RU65630U1 - DRYING COMPLEX - Google Patents

Abstract

The drying complex refers to the field of drying materials or objects, in particular lumber of various humidity, by removing moisture from them, and in particular to devices for this purpose, and can be used in the woodworking or forestry industry. The drying complex contains two drying chambers equipped with a pulsed evacuation system, including a unit from at least one pipe of the upper and lower receivers equipped with a pipe for draining the liquid with the valve, as well as a vacuum pump connected to the pipe with the block. The pipeline connecting the vacuum pump to the receiver unit is connected to the pipe connecting the receivers, and the specified pipe connects the receivers in such a way that its lower end protrudes above the inner surface of the lower receiver. The proposed measures provide an opportunity to reduce the duration of the technological process of drying the material, 2 z.p. f-ly, 1 ill.

Description

The utility model relates to the field of drying materials or objects, in particular lumber of various humidity, by removing moisture from them, and in particular to devices for this purpose, and can be used in the woodworking or forestry industry.

A known drying complex containing two drying chambers equipped with a pulsed vacuum system, including a receiver with a vacuum pump, connected by pipelines to both drying chambers (see RF patent No. 2213309, IPC F26B 9/06, filed on 02.26.02, published 09.27.03) . This drying complex provides a fairly effective removal of moisture from lumber, but does not have sufficient compactness due to the fact that it requires the presence of one receiver of significant dimensions.

A drying complex is also known, containing two drying chambers equipped with a pulsed vacuum system, including a unit from at least one pipe of the upper and lower receivers equipped with a pipe for draining liquid with a valve, as well as a vacuum pump ( see RF patent for utility model No. 48218, IPC F26B 9/06, pending 05.19.05, published 09.27.05).

This technical solution is the closest to the claimed combination of essential features (prototype).

According to the prototype, the complex comprises a block of upper and lower receivers connected to each other by a pipe. This design allows you to make the complex more compact.

At the same time, in the known drying complex, the pipeline connecting the vacuum pump and the receiver unit is connected to the upper

receivers. Such a connection involves the sequential evacuation of the receivers, which increases the duration of the process.

In addition, during the process of evacuating the drying chambers, the vapor-droplet medium forms a layer twisting along the inner surface of the lower receiver and through the pipe connecting the upper and lower receivers, it is possible that this medium can get from the lower receiver to the upper and further into the vacuum pump, which lengthens the removal process moisture from the drying complex.

The objective of this utility model is to create such a drying complex, which would reduce the duration of the drying process of the material.

The problem is solved in that in a drying complex containing two drying chambers equipped with a pulse evacuation system, including a unit from at least one tube of the upper and lower receivers connected to each other with at least one pipe of the upper and lower receivers and also connected with block pipeline vacuum pump, according to the proposed utility model, the pipeline connecting the vacuum pump to the receiver block is connected to the pipe connecting the receivers, and the specified pipe connects the receivers in such a way at the same time that its lower end protrudes above the inner surface of the lower receiver.

Connecting the pipeline connecting the vacuum pump to the receiver unit to the pipe connecting the receivers allows for more uniform and faster evacuation of two receivers at once.

The installation of a pipe connecting the receivers in such a way that its lower end protrudes above the inner surface of the lower receiver, can significantly reduce the amount of vapor-droplet medium from the lower receiver to the upper and further to the vacuum pump.

All the proposed activities make it possible to reduce the duration of the technological process of drying the material.

In the future, the utility model is illustrated by a description of specific options for its implementation and the attached drawing, which schematically depicts a drying complex.

The drying complex contains two drying chambers 1 and 2. Each drying chamber is provided with known means for placing and transporting lumber (not shown), for heating and circulating the air (not shown), and for collecting and draining condensate (not shown).

In addition, the drying chambers 1 and 2 are equipped with the well-known pulsed evacuation system, which includes a block of tubes 3 connected to each other by the upper 4 and lower 5 receivers and a vacuum pump 6.

Drying chambers 1 and 2 are connected to the lower receiver 5 by pipelines 7 and 8 with valves 9 and 10. The sections of pipelines 7 and 8 after valves 9 and 10 enter the upper part of the lower receiver 5 tangentially to the circumference of its section.

The upper 4 and lower 5 receivers are connected to each other by a pipe 3 so that its lower end 11 protrudes above the inner surface of the lower receiver 5. Most effectively, if the end 11 protrudes above the inner surface of the lower receiver 5 by at least one third of its diameter.

The vacuum pump 6 is connected to the pipe 3 by a pipe 12 with a valve 13.

The lower receiver 5 is equipped with a pipe for draining the fluid 14 with the valve 15.

The drying complex operates as follows.

Drying chambers 1 and 2, in accordance with the developed technological process, are loaded with lumber and a known vacuum-pulse drying process is carried out in accordance with the type and initial state of the material.

One of the components of this process is the evacuation of the receiver unit 4 and 5. It is carried out as follows.

In the initial state, the valves 9 and 10 on the pipelines 7 and 8, connecting the drying chamber 1 and 2 with the receiver 5, and the valve 15 are closed. The valve 13 on the pipe 12 is opened, the vacuum pump 6 is turned on, and through the pipe 3 a vacuum is created for the parameters required by the technology in the upper 4 and lower 5 receivers simultaneously in a shorter time. Moreover, due to the fact that the pipe 3 connecting the receivers with its end 11 protrudes above the inner surface of the lower receiver 5, the air is removed from it from the inner zone, and the vapor-droplet medium formed earlier during the evacuation of chambers 1 and 2 is distributed as a layer on the inner surface the lower receiver 5 and the upper receiver 4, as well as further into the pipe 12 and the vacuum pump 6, does not fall and time for its removal is not required. Gradually, a vapor-droplet medium in the form of condensate accumulates in the lower part of the lower receiver 5 and can be removed through a pipe 14 with a valve 15.

Thus, connecting the pipeline connecting the vacuum pump to the receiver unit to the pipe connecting the receivers and installing the pipe connecting the receivers so that its lower end protrudes above the inner surface of the lower receiver makes it possible to shorten the duration of the drying process of the material.

Claims (3)

1. A drying complex comprising two drying chambers equipped with a pulsed evacuation system, including a unit from at least one pipe of the upper and lower receivers equipped with a pipe for draining the liquid with the valve, and also a vacuum pump connected to the pipe by the block, characterized in that the pipeline connecting the vacuum pump to the receiver unit is connected to the pipe connecting the receivers, and the specified pipe connects the receivers so that its lower end protrudes above the inner surface ited the lower receiver. 2. The drying complex according to claim 1, characterized in that the nozzle with a valve for draining the liquid is installed at the lower point of the lower receiver. 3. The drying complex according to claim 1, characterized in that the lower end connecting the receiver of the pipe protrudes above the inner surface of the lower receiver by at least one third of its diameter.