RU148004U1 - HORIZONTAL COLLECTOR (OPTIONS) - Google Patents

Abstract

1. The horizontal manifold, consisting of a housing having a lower and upper cavity connected by a passage with a shutter, the lower cavity has inlet pipes for connecting the suction pipe branches and a flange for connecting the transport pipe, the upper cavity is equipped with a flange for connecting the compensation pipe, characterized in that the passage is located above the inlet pipes in the area of the entrance of flows from the suction pipe branches into the lower cavity, while the area of the passage is selected from ovia: where S is the area of the passage; S is the area of the opening of the inlet pipe; n is the number of inlet pipes, the valve is installed horizontally with the possibility of partial or complete blocking of the passage. 2. A horizontal manifold consisting of a housing having a lower and upper cavity connected by a passage with a shutter, the lower cavity has inlet pipes for connecting the suction pipe branches and a flange for connecting the transport pipe, the upper cavity is equipped with a flange for connecting the compensation pipe, characterized in that it is equipped with an additional a flap installed in front of the flange for connecting the compensation pipe, the passage is located above the inlet pipes in the and flows from the suction pipe branches into the lower cavity, the passage area is selected from the condition :, gdeS- passage area; S- inlet orifice area; n - number of inlets, pass valve is installed horizontally with the possibility of partial or complete overlap passageway.

Description

The utility model relates to the field of aspiration, pneumatic conveying and is designed to combine suction pipe branches, ensuring the equality of pressure drops in them, through which dense pulverized or lumpy material is transported by air, and can be used in various industries, for example, in the woodworking industry.

A known aerodynamic separator (USSR Author's Certificate No. 1590106, MPK B01D 46/00, 45/04, 1990), having a body, inlet pipes for connecting suction pipe branches, and two more pipes, one of which is connected to the transport pipe for output a mixture of air and dense particles, and the other can be used to connect a compensation pipe in order to maintain the necessary flow rate in the transport pipe while reducing the number of inlet pipes used.

The disadvantage of this aerodynamic separator is excessive pressure (energy) losses due to the need for air to pass through the filter surface, and in the absence of filter elements, large particles can settle to the bottom of the collector body, because in it, the air velocity is insufficient to move dense particles.

Known horizontal collector-separator (VL Larionov, VP Sozinov "Regulated suction systems in the woodworking industry." - M .: Light industry, 1989. - 240., p. 99 Fig. 42), consisting of a housing divided by a partition into the lower and upper cavities, the lower cavity has inlet pipes for connecting the suction pipe branches and a flange for connecting the transport pipeline, the upper cavity is equipped with a flange for connecting the compensation pipe for air to enter the upper lethargy and through the passage into the lower cavity in which the cantilever mounted flap, mounted on the shaft.

The disadvantage of this collector-separator is that when all suction pipe branches are used, the shutter closes the passage and due to the increase in free space above the incoming flows, a stagnant zone (vortex formation zone) is formed. The ego causes an unnecessary increase in pressure loss.

Known horizontal collector-separator (VL Larionov, VP Sozinov "Regulated aspiration systems in the woodworking industry." - M .: Light industry, 1989. - 240., p. 99 Fig. 43) adopted as a prototype, consisting of a housing divided by a partition into lower and upper cavities, the lower cavity has inlet pipes for connecting the suction pipe branches and a flange for connecting the transport pipeline, the upper cavity is equipped with a flange for connecting the compensation pipeline for I air into the upper cavity and through the passage into the lower cavity, in which a cantilever damper is installed, mounted on a shaft located at the front wall of the collector.

The disadvantage of this collector-separator is that when using part of the suction pipe branches or, moreover, only one suction pipe branch, the material transported by the air, especially in the form of large, lumpy particles, entering the lower cavity of the collector can settle to the bottom due to removal of the confluence zone of streams from the entrance to this cavity. In addition, the flap in this case, expanding the passage may become an obstacle to the flow from the working suction pipe branch, which will reduce its productivity and operating efficiency, and large transported material, leaving it, will hit the flap and be at the bottom of the collector in a stationary state.

The technical result of the proposed technical solution is to increase the reliability of the collector and to reduce pressure loss.

, гдеThe technical result is achieved in that a horizontal manifold consisting of a housing having lower and upper cavities connected by a passage with a shutter, the lower cavity has inlet pipes for connecting the suction pipe branches and a flange for connecting the transport pipeline, the upper cavity is equipped with a flange for connecting the compensation pipeline, the passage is located above the inlet pipes in the area of the entrance of flows from the suction pipe branches into the lower cavity, while the the course is selected from the condition:

where

S _p - the area of the passage,

S _holes - opening area of the inlet pipe,

n is the number of inlet pipes,

the shutter is installed horizontally with the possibility of partial or complete blocking of the passage.

