SU1481558A1 - Lubricant metering device - Google Patents

Abstract

The invention relates to a device for metering lubricant and improves accuracy. Installed on the rod 4 with a gap relative to the piston 3 and the stop 5, the pusher 7 moves to the stop 5 when moving to the right and starts to move the piston 3. At the same time, the end of the movement indicator 12 moves forward relative to the end of the movement indicator 13 because the movement of the movement indicator is less than the movement of the movement indicator pusher, but more than the difference of the latter and the gap between the stop and the pusher. The lubricant through the inlet channel 14 enters the cavity of the cylinder 2. Before the completion of the stroke of the pusher 7, the spring-loaded displacement indicators 12 and 13 fixed to the pusher and the stop will come up to the corresponding in-plane, perpendicular axis of the rod, the switches 8 and 9 and the springs will begin to compress 10 and 11. At the return stroke of the pusher 7, if the content of the lubricant in the dose is normal, then at the beginning the displacement of the piston 3 compared to the stroke of the pusher 7 will be less due to the compression of the spring 6 placed on the rod behind the piston 3, The resistance force generated by the pressure of the piston 3 per portion of lubricant in the cavity of cylinder 2 exceeds the force of spring 6. The displacement indicator 12 moves away from switch 8 before displacement indicator 13 moves away from switch 9 and the actuator of the pusher 27 switches on spring-loaded spool 21, connecting the outlet channel 18 through the channel 22 of the dose of the spool to the channel 25 of the dose issuance. If the dose contains gaseous inclusions, when moving the piston 3 together with the pusher 7, gas will be compressed in the cavity of cylinder 2. Spring 6 in this part of the movement of piston 3 will not compress, because its force exceeds the resistance of the compressible gas. The movement indicator 12 leaves the switch 8 after the movement indicator 13 moves away from the switch 9. With this operation of the switches 8 and 9, the actuator of the pusher 28 turns on by moving the spool 21, which connects the exhaust channel 18 through its reset channel 23 to channel 26, and non-compliant grease will be forced out to discharge. 1 il.

Description

one

The invention relates to a device for metering lubricant and can be used in mechanical engineering, in particular, for supplying lubricant to bearings.

The purpose of the invention is to improve the accuracy of dosing.

The drawing shows the dispenser lubrication.

The dispenser contains a cylinder 2 with a piston 3 located in housing 1, the free end of which stem 4 is made with an anvil 5. On the rod 4 successively behind the piston 3 there is a compression spring 6 and a pusher 7 mounted with a clearance relative to the piston 3 and an emphasis 5 with the possibility of moving between them. On the pusher 7 and the stop 5 with the ability to interact with the switches 8 and 9 are fixed corresponding spring-loaded

springs 10 and 11 pointers 12 and 13 movements. The switches 8 and 9 are located in a plane perpendicular to the axis of the rod, the movement of the pointer of the stops is less than the stroke of the pointer of the movements of the pusher, but more than the difference in the stroke of the latter and the gap between the stop and the pusher. The inlet channel 14 of the cylinder 2 is provided with a spool 15 with a channel 16 and a pusher 17, and the exhaust channel 18 is spring-loaded springs 19 and 20 with a spool 21 biased on both sides, made with channels 22 and 23, respectively, for dose and discharge, separated by a partition 24 that overlaps the exhaust channel 18. The spool 21 is installed with the possibility of communication of the exhaust channel 18 with the channel 25 for dispensing or resetting 26. A pusher 27 for dispensing dose of the spool 21 is connected to a switch 8, and a pusher 28 for resetting it with a switch 9. The pusher 7 is equipped with switches 29 and 30, to torye controlled by its actuator (not shown). Drives for moving a thickness of 5, 7, 17, 27 and 28 can be hydraulic, pneumatic or electromechanical.

Lubricator dispenser works as follows.

0 At the beginning of the stroke of the pusher 7, the gap between the ends of the piston 3 and the pusher 7 is selected to the right, the spring 6 is partially opened, providing the working force acting on the piston 3. The magnitude of this force exceeds the force exerted on the piston with lubricant filling the cylinder cavity 2. The pusher 7 comes to stop 5 and begins to move the piston 3, while the end

® The displacement indicator 12 protrudes beyond the end of the displacement indicator 13. A cavity forming in cylinder 2 is filled with lubricant through the inlet channel 14 and the channel 16 of the spool 15. Exhaust channel 18 is blocked by a partition 24 gold 5

21. Before the completion of the stroke of the pusher 7, the displacement indicators 12 and 13 approach the switches 3 and 9, respectively, and the springs 10 and 11 begin to compress. At the end of the stroke, the pusher 7 switches its drive to reverse. The spool 15 closes the channel 14. The pusher 7, having started the return stroke, with the help of the spring 6 causes the piston 3 to move. The springs 10 and 11 begin to expand. The piston 3 exerts pressure under the action of the spring 6 on the lubricant filling the cavity of the cylinder 15. The gaseous inclusions in the lubricant reduce its content in the doses entering the cavity of cylinder 2.

If the content of lubricant in the dose corresponds to the norm, then at the beginning the displacement of the piston 3 compared to the stroke of the pusher 7 is less due to compression of the spring 6, since the resistance force that occurs when the pressure of the piston 3 is 25 parts of lubricant in the cavity of cylinder 2, exceeds the spring force.

