SU952706A1 - Apparatus for pneumatic transport of loose materials - Google Patents

Description

(54) DEVICE FOR PNEUMATIC TRANSPORTATION OF BULK MATERIALS

one

This invention relates to pneumatic conveying and can be used in devices for pneumatic conveying of bulk materials.

A device for pneumatically transporting bulk materials is known, 5 comprising a feed hopper connected by a material line to a technological pressurized container connected by a pipe to a vacuum pump and made of two perpendicularly installed one, Q to another rigidly interconnected cylinders, in the cavity of one of which , coaxially and coaxially with the material line, a cylindrical filter is mounted, the valves installed on the said material lines and the pipeline, and the receiving container 15 1.

However, the device has a number of disadvantages associated with transporting the mixture from the technological pressurized container to the receiving room through vibration, which JQ

deteriorates the operating conditions of the device and, as a result, reduces its performance.

The purpose of the invention is to improve the operating conditions.

This goal is achieved by the fact that the device is equipped with a bellows mounted coaxially with the second cylinder of the process tank and fixed on its first cylinder, the cavity of which is in communication with the qum pump.

FIG. 1 shows the proposed device, a general view; in fig. 2 shows section A-A in FIG. one.

The device contains a hopper 1, which is an inverted truncated cone, to the small base of which are attached the pneumatic cylinder 2 of the shut-off valve 3 and the upper flange of the material line 4, made in the form of a hollow cylinder, the lower part of which has a saddle under the shut-off valve 3.

The technological hermetic vessel is formed by cavities 5 and 6 of two cylinders rigidly interconnected with mutually perpendicular axes. A cylindrical filter 7 is installed coaxially in the cavity 5 of the first cylinder of the process airtight container. The process airtight container is attached to the lower flange of the material line 4 so that the filter 7 is installed coaxially with the material line 4. A bellows 8 is installed on the side surface of the technology tank rigidly connected to the rod of the pneumatic cylinder 9. The cavity 5 of the first cylinder of the process tank is connected by a pipeline 10 having a valve 11 with a vacuum pump 12. Reception on the tank 13 is equipped with a pneumatic clamp 14.

The device works as follows.

The neck of the receiving container 13 is inserted into the opening of the pneumatic clamp 14, the diaphragm of which compresses the neck under the action of compressed air and creates a tight connection. The bellows 8 is compressed by the action of the pneumatic cylinder 9, the shut-off valve 3 is closed, the valve 11 is opened and the vacuum pump 12 through the pipeline 10 creates the necessary vacuum in the hermetic process tank 13.

The degree of vacuum and the volume of the technological hermetic vessel, adjustable with the help of the bellows 8, can be used to regulate the weight of the portion of the mixture supplied for one set of vacuum. Then the valve 11 is closed, the shut-off valve 3 is opened and simultaneously with the opening of the shut-off valve 3 the bellows 8 is opened by means of a pneumatic cylinder 9 and the receiving tank 13 is filled with the mixture. When the mixture is sucked in, the latter does not enter the pressurized technological container, since the central filter 7 prevents this. The suction mixture does not swirl due to the fact that the volume through which the mixture passes through the technological hermetic vessel is limited by a cylindrical filter 7 and flows continuously into the receiving vessel 13 in laminar mode, where it is evenly distributed and compacted under vacuum. throughout the volume. Seal under vacuum eliminates stratification of the mixture. Then the pneumatic cylinder 2 closes the shut-off valve 3, and the pneumatic cylinder 9 compresses the bellows 8, as a result of which an overpressure is created in the technological pressurized container and a cylindrical filter 7 is blown out.

Since the mixture enters the technological hermetic container, there is no need to transport the mixture from the technological sealed container to the receiving container 13 by means of vibration or in any other way, which contributes to the improvement of the CONDITIONS of operation of the device.

The use of the device will eliminate the possibility of stratification of the mixture, distribute the mixture over the volume of the loaded container with the same density, load the containers with bulk materials with a filling ratio close to unity, reduce the filling time of one receiving tank by 0.017 n / h.

The annual economic effect of using the device will be 5100 rubles.

Claims (1)

Invention Formula A device for the pneumatic transportation of bulk materials, containing a loading hopper, a material pipe connected to a technological hermetic vessel connected by a pipeline to a vacuum pump and made of two cylinders fixed perpendicularly to each other, coaxially coaxially and coaxially with each other the material line is fitted with a cylindrical filter, closures installed on the said material line and the pipeline, and a receiving tank characterized by m that, in order to improve the operating conditions, it is equipped with a bellows mounted coaxially with the second cylinder of the process tank and fixed on its first cylinder, the cavity of which is connected to the vacuum pump. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 719950, cl. B 65 G 53/40, 1975. .L