SU453151A1 - PULSER - Google Patents

Description

one

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular to pneumatic seals.

A pulsator is known, mainly for pneumatic metering devices, including a housing with a cylinder and a piston with a rod moving in it, choke connectors for pressure supply and removal of pulsating pressure and pulsating vacuum, and the pressure supplying and pulsating vacuum outlet are located along different sides of the piston, and the intake and exhaust valves. The disadvantages of the known pulsator are the complexity of the design and lack of reliability in operation.

In order to simplify the design and increase the reliability in the proposed pulsator, a fitting for removing the pulsating pressure is located at the cylinder end on the side of the inlet fitting with a hole in the portion protruding into the cylinder, with one end of the piston rod made in the form of a cylindrical valve blocking the opening in the fitting and the other the end is spring loaded.

In order to obtain a pulsating vacuum in the described pulsator, the inlet valve is located in the vacuum outlet nozzle, and the outlet valve is located at the end of the cylinder and communicates with the atmosphere.

In order to change the frequency of pulsation in the proposed pulsator, the nozzle, which discharges the pulsating pressure, is mounted with the possibility of axial displacement. 5 The drawing shows the proposed pulsator.

The nullator consists of a cylinder 1, the cavity of which is divided by piston 2 into an overpressure chamber 3, and an alternating pressure chamber 4. To the case of the cylinder 1 are attached a coupling 5-7, respectively, with throttles 8-10. In the zone of the variable pressure chamber 4, valves I and 12 are installed. The piston 2 is rigidly connected to the rod 13, at one end of which there is a spring 14, and at the other end a cylindrical valve 15.

The movement of the nozzle 5 is carried out by the screw 16, the degree of compression of the spring is regulated by the washer 17. The air supply to the nozzle 5

0 is made through hole 18.

Pulsator works as follows. From an overpressure source, air flows through nozzle 6 into overpressure chamber 3. Under the influence of excess

5, the piston 2 moves to the right, compressing the spring 14. Air, having flowed out from the variable pressure chamber 4 to the atmosphere, opens valve 12. During this period, valve 11 automatically closes. At the same time

0, with the stem 13, the cylindrical valve 15 moves to the right and opens the opening 18 of the choke 5, where air flows from chamber 3. The pressure in chamber 3 drops. Under the action of the spring 14, the piston 2 moves to the left to the initial position, and the valve 15 closes the opening 18 of the choke 5. The air supply to this choke is stopped. When the piston 2 moves to the left in the chamber 4 as a result of the vacuum created there, the valve 12 automatically closes and the AND valve opens and the vacuum spreads to the fitting 7. The process repeats again. Thus, for one double stroke of the piston, a portion of compressed air is supplied to the fitting 5 and a short-term supply of vacuum to the fitting 7. The fittings 5 and 7 carry out the periodic supply of overpressure and vacuum to the sowing unit without moving parts, respectively. The magnitude of the overpressure is controlled by the degree of compression of the spring 14. The pulsation frequency is changed by the relative position of the choke 5 and valve 15. The latter is accomplished by moving the choke 5 with the screw 16. The pulsating frequency can also be changed by decreasing or increasing the filling or emptying time of chambers 3 and 4. This is achieved by drossel mi 8-10. The principle of operation of this pulsator allows to obtain variable excess pressure and vacuum. For the operation of the pulsator does not require a special drive.

9 3 18 16I I

/ 15

Subject invention

Claims (3)

1. A pulsator, mainly for pneumatic sowing machines, including a housing with a cylinder and a piston with a rod moving in it, chokes with chokes for pressure supply and removal of pulsating pressure and pulsating vacuum, with the choke fitting and pulsating vacuum withdrawing on opposite sides of the piston, and the intake and exhaust valves, characterized in that, in order to simplify the design and increase the availability of power, the nozzle that diverts the pulsating pressure is located on the end of the cylinder from the sides pressure fitting for the inlet and has an opening overlapping cylindrical valve associated with the rod porschn opposite end of which is spring-loaded. 2. A pulsator according to claim 1, characterized in that, in order to obtain a pulsating vacuum, the inlet valve is located in the vacuum discharge nozzle, and the outlet valve is located in the front part of the cylinder and is in communication with the atmosphere. 3. The pulsator according to claim 1, characterized in that, in order to measure the frequency of the pulsation, the nozzle, which discharges the pulsating pressure, is mounted with the possibility of axial displacement. 12