SE501686C2 - Dosing valve for lubricant - Google Patents

Abstract

A metering valve for lubricants, comprising a metering chamber (8) operatively connected with an inlet (6) and an outlet (7). A metering piston divides the chamber into a first and a second part (8a, 8b). A switching member (1) connects alternately a first channel (9a) connected with the first part (8a) with the inlet (6) or the outlet (7), whereby the highly pressurized lubricant can be dispensed into or out of the first part (8a). The second part (8b) is connected with the inlet (6) via a second channel (9b), as a result of which the pressurised lubricant can be dispensed into the second part (8b) irrespective of the position of the switching member. The switching member (1), on a pressure rise, is displaced between a rest position, in which the feeding to the first part (8a) is made possible via the first channel (9a), and an end position, in which feeding is made possible only via the first channel (9a). The switching member (1) in an intermediate position prevents both the feeding in and the dispensing out of lubricant along the first channel (9a).

Description

The equipment required to control this feed causes this grease dispenser to be both expensive and sensitive. The object of the present invention is to provide a dosing valve for lubricants of the above-mentioned type, which * simplifies dosing of grease by utilizing the lubricant pressure. The dosing valve must in particular be suitable for dosing rigid greases in so-called single-conductor systems.

This is achieved according to the invention in that the second part of the dosing chamber communicates with the inlet via a second channel, whereby lubricant under pressure can be fed into the second part of the dosing chamber independently of the position of the commutator slide and that the position of the commutator slide is arranged to be affected by the pressure in the second part. in the case of pressure increase, the commutator slide is moved between a rest position, in which input to the first part of the dosing chamber is made possible through the channel and an end position, in which only output via the first channel is made possible, wherein the commutator slide in an intermediate position is arranged to prevent both input and output. of Lubricant through the first channel.

According to a special feature of the invention, the dosing piston has an upper and lower side with an area which can be actuated by the lubricant pressure.

According to a further special feature of the invention, the commutator slide is operatively connected to a spring acting in its axial direction, which is arranged to counteract the movement of the commutator slide from the rest position and to return the commutator slide to the rest position after completion of discharge. According to another particular feature of the invention, the metering piston is operatively connected to a spring acting in the axial direction of the piston, which is arranged to return the metering piston to its filling position.

According to a final special feature of the invention, the stroke of the dosing piston, which is arranged to influence the amount of discharged lubricant, is regulated with an adjusting screw arranged in operative connection with the piston rod.

The invention will be further explained in the following with reference to the accompanying drawing, in which Fig. 1 shows a cross-section of an advantageous embodiment of the invention. Fig. 2 shows another advantageous embodiment of the invention.

At. hibernation below the pressure in the inlet 6 90 bar.

The commutator slide 1 is then in the position shown in Fig. 1, which allows feed to the dosing chamber 8 through two channels 9a, 9b. When supplying lubricant to the inlet, the pressure in the dosing chamber 8 rises. The pressure increase causes the commutator slide 1 to move upwards in its bore 10, whereby feeding to the dosing chamber 8 through the upper channel 9a is prevented. However, lubricant feeding through the lower channel 9b is still possible. The commutator slide 1 continues during the lubricant supply upwards until, when a certain predetermined pressure is reached in the dosing chamber 8, the spring force of a spring 3 operatively connected to the commutator slide 1 opens and opens the connection between the upper channel 9a and the outlet 7.

The dosing piston 2 is thus forced upwards by the pressure acting on the underside 2b of the dosing piston 2 and the amount of fat above the dosing piston 2 is discharged through the channel 9a to the outlet 7.

When the dosing is completed, the pressure in the lubricant inlet 6 is relieved, whereby the commutator slide 1 is then returned to its rest position by the spring 3. When the first channel 9a between the first part 8a of the dosing chamber and the inlet 6 has been reopened, the dosing piston 2 can be pushed back to rest position. In the embodiment shown in Figure 1, this takes place in that an area difference between the dosing piston above 2a and underside 2b gives rise to a residual pressure which affects the piston. If the residual pressure in the system is too low and is unable to return the dosing piston 2 to the rest position, it is instead returned at the pressure increase in connection with the next pumping out. New grease can then be added to the dosing chamber 8, whereby the dosing valve is ready for a new discharge. The discharge quantity can be steplessly regulated with the adjusting screw 4 which limits the movement of the piston rod 5.

In the embodiment shown in Fig. 2, the dosing piston 2 is operatively connected to a spring 6, which returns the piston to the rest position when the pressure in the inlet decreases. The dosing chamber is provided with a sleeve 10 arranged above it, in which the spring 6 is partly arranged.

It is obvious that the invention must not be considered limited to the embodiment shown in the drawing or to the example described above, but within the scope of the inventive idea can be varied in many ways.

Claims (1)

Dosage valve for lubricant comprising a dosing chamber (8) operatively connected to an inlet (6) and outlet (7) with a dosing piston (2) axially movable therein, which divides the chamber into a first and a second part (8a, 8b) with varying size depending on the axial position of the dosing piston and a commutator slide (1) movable in a separate race (10), which is arranged to alternately connect one to the first part of the dosing chamber. (8a) connected first channel (9a) with the inlet (6) or the outlet (7), wherein lubricant under high pressure, depending on the position of the commutator slide (1), can be fed into or out of the first part (8a) of the dosing chamber, k characterized in that the second part (8b) of the dosing chamber communicates with the inlet (6) via a second channel (9b), whereby lubricant under pressure can be fed into the second part (8b) of the dosing chamber independently of the position of the commutator slide and (1) position is set to be affected by the pressure in the second part (8b) of the dosing chamber so that, during pressure increase, the commutator slide (1) is moved between a rest position, in which feed is made possible to the first part (8a) of the dosing chamber (8) through the channel (9a) and an end position, in which only output via the the first channel (9a), the commutator slide (1) in an intermediate position being arranged to prevent both inlet and discharge of lubricant through the first channel (9a). Device according to claim 1, characterized in that the dosing piston (2) has an upper side (2a) and a lower side (2b) with different areas which can be influenced by the lubricant pressure. Device according to any one of the preceding claims, characterized by; that the commutator slide (1) is operatively connected. with a spring (3) acting in its (1) axial direction, which is arranged to counteract the movement of the commutator slide from the rest position and to return the commutator slide (1) to the rest position after completion of discharge. Device according to one of the preceding claims, characterized in that the dosing piston (2) is operatively connected to a spring (6) acting in the axial direction of the piston (2), which is arranged to return the dosing piston (2) to a filling position, in which the second part (8b) of the dosing chamber is substantially smaller than its first ones (8a). Device according to one of the preceding claims, characterized in that the stroke of the dosing piston (2), which is designed to influence the amount of lubricant discharged, is regulated with an adjusting screw (4) arranged in operative connection with the piston rod.