SU1178936A2 - Pump - Google Patents

Abstract

PUMP auth. St. No. 1040212, characterized in that, in order to control the pump performance at a constant drive stroke, the piston is provided with a threaded sealing sleeve, which is mounted concentrically on the rod so that it can move along the axis of the rod, while the edge of the ring groove is formed by the end of the sealing sleeve. 2 (L 00 o co o:

Description

The invention relates to pump engineering, in particular to piston pumps with valve distribution, can be used in installations for applying paint coatings and is an improvement of the known device described in the author. St. No. 1040212.

The aim of the invention is to control the performance of the pump at a constant stroke of the drive.

FIG. 1 shows a pump pump assembly with a piston in the top dead center; in fig. 2 - the same, with the position of the piston in the bottom dead center; in fig. 3 — a coating installation in which the proposed pump is used.

The pump contains a cylinder 1, a piston 2 with a rod 3, placed in it with the formation of piston and rod chambers 4 and 5, the last of which is communicated with discharge hydraulic line 6, suction valve 7, seat 8, made in the form of a piston spring-loaded spring 9, set with the possibility of limited axial mixing relative to the cylinder 1 with the formation of an additional chamber 10 of variable volume.

The pump has a discharge valve 11 mounted in piston 2 for periodically between piston and rod chambers 4 and 5. Rod 3 in the interface with piston 2 has a groove 12, and cylinder 1 is equipped with two channels 13 and 14 to communicate additional chamber 10 with injection hydraulic line 6, one of which (13) is located with the possibility of communication with injection hydraulic line 6 through groove 12 of rod 3 at the position of piston 2 at the top dead center, and the second (14) is permanently connected with pressure hydraulic line 6 and is equipped with a check valve 15 open In the direction of the injection of the hydroline 6. The pump can be used, for example, in an installation for applying paint coatings (Fig. 3). The unit is mounted on the carriage 16 and includes a drive air motor 17 connected to the pump rod 3 (not shown), a receiving tank 18 communicated by the sleeve 19 to the suction line 20 of the pump. A filter 21, a pressure hose 22 and a spray gun 23 are connected in series to the discharge hydraulic line 6. The rod 3 is equipped with a threaded concentrically mounted sealing sleeve 24, sealing elements 25 and 26, and the edge of the annular groove 12 is formed by the end 27 of the sealing sleeve 24.

The pump as part of the installation works as follows.

When the piston 2 moves upwards in the piston chamber 4, a discharge is created, and the pumped liquid from the receiving tank 18 through the suction line hose 22 22 through the suction valve 7 enters the piston chamber 4.

When the piston 2 moves downward in the piston chamber 4, a pressure is created under which the suction valve 7 closes, the discharge valve 11 opens, and the pumped liquid under pressure from the piston chamber 4 is displaced into the rod chamber 5 and the discharge hydraulic line 6.

Under the condition that the piston chamber 4 is completely filled with the pumped liquid, the saddle 8 of the suction valve under the action of the spring 9 remains stationary. When pumping a high-viscous fluid, the piston chamber 4 can only be partially filled, while in the case of movement of the piston 2 upward, the additional chamber 10 through the channel 13, the annular groove 12 of the rod 3

communicates with the injection, hydroline 6, as a result of which the saddle 8 overcomes the force of the spring 9 and rises upwards, the volume of the chamber 10 is increased by the amount of underfilling of the porous core 4.

During the subsequent movement of the piston 2 down in the piston chamber 4 due to the absence of an empty volume, pressure is created, the suction valve closes, the discharge valve 11 opens and the pumped liquid is displaced from

the piston chamber 4 into the rod chamber 5 and the discharge line 6. At the same time, the pumped liquid from the additional chamber 10 through the channel 14 and through the check valve 15 is also forced out into the injection hydroline 6. Then the cycle repeats.

The force of the spring 9 of the saddle 8 is calculated on the working pressure created when the pump is pumped. The pressure of the pumped liquid acts on the saddle 8 in the direction of increasing the volume of the additional chamber 10 only when the groove 12 of the rod 3 is aligned with the channel 13, i.e. when the piston 2 is in the top dead center. The rest of the time of operation of the pump channel 13 is blocked by a rod 3,

and channel 14 - check valve 15.

When the width of the annular groove 12 increases, the communication of the pinhole chamber 5 and the additional chamber 10 through channel 13 will occur earlier, i.e. until the moment

the passage of the piston 2 of its extreme upper position. At the time of the start of communication of chambers 5 and 10 through channel 13 synchronously to the movement of piston 2, the saddle 8 will move upward with the termination of the suction of fluid into the piston chamber 4, and the wider

an annular groove 12, the earlier the chambers 5 and 10 communicate, and the lower the pump capacity. With piston stroke 2

down with the simultaneous flow of fluid through the nozzle of the spray gun 23, the pumped fluid will flow back from chamber 10 into the rod chamber 5.

In case of wear of the outer rubbing surface of the threaded sleeve 24, the latter can be replaced with a new one, using the same rod 3 hydraulics 2. Compressed (rig. 3

Claims (1)

PUMP by ed. St. No. 1040212, characterized in that, in order to regulate the pump performance with a constant drive stroke, the piston is equipped with a threaded sealing sleeve that is mounted concentrically on the stem with the possibility of its movement along the axis of the rod, while the edge of the annular groove is formed by the end of the sealing sleeve. <Riga 1 m 00 ς © GO © 5