RU2005195C1 - Hydraulic stowing machine - Google Patents

Abstract

The hydraulic filling device is intended for the construction of gypsum concrete lintels for fighting fires in coal and shale mines. SUBSTANCE: mixing chamber is provided in the lower part with an accumulation cavity having permanent magnets in its bottom part. The wall of the tank on the pump side is located under the mixer. The ejector is connected via a supply tube to a container for the solution of a retarder for setting the mixture. The mixer consists of two impellers mounted on the end of the shaft sequentially one after another so that the blades of one impeller are located relative to the blades of the other with overlap. 1 zlf-ly, 1 ill.

Description

The invention relates to equipment for controlling fires, in particular to devices for erecting explosion-proof lintels and localizing fire in a collapsed mountain range, and relates to devices for preparing and pumping gypsum mortars.

A well-known complex designed for these purposes includes a hopper with a mixer with gypsum water and a pump for supplying solution for the constructed bridge.

A disadvantage of the existing complex is its low reliability due to imperfect construction, which leads to accidents in the complex, exacerbated by additionally quickly setting gypsum, which leads to the installation inoperative

An object of the invention is to provide a device having higher operational reliability.

The goal is achieved in that the mixing chamber is provided in its lower part with an accumulating cavity in which metal and other foreign objects accumulate. To reliably hold ferromagnetic objects, the cavity is equipped with permanent magnets, and to improve mixing of the solution and its separation, the mixer is made of two impellers, mounted on the end of the shaft in series with the overlapping of the blades of one impeller by the blades of the other, with the aim of introducing into the solution of the gypsum setting retardant - tripolyphosphate, the device - filled with an ejector connected by means of a supply tube to a container for the retarder solution.

The drawing shows the design of the device.

The hydraulic filling device consists of a receiving device, which is a stainless steel conical hopper 1, to the upper base of which is attached a rim with a net 2 and a knife 3 for cutting paper bags, and a mixing chamber 4 to the lower one. Water enters through the filter 5 and a pipe 6 fixed by a flange 7. Passing through the pipe, water enters the annular cavity 8, from which its main quantity flows through the figured grooves 9 made on the flange of the pipe 10, and the rest of the water through the cavity 11 and the holes in the sleeve 12. The cavity 12 closed by a stopper 13. The pipe 6 is formed with a constriction, a nozzle is inserted into the ejector 14, conductive supply

0

5

0

5

0

5

0

5

0

5

a nozzle 15 of which is connected by a conduit 16 to a container 17 for a setting retarder solution, the flow rate of which is regulated by valve 18.

The receiving device is connected to the supporting part 19, in which the working part 20 is installed, consisting of a rubber sleeve 21 enclosed in a steel sleeve, and a screw 22, on the cup 23 of which the mixer is installed, consisting of impellers 24 and 25, under which are placed a storage tank 26 with a removable bottom and with permanent magnets 27.28 fixed in its bottom. The container 17 may not be structurally associated with the complex and located at some distance from it, or may not be part of the complex at all if a moderator is not required.

The device operates as follows.

First, water is supplied from the mine water supply network by attaching a sleeve to the pipe 6 to the installation and an electric motor is turned on, which rotates the screw 22 and the upstream mixer of impellers 24 and 25 located on the glass 23. The gypsum mixture from the bags is continuously loaded into the receiving conical hopper 1 pre-discharge; knitted by knife 3, and waking up through heap 2. In the mixing chamber 4, it is mixed with water coming from the figured grooves 9 connected to the annular cavity 8, into which water comes from the pipe 6, and it can be pre-enriched in the necessary 1 percent moderator setting the gypsum mixture with a mixer, consisting of a restriction in the pipe 6, in which the nozzle of the ejector 14 is placed. The amount of retarder coming to the nozzle 14 from the tank 17 through the pipe 16 is regulated by the valve 18. If necessary s in the introduction of moderator is absent, the valve 18 is closed.

The solution formed in the mixing chamber 4 is intensively mixed by the impellers 24 and 25 of the upstream mixer, while foreign inclusions, which before reaching the mixer did not have time to sink into the accumulation cavity 26, are fed to the impeller blades 24 and 25 and are discarded to the walls of the periphery of the mixing chamber or accumulating . 26. IF the foreign inclusion was not thrown into the sidewall 26, but into the sidewall, then it gradually slides along the wall and enters the storage tank 26. If the inclusion is of ferromagnetic origin, then a further retained in the cavity 26 by means of the permanent magnets 27 and 28. The displacement and the separated solution is fed to the screw 22 of the screw pump, which moves it, work together with the rubber holder 21, and then to the mud channel to the place of installation. The storage cavity 26 is horizontally split, i.e. has a removable bottom. This makes it easier and faster to clean the cavity of accumulated solid foreign matter.

 1. HYDRAULIC MORTGAGE DEVICE, including a receiving device with a mixing chamber, a water distribution annular cavity with a connecting pipe, a screw pump with an upstream mixer, a drive motor, pipelines for supplying water to the mixer, control systems, characterized in that, in order to increase reliability, it is equipped with a storage tank with permanent magnets in the bottom and an ejector, connected inclusions, as well as to facilitate cleaning of the mixing chamber in case of setting oic mixture in the mixing chamber 4 after weaning cavity 26 may be applied straight punches through conical hopper part 1 and the back side in the hopper 1.

(56) Temp-2 Complex. Technical description and operating instructions. VUVGSCH of the Ministry of coal industry of the USSR, Research Institute of Mine Rescue Donetsk, 1975, p. 6- 13. 5

by means of a supply tube with a reservoir for the retarder solution and installed in the connecting pipe, while the accumulation tank is installed under the mixing chamber with the container wall located on the pump side under the mixer.

2. The device according to claim 1. characterized in that, in order to improve mixing of the solution and its separation, the mixer is made of two impellers mounted on the shaft end in series with the overlapping of the blades of one impeller by the blades of the other.

5

b /

W / W | W MM

/

G7

g7 gz