NO138344B - EXPANSION BOLT. - Google Patents

Abstract

. Elcspans jonsbolt.

Description

Valve mechanism.

The present invention relates to a valve mechanism for controlling the flow of fluids, such as e.g. a gas in a cooling system.

The invention relates more specifically to a valve mechanism of the kind which comprises a valve chamber provided with an inlet on one side and an outlet opening in an end wall, a solenoid-controlled plunger piston arranged to move back and forth in relation to the latter opening for raising and opening this and arranged approximately in line with the inlet, as well as a sleeve-shaped part in the chamber through which the plunger piston can be moved.

The characteristic feature of the valve mechanism according to the invention is that the sleeve-shaped part is attached to the walls of the valve chamber by means of a fastening element that extends from the sleeve to the walls, and that the sleeve-shaped part has such a length that it extends through a significant part of the area within the outlet and ends shortly before the bottom wall, so that it is separated from the bottom wall in a known manner to allow free flow of fluid from the inlet to the outlet opening, and is of sufficient length to allow the plunger piston to be set approximately inside the sleeve when the valve is in the open position score

Incidentally, the invention will be easier to understand from the following description in connection with the drawing which illustrates some preferred embodiments of a valve mechanism according to the invention.

The drawing shows

Fig. 1 is an axial section partially in elevation of a valve mechanism according to an embodiment of the invention and shows the valve opening closed. Fig. 2 is a drawing similar to fig. 1, but

shows the valve in the open position.

Fig. 3 shows on a somewhat larger scale an interrupted axial section, partly in elevation, of a three-way valve according to another embodiment of the invention.

In the drawing's fig. 1 and 2 shows a solenoid-controlled valve mechanism comprising a valve 10 which is particularly suitable for controlling the flow of a refrigerant in a cooling system, e.g. to control the flow of hot refrigerant gas to the evaporator in a refrigerator for defrosting the evaporator. The valve body comprises a chamfered body 11 with an inlet opening 12 and an outlet opening 13 to which openings pipes 14 and 15 are attached which can be connected in a suitable way in the cooling system. The openings 12 and 13 are in connection with a central chamber 16 whose upper part is made with an enlarged diameter, as shown in the drawing, and in which the lower end of a sleeve 20 of non-magnetic material, e.g. brass, is soldered. The upper end of the sleeve 20 is closed by means of a stopper 21 which is fixed in the sleeve by crimping the sides of the sleeve in a groove arranged along the circumference of the stopper, and a solenoid coil 22 is arranged around the sleeve and fixed on this by means of a nut 23 which is screwed onto one end of the plug 21 as shown in fig. 1 and 2. The power circuit for the solenoid can be controlled by any suitable device commonly used in refrigeration systems and this is not shown as it does not form any essential part of the invention or is necessary for the understanding of this.

The opening 13 can be closed with a valve body 25 of the plunger type and made with a collar 26, and the plunger is carried in a cylindrical groove made in an armature 27 which can move vertically in the sleeve 20 when the solenoid 22 is supplied with power. A disk 28 is attached to the lower end of the anchor, e.g. in that the end edge of the anchor is bent towards the disk while pressing it firmly against a shoulder arranged inside the anchor. The disc is made with an opening for receiving a part of the plunger made with a reduced diameter which rests against the underside of a collar 26 when the plunger is in its raised position as shown in fig. 2. A compression spring 30 is arranged between the collar 26 and the upper end of the slot in the armature 27 to press the plunger with its collar against the disc 28.

The armature 27 is normally pressed against the opening 13 in the valve by means of a coil spring 32 which surrounds a pin 27a on the armature and which is arranged between a ring 33 fixed in the sleeve 20 and a shoulder 27b on the armature.

Between the lower end of the sleeve 20 and a shoulder lia in the chamber 16, a funnel-shaped element 34 is arranged which has a downwardly directed sleeve-shaped part 34a made of relatively hard, rigid material, through which part the plunger 25 extends, the plunger being arranged like this in relative to the sleeve-shaped part that it can move relative to the sleeve 34a. The lower end of the sleeve 34a terminates a short distance from the bottom in the chamber 16 with sufficient clearance to allow full flow of a fluid from the inlet opening 12 to the outlet opening 13 when the plunger 25 is raised to its upper position by the action of the current-carrying solenoid 22 as shown in fig. 2. The sleeve 34a protects the plunger 25 against the impact of the fluid flow through the valve when the plunger 25 is in its raised position, and thereby eliminates noise that would otherwise occur as a result of vibration of the plunger produced by the passing fluid, and likewise prevents that lateral forces are exerted on the valve plunger which could cause it to be bent along with its guide during its movement.

The embodiment shown in fig. 3, comprises a construction similar to the one just described (which corresponding construction is provided with the corresponding reference number added 100) with the exception that a three-way valve body is shown which comprises inlet openings 112 and 113 respectively as well as a third outlet opening 60 which opens into the valve body 116 over a sleeve 134 which has a neck portion 134a which acts in the same way as the sleeve 34a, as well as a plunger piston 125, similar to the plunger 25, with the exception that the lower end of the plunger is made with a reduced diameter in relation to the part that interacts with the outlet opening 113. In the embodiment of the invention shown in fig. 3, when the valve 125 closes the opening 113, there is free flow of fluid through the openings 112 and 60. When the solenoid is energized, the plunger 125 is raised and substantially closes the sleeve 134a, so that the majority of the flow will go from the inlet opening 112 through the outlet - the opening 113 with a limited flow through the third opening 60.

Claims (1)

Valve mechanism comprising a valve chamber provided with an inlet on one side and an outlet opening in an end wall, a solenoid-operated plunger piston arranged to move back and forth relative to the latter opening for closing and opening thereof and arranged approximately in line with the inlet, and a sleeve-shaped part in the chamber through which the plunger piston can be moved, characterized in that the sleeve-shaped part (34a) is attached to the walls of the valve chamber (16) by means of a fastening element (34) which extends from the sleeve to the walls, and that the sleeve-shaped part ( 34a) has such a length that it extends through a significant part of the area within the outlet (12) and ends shortly before the bottom wall, so that it is separated from the bottom wall in a known manner to allow free flow of fluid from the inlet (12) to the outlet opening (13), and has sufficient length to allow the plunger piston (25) to be set approximately inside the sleeve (34a) when the valve is in the open position.