EP0156962A1 - Expansion valve - Google Patents

Abstract

In order to be able to inject the coolant into the evaporator of a refrigeration system with an expansion valve that does not have the disadvantages of thermostatic expansion valves and no capillary tube for connecting the temperature sensor arranged at the evaporator outlet to the control head of the expansion valve, no arrangement of an overheating spring and also no installation of a replaceable one An expansion valve is proposed, the valve of which has an axial capillary bore (51) and a valve tappet (5) with a shoulder (52) against the diaphragm (12) with its valve seat (41 ) opposite pin-shaped end (53) passes through the membrane (12), and which has a plunger (14) arranged in a magnetic coil (16), which closes and opens the capillary bore (51).

Description

The invention relates to an expansion valve for installation in a refrigerant circuit consisting of a compressor, condenser and evaporator of the type specified in the preamble of claim 1.

For metering the liquid refrigerant injected into an evaporator, thermostatic expansion valves are usually used, which are controlled by means of a temperature sensor attached to the evaporator outlet and containing a vapor-forming liquid in such a way that the vapor pressure of the filling medium of the temperature sensor acts on the control head of the expansion valve, with the aid of a Overheating spring the desired overheating is set at the evaporator outlet.

However, these thermostatic expansion valves have some drawbacks despite their perfection. Since the valves must be adapted to the refrigerant used in each case, this forces the manufacturer to produce a corresponding number of functionally similar devices or devices with interchangeable nozzles of different sizes. In addition, the time constant of such valves, which depends on the dimensions of the diaphragm or corrugated tube diameter, the spring hardness of the overheating spring, the selected nozzle size and the filling medium of the control system, can no longer be changed in a finished valve.

The invention has for its object to provide an expansion valve of the aforementioned type, which does not have the disadvantages mentioned, no capillary tube for connecting the temperature sensor to the control head of the Valve required and remote monitoring of the functional sequence during operation.

This object is achieved according to the invention with the means specified in the characterizing part of claim 1. Advantageous embodiments of the valve according to the invention can be seen from the subclaims.

With the valve according to the invention, both the smallest and the greatest outputs can be controlled properly, regardless of the refrigerant used, gas-filled components which are exposed to the risk of leakage are eliminated, and the interchangeability of the electrical parts ensures a longer service life.

• Fig. 1 einen Längsschnitt durch das Ventil;
• Fig. 2 einen Ausschnitt der Fig. 1 in vergrößertem Maßstab.

In the drawing, an embodiment of the expansion valve according to the invention is shown in a schematic manner. Show it

• 1 shows a longitudinal section through the valve.
• Fig. 2 shows a detail of Fig. 1 on an enlarged scale.

The valve body 1 has an inlet 2 for the refrigerant which receives the suction line and an outlet 3 to which the line leading to the evaporator is connected. Arranged in the valve body is a sleeve 4 forming the valve seat 41, through which the valve tappet 5 is guided. The closing body cooperating with the valve seat 41 is formed by an annular disk 6 made of plastic, which comprises the valve tappet 5 and bears on the one hand against an annular shoulder formed on the valve tappet 5 and on the other hand against an O-ring which is arranged in a recess in an annular body 7, against its shoulder is the ring flange a sleeve holding a filter 9 and against whose ring flange there is a helical spring 8 which is supported on an abutment ring 10 which can be displaced in the longitudinal direction of the valve by means of an _P Allen screw 11 which engages in a thread cut into the valve body 1.

