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Patent Searching and Data


Title:
IMPROVED CONCRETE PUMP
Document Type and Number:
WIPO Patent Application WO/2009/059376
Kind Code:
A1
Abstract:
A Concrete Pump is a mechanical device compromising of round funnel shape hoper, Pump outlet, rotating pressure and wear plates, to which are attached rotating pump cylinders, opposite rotating wear plate and press against it is stationary wear plate to which is attached hoper' s outlet and pump's outlet flange. Pump functioning as follow; Concrete from hoper passing through stationary and rotating wear plates into one pump cylinder, in same time concrete from other cylinder (previously field with concrete) is been pushed through rotating wear plate and through stationary wear plate into pump's outlet. When pistons reach the end of cylinders the rotating wear plates and concrete cylinders rotate by 180 degrees and process is repeated again. Pump is designated so as to entire volume of concrete or simular pumping substance is pumped out of the hoper.

Inventors:
JAMBRECINA DRAGO (AU)
Application Number:
PCT/AU2008/001658
Publication Date:
May 14, 2009
Filing Date:
November 10, 2008
Export Citation:
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Assignee:
JAMBRECINA DRAGO (AU)
International Classes:
F04B15/02; B65D88/28; F04B1/02; F04B9/10; F04B49/06; F04B53/16
Domestic Patent References:
WO1991019094A11991-12-12
Foreign References:
US4533300A1985-08-06
US4345883A1982-08-24
GB1249335A1971-10-13
US3999895A1976-12-28
Other References:
See also references of EP 2225462A4
Download PDF:
Claims:
The claims that defining invention are as follows

1. A concrete /sludge/ pump comprising of two major parts assemblies. One is stationary and another rotating assembly. Access gate which is attached to rotating pressure plate's housing by two hinges and two safety laches on opposite site (it could also have four bolts instead of safety laches) have two large holes located centrally on "Y" axis, and next to each other on X axis with some space between.

On inner side of the gate (when gate is closed) is retained stationary pressure plate with stationary wearing plate bolted to it. On the outer side, on one large hole by four bolts is bolted pump's out late. On the other hole is bolted by four bolts ninety degree pipe bend same inner diameter as inside of the pump cylinders. Between pump out late and stationary pressure plate and between ninety degree band and stationary pressure plate is placed polyurethane tube with inner diameter same as of pump cylinders. (Polyurethane tubs or any other flexible tubes that can withstand pressure are necessary to insure that stationary and rotating ware plates are firmly together even when rotating wear plate wobble). Pressure of polyurethane tubes are adjusted by four bolts of pump's outlet and four bolts of hoper's 90 degrees bend The other end of ninety degree pipe bend is facing up and it's inner diameter is same as pump's cylinder and same as bottom opening of pump's hoper.

The hoper is retained on top of the bend by flaxy joint and some additional stabilising device.

Another assembly of parts called rotating assembly

It consist of rotating pressure plate which on one side have bolted rotating were plate, and on other side have bolted pump cylinders and chain sprocket. The other ends of pump cylinders are bolted to exchange box. To other side of exchange box are bolted hydraulic rams, together with pistons position electronic detection system.

On the other end of hydraulic rams is bolted hydraulic live swivel joint which is used to provide hydraulic pressure from electrically controlled stationary hydraulic valve to rotating hydraulic rams.

The whole rotating assembly is supported by three ball bearings. The design of outside circumference of the rotating pressure plate and inner circumference of pressure plate's housing are together forming dual ball bearing (one to bear lode of assembly and other to counter forces of hydraulic ram's pressure). The third ball bearing is of similar design and. size bolted to exchange box and is to bear the lode of the assembly's other end. Bidirectional hydraulic motor is bolted to rotating pressure plate's housing. Motor is positioned so that sprocket on its shaft is in line with sprocket bolted to rotating pressure plate. The chain link two sprockets and motor is able to rotate rotating assembly, forward or revers.

2. A pump as claimed in clime 1.hawe electronically detected when pump's pistons rich final destination. Those signals have bin fed to infrared transmitter. Infrared receiver is placed in receiving area and via cable signal is delivered to control panel. Power to electronics system on rotating area is provided by rechargeable battery Detection of final destination of rotation assembly is also dun electronically, sensors are placed on stationary part of the pump.

