SU985411A1 - Concrete pump - Google Patents

Description

(54) CONTAINER PUMP

The invention relates to pump engineering, in particular to pumps for pumping viscous and non-uniform liquids.

A concrete pump is known that includes a housing with a discharge valve installed therein, an annular diaphragm with a central opening for securing the transport pipe movable relative to the housing, which is open to the side of the receiving hopper and having an intake valve at the opposite end, the gates of the suction and discharge valves being coaxial with one another.

However, the suction and discharge valves of the pump are self-acting and have lobe flaps of elastic material. When the pump is running, this leads to a sign. a serious delay in their opening and closing and, as a result, a decrease in pump efficiency.

The purpose of the invention is to increase the efficiency of the pump by eliminating the delay in opening and closing of the suction and. injection valves.

This goal is achieved by the fact that the valves of the suction and discharge valves are provided with rods for separate movement using a drive device.

The drive device is designed as a hydraulic cylinder with two pistons placed in a common cylinder with three successively along its generatrix located by supplying and discharging control medium openings, and each of the pistons is connected to a corresponding gate stem, while the piston and stem connected with the gate of the suction valve has a through axial bore for accommodating the rod connected to the gate of the discharge valve and the second piston i, and both pistons are located in the cylinder on either side of the central bore.

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FIG. 1 shows a concrete pump, a longitudinal section; in fig. 2 is a diagram of the arrangement of the pump elements during the execution of the suction stroke; in fig. 3 is a diagram of the arrangement of the pump elements in the period of the discharge stroke.

The concrete pump includes a housing 1 with a lid 2 and a receiving hopper 3, a transport tube 4, a working gauge 5 equipped with an annular elastic diaphragm 6, the peripheral part of which is fixed in the housing. The diaphragm b has a central opening for securing the pistons 7 and 8 of the drive unit, forming together with the housing 1 two drive chambers 9 and 10 of variable volume, the working fluid to which is supplied through fittings 11 and 12, respectively. Transport pipe 4 is open in the direction of the receiving (hopper 3, carries confuser 13 and diaphragm 14, the peripheral part of which is fixed between the housing 1 and the receiving hopper 3, and has at the opposite end a suction valve with a gate 15, in the housing 1 between it and the discharge nozzle 16 a discharge valve with a valve 17 is installed. The valves 15 and 17 of the suction and discharge valves are individually actuated for each valve in the form of a hydraulic cylinder that includes two pistons 18 and 19 with rods 20 and 21, respectively, placed in common The cylinder 22 has three successively along its generatrix spaced openings 23-25 for supplying and discharging the control medium, wherein the piston 18 and the rod 20 connected to the gate 15 of the suction valve have a through-hole for accommodating the rod 21 connected with the shutter 17 of the injection valve and the second piston 19. Both pistons 18 and 19 are located in the cylinder 22 on both sides of the axis of the central bore 24.

Concrete pump works as follows.

The working fluid under pressure through the nozzle 12 is fed into the drive chamber 10, which causes the transport pipe 4 and diaphragm b to move towards the receiving hopper 3 and the volume of the working chamber 5 increases. Simultaneously, the control medium in the form of pressurized fluid or compressed air is fed through the hole 24 cylinder 22, where it acts on the pistons 18 and 19. The movement of the pistons 18 and 19 ensures the closure of the valve 17 of the discharge valve and the opening of the valve 15 of the suction valve, since the pistons 18 and 19 of the rods 20 and 21 are connected to the valves 15 and 17 respectively

With an increase in the volume of the working chamber 5, it is filled with a concrete mixture from the receiving bin 3 - the suction stroke occurs.

At the end of the suction stroke, the drive chamber 10 communicates with. the working fluid under pressure through the nozzle 11 is fed into the drive chamber 9, which causes the transfer pipe 4 and diaphragm 6 to move towards the discharge nozzle 16 and decrease the volume of the working chamber 5. At the same time, the control medium is fed through cylinder 22, where it acts on the pistons 18 and 19. The movement of the pistons 18 and 19 ensures the closure of the valve 15 of the suction valve and the opening of the valve 17 of the discharge valve, since the pistons 18 and 19, as mentioned above, are connected by rods 20 and 21

respectively with valves 15 and 17 of the suction and discharge valves.

When the volume of the working chamber 5 is reduced, the concrete mixture flows out of it into the discharge pipe 16 - the injection stroke occurs. Further cycles are repeated.

The proposed concrete pump allows to increase its efficiency, efficiency, by eliminating the delay from. close and close the suction and discharge valves.

Claims (2)

1. Concrete pump, comprising a housing, with a discharge valve installed in it, an annular diaphragm with a central opening for securing the transport pipe movable relative to the housing, open to the side of the receiving hopper And having an opposite end at the suction valve, and the gates of the suction and discharge valves are coaxially single another, characterized in that 5 in order to increase efficiency by eliminating delayed opening and closing of the suction and discharge valves, the valves of the latter are provided with rods for separate movement by means of a drive device. 2. Concrete pump according to claim 1, characterized in that the drive device is designed as a hydraulic cylinder with two pistons placed in a common cylinder with three successively along its generatrix located control and discharge apertures of the control medium, and Each of the pistons is connected to a corresponding gate stem, wherein the piston and the stem connected to the gate of the suction valve have a through axial bore placing the stem associated with the discharge valve and the second piston, and both pistons located in the cylinder on either side of the central bore. Sources of information taken into account in the examination 1. USSR author's certificate I 693045, class, F 04 in 15/02, 1978. /////// 1C