore have the risk that a large part of the vibrations are transferred to the house and again lead to additional noise production Moreover, such constructions are quite expensive B13 31 15 3 * PHN 11.180 2.

A better solution is shown in European patent application EP 0 073 469. For the direct suction a suction gas line is used in the form of a coil spring with closely spaced windings. Such a conduit is a poor transport path for contact sound and is "leak" to allow for pressure equalization, but not so leaky that a flow of the relatively cold refrigerant from the suction conduit to the warm space within the house and back is created, thereby gas that is selected is relatively warm.

The object of the invention is to further improve the efficiency of a compressor with such a direct suction.

The invention is therefore characterized in that in a compressor with a hermetically sealed housing the suction line is surrounded by an insulating enclosure pp some distance around the suction line. Due to the insulating casing, the exchange of gas in the suction pipe with the gas in the space in the house is difficult, so that the gas drawn in is heated up as little as possible. In addition, the enclosure has a damping effect for gas pulsations to. the gas inside the campressor-20 housing.

An embodiment of the compressor is characterized in that one end of the casing is attached to one of the connecting pieces and the other end extends downwards and lies freely around the suction pipe and in open communication with the space within the compressor housing state.

The casing must be spaced around the suction line so that the casing does not touch the suction line when the unit is switched on and off. The casing must be open from below to allow excess oil to drip back into the compressor housing. 3q Another embodiment of the compressor is characterized in that the casing is made of flexible porous material. For example, a braided sleeving of metal or plastic.

The invention will now be further elucidated on the basis of an exemplary embodiment shown in a drawing, in which figure 1 is a schematic representation of a compressor and figure 2 shows a flexible spring with enclosure, which is used as suction pipe in the compressor of figure 1.

The compressor consists of a hermetically closed 840 3 1 1 δ * * PHN 11.180 3 sleeve 1 in which a motor compressor unit 2 is suspended by means of springs 3. The aggregate is formed by an electric motor 4 and a suction pad 5. The electric motor drives a piston 7 by means of a crank connecting rod 6. The dairp-shaped coolant is sucked in and compressed by the piston pump via a suction pipe 8 combined with dampers in the connecting piece 14 and pumped back into the cooling system (not shown) via a pressure pipe 9. At the bottom of the housing 1 there is an oil bath 10. The wall of the housing is provided with a lead-through opening 11 with a connecting piece 12. The piston pump of the motorcam 10 pressor unit 2 has an inlet opening 13 with a connecting piece 14.

The suction pipe 8 is located between the two connecting pieces 12, 14.

The suction line is formed by a flexible spring 15, the windings 16 of which have a very small distance from each other. According to an embodiment, an insulating envelope 19 is rigidly attached to the connecting piece 14. The casing lies free from the spring 15. The inner diameter of the casing is preferably 3 to 5 mn larger than the outer diameter of the spring. Good results have been obtained, inter alia, with a spring whose thickness is 0.8-1.0 µm, the width of the turns about 20 mm, the length about 50 µm and the distance between the turns 0.05-0.15 rrm 20. Such a spring can allow the movements of the rootor compressor unit with respect to the housing, the spring does not transmit sound vibrations well, and due to the small gap between the windings, the pipe is still slightly leaking for gas or oil. The enclosure provides temperature insulation and a damping effect for gas pulsations to the gas inside the compressor housing.

The refrigeration system connected to the compressor always contains a certain amount of oil from the compressor housing. In the flexible spring, this oil settles between the windings and thus ensures a secure seal of the coolant vapor.

3Q An additional advantage is that when the unit is switched on and off, oil is flung out by vibrations of the spring, at which large amplitudes occur. As a result, an excess of oil ends up against the insulating casing and ends up dripping through the bottom, back into the space within the house. A separate oil separator is therefore not necessary. Also, this construction prevents splashing oil from the compressor housing from cores into the gap between the coils of the spring.

In order to be able to absorb extremely large relative movements between the motor compressor 840 31 1 6 ΡΗΝ 11.180 4 ag ΰ compressor unit and the sleeve, it is advantageous if the ends 17, 18 of the spring or sleeve can slide slightly over the connecting pieces 12, 14. Connecting pieces 12, 14 and enclosure 19 are preferably made of poorly heat-conducting material.

As a result, the heat conduction to the spring and thereby the heat transfer to the coolant is further reduced.

As an alternative to the spring, a flexible stocking with some strength can also be used. The openings in the braid must not be too large. A stocking also meets the set 10 requirements and has the same advantages as a spring.

The enclosure could also be of a flexible pareous material such as a stocking. This can then be arranged at a certain distance entirely over the suction line, the ends of which are attached to the respective connecting pieces. A flexible sleeve 15 follows the movements of the aggregate relative to the housing in the same way as the flexible suction line. A good dimensioning of the openings of the stocking is then a requirement.

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Claims (3)

1. Compressor with a hermetically closed housing, in which there is a motar compressor unit, which is provided with an inlet opening with a connecting piece, the wall of the housing is provided with a through-hole with also a connecting piece, wherein the said 5 connecting pieces are a suction line is connected to each other, characterized in that the suction line is indicated by an insulating jacket some distance around the suction line. 2. Compressor according to claim 1, characterized in that one end of the casing is attached to one of the connecting pieces and the other end extends downwards and lies freely around the suction pipe and in open communication with the space within the ccnpressor house. Compressor according to claim 1, characterized in that the casing is made of a flexible pareous material. 15 20 25 30 35 840 31 1 6