3. A pump as claimed in clime 1. have hydraulic power delivered to rotating hydraulic rams via live swivel joint

4. A pump as claimed in clime 1. is easier understood with drawings A to F of the accompanying drawings.

Description:

IMPROVED CONCRETE PUMP

There are many different concrete pumping designed systems. The most common one is two cylinders Piston Pump. Amongst other components, with in existing system, they all have pump cylinders stationed and fastened to the outside back flat wall of the hoper, somewhat above the hoper's floor and aligned inside the hoper thru the same size opening on the hoper forming an alignment inside the hoper with the wear plate, wear ring and swing tube which is situated inside the hoper, thru which concrete is pumped into the pump's outlet, situated on front of pump's hoper.

I've operated a Concrete Pump for several years. That is hard job with lot of responsibility during pumping, as all that equipment has to be cleaned and on hurry as concrete can set hard in short time. It can be also stressful and nerve braking when things are going wrong and they often do. Having more and more cars on the roads and obstacles concrete deliveries are often delayed between trucks and working with concrete is limited to time. I have recognised need for an improved pumping system to overcome some short falls of existing concrete pumping systems.

For example; a) Existing Pumps cannot pump out the entire contents of concrete delivered into the hoper, meaning that every time up on completion of pumping there is a volume of concrete left in the hoper and in the cylinders, usually two wheel barrows and in some cases more. This concrete then has to be removed manually and carried away in buckets or in a wheel barrow, to where it's needed or dispose as wast. The cleaning process usually would take anything between 30 minutes to 3 hours depending on how much concrete is built-up in the hoper, cylinders and pipe line, and what type (strait pumping or shotcreting) and strength of concrete was pumped and also what air temperature was during job. b) For the reasons that existing hoper is of uneven shape and it has a swing tub in it's lower section it is not possible to mix entire volume of concrete either with motorised Auger or tools like shovel which is desperately necessary in times when waiting for next concrete delivery truck, in particular when next delivery is been delayed on an hot day it is necessary to add water to concrete in hoper and mix it up to stop it from been set hard in it and in pipe line as it could result in not be able to resuming pumping when next delivery is delivered and entire pipe line could be lost and not been able to finish the job. c) For inspection, maintenance or replacement of most wearing parts like, wear plate, wear ring and piston caps, piston's oil seals, swing tub, swing tub's bearing and seal which are not easy accessible, would take anything up to 6 hours, due to fact that very often it is necessary to remove other parts to gain access to the part that you have to inspect or replace. d) In many instances it is important for the pump operator to knew what slump of concrete is being delivered into the hoper. More so for specialised pumping like shot creating. At present time no concrete pump known to me is fitted with such measuring devices, no there is such device available for retrofitting.

The problems above are overcome by the present invention. Improved Concrete Pump

DESCRIPTION OF THIS INVENTION

Pump in this invention have two rotating pumping cylinders, (cylinder 'a' and cylinder 'b') and funnel like hoper. "6" In this design pump cylinders are fastened to rotating pressure plate "1" to which on other side is fastened rotating wear plate "2" and together with exchange box and hydraulic cylinders rotating clock and anti clock ways by 180 degrees. Rotating wear plate is pressed and sliding against stationary wear plate, "3" which is fastened to stationary pressure plate. "4" Stationary pressure plate is retained on the access gate "5". One hole of stationary pressure plate (concrete passage way between hoper and concrete pump charging cylinder) is connected to concrete pump hoper "6" on the other side and trough access gate via flexible ruber pipe "9" and via 90 degrees metal pipe bend and via flexible joint. "12". The other hole of stationary pressure plate (concrete passage way between concrete pump discharging cylinder and pump's outlet flange) is connected to the pump's outlet flange "7" on the other side and trough access gate via flexible ruber pipe "10".

Access gate is attached to rotating pressure plate's housing "8"with hinges and safety laches. By realising safety laches, the access gate together with stationary pressure plate, stationary wear plate, Hoper and pump's outlet swings on hinges away from rotating pressure plate's housing as mach as 120 degrees, which is very handy in event of inspection or replacement of wear plates, or piston caps and piston's oil seals.