, гдеThe technical result is achieved in that a horizontal manifold consisting of a housing having lower and upper cavities connected by a passage with a shutter, the lower cavity has inlet pipes for connecting the suction pipe branches and a flange for connecting the transport pipeline, the upper cavity is equipped with a flange for connecting the compensation pipeline, equipped with an additional flap installed in front of the flange for connecting the compensation pipe, the passage is located above the inlet pipes in the zone of entry of flows from the suction pipeline branches into the lower cavity, while the passage area is chosen from the condition:

where

S _p - the area of the passage,

S _holes - opening area of the inlet pipe,

n is the number of inlet pipes,

the passage damper is installed horizontally with the possibility of partial or complete overlap of the passage.

In FIG. 1 shows a horizontal collector according to the first embodiment. In FIG. 2 shows a horizontal collector according to a second embodiment.

The horizontal collector (Fig. 1) consists of a housing 1 having a lower cavity 2 and an upper cavity 3 connected by a passage with a shutter 4 mounted horizontally with the possibility of partial or complete closure of the passage. The lower cavity 2 has inlet pipes 5 for connecting the suction pipe branches and a flange 6 for connecting the transport pipeline. The upper cavity 3 is provided with a flange 7 for connecting the compensation pipe. The passage between the lower cavity 2 and the upper cavity 3 is located directly above the inlet pipes 5, above the zone of entry of the air flow with the transported material into the lower cavity 2. In the upper cavity 3, a shutter 4 is installed on its lower horizontal generatrix on the side of the compensation pipe connection with the possibility of horizontal movement and partial or complete closure of the passage. The degree of overlap of the passage with the shutter 4 depends on the number of used inlet pipes 5. When using all inlet 5, the passage is completely blocked by the shutter 4. When using only one inlet 5, the passage is completely open. The damper 4 is moved in a horizontal plane above the inlet pipes 5, changing the passage area from a value equal to the total area of the holes of the inlet pipes minus the area of one of them, to zero, ensuring optimal and reliable operation of the collector.

The collector works as follows.

Air with the transported material (dense particles) through the inlet pipes 5 enters the lower cavity 2 and from it is directed towards the flange 6 into the transport pipeline. If all the inlet pipes 5 are used, then the shutter 4 blocks the passage from the lower cavity 2 to the upper cavity 3. In this case, the air velocity in the lower cavity 2 is sufficient to transport dense particles. When a part of the inlet pipes 5 is used, the shutter 4 partially closes the passage, moving towards the inlet pipes 5, and the air flows through the compensation pipe through the upper cavity 3 and the passage enters the lower cavity 2 in the required quantity, namely, into the inlet stream from the inlet nozzles 5, and the air velocity in the lower cavity 2 becomes sufficient to transport dense particles. The collector's operability is maintained even when only one inlet pipe 5 is used, when the passage is fully open, since its area is sufficient to allow the missing air to flow from the inlet pipes 5 into the lower cavity 2.

In the second embodiment (Fig. 2), the horizontal manifold is equipped with an additional shutter 8 installed in front of the flange 7 to connect the compensation pipe, which reduces the pressure loss in the manifold. The indicated effect is achieved as follows. By reducing the number of inlet pipes used 5, while simultaneously adjusting the position of the shutter 4 and the additional shutter 8, they ensure that the pressure difference in the compensation pipe is equal with the required air flow in it and the suction pipe branches. In this case, the air velocity in the passage approaches but is close to the velocity of the air leaving the inlet pipes 5 into the cavity 2, which ensures a decrease in pressure loss during flow merging. Thus, the design of the horizontal collector not only increases the reliability of its operation, but also helps to reduce the pressure loss in it.

Claims (2)

1. The horizontal manifold, consisting of a housing having a lower and upper cavity connected by a passage with a shutter, the lower cavity has inlet pipes for connecting the suction pipe branches and a flange for connecting the transport pipe, the upper cavity is equipped with a flange for connecting the compensation pipe, characterized in that the passage is located above the inlet pipes in the area of the entrance of flows from the suction pipe branches into the lower cavity, while the area of the passage is selected from ovia:

where S _p - the area of the passage; S _holes - opening area of the inlet pipe; n is the number of inlet pipes, the shutter is installed horizontally with the possibility of partial or complete closure of the passage. 2. A horizontal manifold consisting of a housing having a lower and upper cavity connected by a passage with a shutter, the lower cavity has inlet pipes for connecting the suction pipe branches and a flange for connecting the transport pipe, the upper cavity is equipped with a flange for connecting the compensation pipe, characterized in that equipped with an additional flap installed in front of the flange for connecting the compensation pipe, the passage is located above the inlet pipes in the zone in the course of flows from the suction pipeline branches into the lower cavity, while the passage area is chosen from the condition:

where S _p - the area of the passage; S _holes - opening area of the inlet pipe; n is the number of inlet pipes, the passage damper is installed horizontally with the possibility of partial or complete passage overlap.

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