Move pointer 12 departs

the switch 8, after the movement indicator 13 moves away from the switch 9, since its end lags behind the movement indicator index 13 as it moves 7 With this operation of the switches 8 and 9, the actuator 28 is activated, which, compressing the spring 19, moves the control spool 21 and connects the outlet channel 18 through the channel 23 with the channel 26 and a portion of lubricant that does not meet the norm is displaced by the piston 3 from the cavity of the cylinder 2 to the dump. At the end of the stroke of the piston 3, the spring 6 is compressed. The pusher 7 by means of the switch 29 turns off the drive of the pusher 28 and turns on the drives of the pushers 17 and 7 to perform the next set-up cycle and control the lubricant dose. Gold 21 under the action of spring 19 returns to its original position and closes channel 18 with a partition 24, and spool 15 opens channel 9.

The lubricant meter provides a higher accuracy of lubricant metering and improves the reliability, stability and quality of the lubricant metering operation and can

from switch 8 before being instructed to be effective in working conditions,

when increased requirements for metering accuracy are made.

35

Claims (2)

Invention Formula A lubricant dispenser containing a cylinder with inlet and outlet channels, a piston placed in the cylinder, the free end of the rod of which is fixed and connected to the pusher, The moving body 13 moves away from the switch 9 and the drive of the pusher 27 is turned on, which, having moved the spool 21, connects the exhaust channel 18 through the channel 22 to the channel 25 and the lubricant dose is displaced by the moving piston 3 from the cavity of the cylinder 2 to the consumer. Springs 6 and 20 are compressed. The pusher 7 at the end of the stroke by means of the switch 29 turns off the drive actuator 27 and includes a switch, a compression spring and supplies pushers 17 and 7 for performing a spring-loaded, zoned next set and control cycle; Threat Lubricants. The spool 21 for de-coupling the exhaust channel with the spring 20 canal returns to the output of the Dose or reset, about the nominal position and closes the partition 18 by the partitioning, and the spool 15 increases in accuracy; channel 14 is inserted into it. Due to the start of gaseous inclusions in the dose delivered to the cavity of the cyplinder 2, the lubricant may be contained below the norm. In this case, when moving the piston 3 together with the pusher 7, the gas is compressed in the cylinder cavity 2. The spring 6 in this region of the movement of the piston 3 is not compressed since its force exceeds the resistance of the compressed gas. Movement pointer 12 departs from the re-. 55 An additional switch on the arranged displacement indicators, which, with the possibility of interaction with the corresponding switches, are mounted on the stop and the pusher mounted on the rod with a gap relative to the piston and the stop can move between them, and a spring is placed on the rod behind the piston sequentially. in the plane perpendicular to the axis of the rod, the stroke of the movement indicator of the stop of the key switch 8, after the movement pointer 13 moves away from the switch 9, since its The nose lags behind the end of the displacement indicator 13 when the switches 8 and 9 are actuated, the actuator of the pusher 28 is activated, which, compressing the spring 19, moves the distribution spool 21 and connects the outlet channel 18 through the channel 23 to the channel 26 and the lubricant portion does not match normally, the piston 3 is displaced from the cavity of the cylinder 2 to a dump. At the end of the stroke of the piston 3, the spring 6 is compressed. The pusher 7 by means of the switch 29 turns off the drive of the pusher 28 and turns on the drives of the pushers 17 and 7 to perform the next set-up cycle and control the lubricant dose. Gold 21 under the action of spring 19 returns to its original position and closes channel 18 with a partition 24, and spool 15 opens channel 9. The lubricant meter provides a higher accuracy of lubricant metering and improves the reliability, stability and quality of the lubricant metering operation and can to be effective in working conditions when increased requirements for metering accuracy are made. a switch, a compression spring, and a powered spring loaded fan, mounted to communicate the exhaust channel with the Dose Giving or reset channel, due to the fact that, in order to improve the accuracy, Invention Formula A lubricant dispenser containing a cylinder with inlet and outlet channels, a piston placed in the cylinder, the free end of the rod of which is fixed and connected to the pusher, a switch, a compression spring and a powered spring loaded fan that is installed with the possibility of communicating the outlet channel to the Dose Giving or reset channel, due to the fact that, in order to improve the accuracy, a switch is inserted in it , a compression spring and an actuated spring loaded collar, installed with the possibility of communicating the outlet channel to the Dose Giving or Reset channel, due to the fact that, in order to improve the accuracy, An additional switch on the arranged displacement indicators, which, with the possibility of interaction with the corresponding switches, are mounted on the stop and the pusher mounted on the rod with a gap relative to the piston and the stop can move between them, and a spring is placed on the rod behind the piston sequentially. in the plane perpendicular to the axis of the rod, the stroke of the pointer movement of the stops is less than 514815586 me, the stroke indicator is pusher-separated by a partition for the overhang, but more than the path difference between the pointer of the exhaust channel of the cylinder, l of the pusher movements and the inter-drive clearance for dispensing the spool dose to the stop and the pusher, with the switch for the pusher, the lotter is spring-loaded from two sides and you — and for reset — with a switch for more complete with channels for dose and discharge, an emphasis.