RU2016270C1 - Reciprocating pneumatic drive - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: piston in the upper dead point initiates a first pneumatic distributor by a pusher cam and thus communicates the upper cavity of a cylinder with an air manifold through holes, and the lower cavity - with the atmosphere also through holes. The return channel of the first pneumatic distributor in this position communicates with the atmosphere through an initiated second distributor. The piston moves down under the air pressure fed to the cylinder through holes. When the piston is in the lower dead point the cam initiates the second pneumatic distributor and the air from the manifold passing through the second pneumatic distributor and the holes enters the return channel of the first distributor and shuts it off. In this position the air from the manifold enters the first pneumatic distributor through the holes, flows out of the first pneumatic distributor through the hole and enters the lower cavity of the cylinder through the hole, the piston moves up. EFFECT: improved structure. 3 cl, 5 dwg

Description

 The invention relates to pneumatic drives of pumping units or other devices with reciprocating movement of the working body (rod).

 Known pneumatic reciprocating drive containing a pneumatic cylinder, to the cavities of which are connected two working lines of the executive four-line on-off pneumatic distributor, the supply and exhaust lines of which are connected to the discharge and discharge lines of the working medium, respectively, and the pneumatic control cavity is connected to the operating line of the control three-line on-off pneumatic distributor having a line for supplying and discharging a working medium and a switching roller for interacting with pressure the pneumatic cylinder rod element in one of the extreme positions of the latter.

 The disadvantage of such a pneumatic actuator is the combined complexity of the design, the need to use three or more pneumatic valves in it, including non-standard ones.

 The purpose of the invention is to simplify the design of the pneumatic actuator by reducing the number of pneumatic valves and connections.

 This is achieved by the fact that the actuating valve is provided on the side opposite to the pneumatic control cavity with a switching roller mounted to interact with the specified pressure element of the pneumatic cylinder rod in the other extreme position of the latter.

 The control pneumatic distributor can be made pneumatically controlled with a pneumatic control cavity located on the side opposite to the switching roller and connected to one of the operating lines of the executive pneumatic distributor.

 The supply line of the control pneumatic distributor with both spring and pneumatic return can be connected to another working line of the executive pneumatic distributor.

 For unification and application of standard pneumatic elements, the control three-line two-position pneumatic distributor can be made four-linear with spring or pneumatic return and with a plugged hole in one of the lines.

 Figure 1 presents the functional diagram of the proposed pneumatic drive; figure 2-5 - embodiments of the control valve of the pneumatic actuator.

 The pneumatic actuator contains a pneumatic cylinder 1, to the cavities 2 and 3 of which are connected two working lines 4 and 5 of the executive four-line on-off valve 6.

 The supply and discharge lines 7 and 8 of the pneumatic distributor 6 are connected respectively to the discharge and discharge lines of the working medium, and the pneumatic control cavity 9 is connected to the operating line 10 of the control three-line two-position pneumatic distributor 11, which has the supply and discharge lines of the working medium 12 and a switching roller 14 for interacting with the pressure element 15 control together with the working rod 18 in the pneumatic cylinder 1. In the other extreme position of the piston 17, the pressure element 15 interacts with the switching roller 19 of the pneumatic distributor 6, installed Applicants' on the side opposite the cavity 9 pneumatic control valves. The control pneumatic distributor can be made pneumatically controlled (Fig. 2) with a pneumatic control cavity 20 located on the side opposite to the switching roller 14 and connected to one of the working lines, in Fig. 2 - to the line 5 of the actuating pneumatic distributor 6.

 The supply line of the control pneumatic distributor with both spring (Fig. 1) and pneumatic (Fig. 2) return can be connected to another working line of the actuating pneumatic distributor 6 (Fig. 3 to line 4).

 Instead of controlling a three-line on-off directional valve, a four-way valve 21 (Fig. 4) with spring return or (5) with pneumatic return 22 can be used, the openings 23 in both versions of the valve can be plugged.

 The pneumatic actuator operates as follows.

 In the position shown in figure 1, the piston 17, having reached the upper extreme position, includes a pressure element 15 of the rod 16 of the pneumatic distributor 6, thereby communicating the upper cavity 2 of the pneumatic cylinder 1 through the openings 24 and 25 with the air line 26, and the lower cavity 3 through holes 27 and 28 - with the atmosphere. The pneumatic control cavity 9 of the pneumatic distributor 6 in this position communicates via line 10 and the switched off pneumatic distributor 11 with the atmosphere. Under the pressure of the air entering the pneumatic cylinder 1 through the hole 24, the piston 17 moves down.

 In the lower extreme position of the piston 17, the pressure element 15 includes a pneumatic distributor 11 and air from the line 26 through line 12 and then through the openings 29 and 30 of the pneumatic distributor 11 and line 10 enters the pneumatic control cavity 9 of the pneumatic distributor 6, turning it off.

 In this position, air from the line 26 enters the air distributor 6 through the opening 31 and, leaving the air distributor 6 through the opening 28, enters through the opening 27 into the lower cavity 3 of the pneumatic cylinder 1. In this case, the piston 17 goes up. Next, the cycle of work is repeated, and thus, when air is supplied to the line 26, the piston 17 automatically performs reciprocating movements up and down, ensuring the operation of the pneumatic actuator.

 When using a three-line valve 11 with a cavity 20 pneumatic control and four-line valve 21 and 22, the operation of the pneumatic actuator proceeds in a similar way.

Claims (3)

 1. PNEUMATIC DRIVE RETURNING AND ACCESSING ACTION, containing a pneumatic cylinder, to the cavities of which are connected two working lines of the executive four-line on-off pneumatic distributor, the supply and exhaust lines of which are connected to the discharge and discharge lines of the working medium, respectively, and the pneumatic control cavity is provided with a three-way remote control having a line for supplying and discharging a working medium, and a switching roller for interacting with a pressure element m of the pneumatic cylinder rod in one of the extreme positions of the latter, characterized in that, in order to simplify the design by reducing the pneumatic valves, the actuating valve is provided on the side opposite to the pneumatic control cavity with a switching roller mounted to interact with the pressure element of the pneumatic cylinder rod in the other extreme position of the latter.  2. The drive according to claim 1, characterized in that the control pneumatic distributor is made pneumatically controlled with a pneumatic control cavity located on the side opposite to the switching roller and connected to one of the operating lines of the executive pneumatic distributor.  3. The drive according to claim 2, characterized in that the supply line of the control pneumatic distributor is connected to another working line of the executive pneumatic distributor.

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