SU1382992A1 - Concrete pump - Google Patents

Abstract

The invention allows to increase the efficiency of the pump. The discharge pipeline (t) 6 is attached to the sleeve 12 of the thrust bearing on the side opposite to the reference bore 13. Section of the L-shaped channel 9 pipe (P) 8, communicated with T, is made in the trunnion 11 P. The inlet opening T and the specified section of the channel located coaxially with axis 7 of rotation P, Pistons in the working cylinders make working movements in antiphase and at the end of the next stroke P with hydraulic cylinder 17 turn to another extreme position. When turning the blade, the blade 14 acts on the concrete mixture in the cavity of the hopper 3, eliminates stagnant zones, the flange contacts the conical plane, seals the bunker, and takes the axial load acting on P. 2 Il. (O (L OS) CX) 10

Description

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

The aim of the invention is to increase the efficiency of the pump by eliminating stagnant areas of the concrete mix in the receiving bin.

Fig. 1 shows a concrete pump, a section through a distribution unit; figure 2-section aa in figure 1.

Concrete pump contains two horizontally located working cylinders 1 and 2, attached to the receiving bunker 3 by means of a shaped plate 4, having in the exit zone of the openings of the working cylinders 1 and 2 into the cavity of the receiving bunker 3 a cylindrical surface 5, discharge pipe 6 and a distributor in the form of in the receiving bunker with the possibility of reciprocating movement around the vertical axis 7 of the nozzle 8, having a L-shaped channel 9, a portion of the cylindrical surface in the interface with the cylindrical the surface 5 of the receiving hopper 3, the support flange 10 with a conical surface and a pin 11 mounted vertically in the sleeve

12-bearing bearing attached to the bottom of the receiving hopper 3 and having a conical bearing on juice

13 in contact with the conical surface of the support flange 10 of the nozzle 8.

One end of the L-shaped channel 9 is made in the trunnion 11 of the nozzle 8 and is permanently connected to the inlet of the discharge pipe 6, and the other is facing the openings of the working cylinders 1 and 2 in the wall of the receiving hopper (or shaped plate 4) and alternately during the discharge stroke communicated with one of these holes. The inlet of the discharge pipe 6 and communicated with him a portion of the l-shaped channel 9 in the pin 11 of the pipe 8 are aligned with the axis 7 of the rotation of the pipe 8.

The pipe 8 on the side of the end facing the cavity of the receiving bunker has a blade 14 and profiled flow channels 15 and 16 located on both sides of this blade 14 to communicate the cavity of the receiving bunker 3 with one of the outlet openings

working cylinders 1 and 2 during the suction stroke.

The tube is driven back by a hydraulic cylinder 17.

Concrete pump works as follows.

In one of the extreme positions of the distribution pipe 8, the piston of the working cylinder I moves in the direction of decreasing the volume of this cylinder (indicated by the arrow in FIG. 2), and a pressure stroke takes place in this cylinder.

At the same time, the piston of the working cylinder 2 moves in the direction of increasing the volume of this cylinder, having performed a suction stroke. During the suction stroke, the concrete mix from the receiving bin 3 through the flow channel 15 or 16, depending on the position of the distribution nozzle 8, is filled by the corresponding working cylinder 2

or 1. During the pumping stroke, the concrete mixture from the working cylinder 1 or 2, depending on the position of the distribution pipe 8, is displaced along the L-shaped channel 9 into the discharge pipe 6.

The pistons in the working cylinders 1 and 2 make the working movements in the opposite phase, and at the end of the next stroke the distribution pipe 8 is turned by the hydraulic cylinder 17 to another extreme position. The cycles are repeated periodically.

When turning the nozzle 8, the blade 14 acts on the concrete mix in the cavity of the hopper 3, eliminates stagnant zones, the support flange 10 of the nozzle 8 contacts the conical support 13 of the thrust bearing 12, seals the hopper 3, while

supporting juice 13 takes the axial load acting on the nozzle 8.

Claims (1)

Invention Formula Concrete pump containing two horizontally located working cylinders attached to a liquid-filled bunker, which has a cylindrical surface in the exit zone of the working cylinder openings, a discharge pipe and a distribution device in the form of a returnable a rotary movement around the vertical axis of a nozzle having a G-shaped channel, a portion of a cylindrical surface in the interface with the cylindrical surface of the receiving hopper, a support flange and a trunnion mounted vertically in the sleeve of the thrust bearing attached to the bottom of the receiving hopper and having a supporting the juice in the contact zone with the support flange of the nozzle, with one end of the L-shaped channel being permanently connected to the inlet of the discharge pipeline, and the other facing the openings of the working cylinders in the center Nke receiving hopper and alternately in the discharge stroke 0 communicated with one of these holes, characterized in that, in order to improve efficiency by eliminating stagnant areas of the concrete mix in the receiving bin, the discharge pipeline is attached to the thrust bearing bushing on the side opposite to the support bore, a portion of the L-shaped branch pipe communicated with the discharge pipe, is made in the trunnion of the nozzle, the supporting flange of the nozzle and the bearing juice of the sleeve are made conical, while the input of the Fversty of the discharge pipe and the specified portion of the L-shaped channel in the pin e pipe arranged coaxially with the rotation axis of the nozzle.