Hoper is of funnel shape, and concrete slide down to the bottom of the hoper and trough 90 degree is install an removable Auger and inner side is covered by neoprene ruber to provide better sliding of concrete by force of gravity to the bottom of hoper and into pump's cylinders.

Hoper is placed on outer side of access gate and connected to top of ninety degrees pipe bend via flexible joint to allow levelling of the hoper when pump is placed on non level ground.

The neoprene ruber pipes are being vulcanised to metal flanges on each end, and placed between stationary pressure plate and 90 degrees pipe bend and between stationary pressure plate and pump's outlet.

The neoprene ruber pipes have two functions; one is to provide flexible isolation between stationary wear plate and pump's outlet, as well as flexible isolation between stationary wear plate and 90 degrees pipe bend. Another function is to pressure stationary pressure and wear plates against rotating wear plate so to seal and prevent leaking of slurry at time of rotating wear plate is rotating. It is beneficial to provide additional pressure on stationary wear plate only at the time of pumping but not when rotating wear plate is rotating. It will minimize wear of wear plates. This is achieved by four small hydraulic rams.

Rotation of rotating wear plate, rotating pressure plate and pump cylinders is achieved by placement of steel wire rope round rotating cylinder, "11" and

attached to cylinder at half way. Two ends are attached to two hydraulic rams. One hydraulic ram pull the rope and rotate the rotating cylinder in one direction by 180 degrees and than when pistons in pump cylinders rich there destination than other hydraulic ram pull other end of wire rope in other direction and rotate rotating cylinder by 180 degrees in other direction. This sequence is being repeated as long as pump is in action. This rotation can also be achieved with bidirectional hydraulic motor trough gears. In that case, instead of wire rope on rotating cylinder would haw to be a gear or sprocket and chain coupled with bidirectional hydraulic motor. It is beneficial to rotate rotating assembly in same direction all the time instead alternate to counter inertia of rotating assembly and have beneficial use of gravity.

Timing of rotation of rotating cylinder depend precisely on position of the pistons in pump cylinders. For this reason it is necessary to have some sort of tracking devices to track pistons in pump cylinders and start rotation of wear plate and pump cylinders, when piston in pump cylinder reach maximum destination and concrete has been discharged , and in same time other cylinder has being fully charged with concrete from hoper, hydraulic pressure in hydraulic rams which drive pistons in pump cylinder is off. When rotation of pump cylinders by 180 degrees is completed hydraulic pressure to hydraulic rams which drive the pistons in pump cylinders is restored, and concrete is flowing again. This sequence is repeated. In this invention I use system where hall effect transistor detect passing by magnet, whose movement is same as piston in pump cylinder. The signal is than amplified and used for activating solenoids on hydraulic valves.

Pumps sequence is as follow:

When hoper is full of concrete and pump is switched on piston in charging cylinder will start to trowel away from hoper and concrete will flow in cylinder by gravity and suction. When piston is come to the end detection system will switch off piston and will switch on hydraulic motor which will rotate rotating assembly by 180 degrease, meaning that pumps full cylinder mowe to get in line with pumps output, and empty cylinder will become in lien with hoper output. Detection system will switch rotation off and switch pistons on again. Piston on full cylinder will push concrete out of pumps outlet and empty cylinder will become charged with concrete. This process is repeated until pump is switched off..

The benefits of this invention system are multiple.

1) Due to shape and inside contour of hoper, entire volume of concrete delivered in hoper, naturally by force of gravity slide to bottom of hoper and into pump's cylinder. As a result, all of the concrete is being pumped out and there is not dry concrete build up in hoper, during the course of the day's work. Cleaning complete pump, hoper, pistons, cylinders, and pump outlet, could not take more than five minutes .

2) Inspection or replacement of fast wearing parts on this invention is very easy and quick, because of unhindered access and it consist only of four parts. Two wear plates and two piston caps. Time that is needed to replace all four parts is up to thirty minutes. Drawing "A" E" F" show cross section of major parts of invention. Drawings "B", "C" , "D" show maior parts of invention from different angle, (not to scale)