The plunger 5 has a capillary bore 51 and at its upper end an annular shoulder 52 which bears against the membrane 12 and a pin-shaped end 53 which extends through an axial recess in the membrane 12 and has a reduced diameter and which has the end face of a plunger which is movable in the longitudinal direction of the valve 14 is opposite. The end face of the annular shoulder 52 of the plunger 5 has a recess, from which notches or openings 54 penetrating the casing of the plunger 5 extend, which open into a channel 31 leading to the outlet 3. Between the end 53 and the membrane 12 there is an annular gap 13, so that when the plunger 14 is lifted from the plunger 5, refrigerant injected into the space above the membrane and evaporating in this space can pass through the annular gap 13 into the evaporator line. In this case, the refrigerant evaporated above the membrane exerts a pressure on the membrane that exceeds the evaporator pressure prevailing on the underside of the membrane. In order to ensure a tight seal, a sealing washer 22 made of flexible material is arranged on the lower end face of the plunger 14. The plunger 14 slides in a guide sleeve 15 made of non-magnetic material, so that the lines of force of the magnet coil arranged around the guide sleeve 15 can enter the plunger. At its upper end, the plunger is tapered in order to achieve a tension-proportional stroke of the plunger. To install the expansion valve in any position enable, for example, to be able to also install the expansion valve in vehicles in which it is subjected to centrifugal forces, there is a retaining spring 21 against the upper end face of the plunger, the abutment of which is formed by a screw bolt 18 rigidly connected to the guide sleeve 15, on which a crown nut is attached 19 is screwed, a sealing ring 20 is arranged between the annular end face and the upper end plate of the housing 17 accommodating the magnet coil 16.

If, in the flow profile of the refrigerant in the region of the valve seat 41 and the ring disk 6 closing the valve and forming a flat seat, there is a fear that the flow may break off, which leads to vibrations of the valve tappet 5, this can be shown in FIG. 1 Embodiment modified in such a way that the flow direction of the refrigerant is reversed and the refrigerant flows from the area 3 through a radial bore provided in the plunger 5 directly into the capillary bore 51 of the plunger 5. In this case, the capillary bore 51 is closed at the lower end of the plunger 5, and the arrangement of the filter 9 can be dispensed with. Instead of the filter 9, a screen acting as a filter can be inserted into the capillary bore 51.

Claims (8)

1. Expansion valve for injecting a refrigerant into the evaporator of a refrigeration system with a valve lifter controlled by a diaphragm hydro-pneumatically and a arranged at the evaporator outlet, influencing the flow of a solenoid control element, characterized in that - The valve tappet (5), which has an axial capillary bore (51), rests with a shoulder (52) against the membrane (12), - The valve tappet (5) with its valve seat (41) opposite end (53) of smaller diameter, the membrane (12) in an axial recess with a larger diameter than the tappet end (53), and - The expansion valve has a plunger (14) arranged in the magnet coil (16) which closes and opens the capillary bore (51). 2. Expansion valve according to claim 1, characterized in that the shoulder (52) of the valve tappet (5) forming the end face has a recess which is formed by the annular gap (13) formed by the axial recess of the membrane (12) with that above the membrane (12) located control chamber and through openings (54) in the valve tappet (5) and a channel (31) with the line leading to the evaporator in connection. 3. Expansion valve according to claims 1 and 2, characterized in that the membrane (12) opposite end of the plunger (14) has a conical taper. 4. Expansion valve according to one of claims 1 to 3, characterized in that on the end face of the magnet coil (16) enclosing housing (17) on the plunger (14) acting spring (21) is arranged. 5. Expansion valve according to one of claims 1 to 4, characterized in that in the one inlet (2) and an outlet (3) for the refrigerant valve body (1) is arranged on the valve stem (5) acting spring (8) . 6. Expansion valve according to one of claims 1 to 5, characterized in that the valve seat through the end face of a sleeve (4) penetrated by the valve tappet (5) and the closing body is formed by an annular disk (6) which is made of plastic and bears against an annular shoulder of the valve tappet (5). 7. Expansion valve according to one of claims 1 to 6, characterized in that a filter (9) enclosed by a sleeve is arranged in front of the lower opening of the capillary bore (51) of the valve tappet (5). 8. Expansion valve according to one of claims 1 to 7, characterized in that on the diaphragm (12) penetrating plunger end (53) opposite end face of the plunger (14) a disc (22) made of resilient material is arranged.

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