SE0950360A1 - Method, device, drying chamber and drying plant - Google Patents

Abstract

This invention relates to a method for determining the moisture content of wood (2) that is dried comprising introduction and placement of the wood in a chamber (3), introduction of hot flowing air into the chamber (3) and further around and past the wood (2) and transport of the moist air, and thus also transport of the water that has departed from the wood (2), out of the chamber (3). The method is characterized by sending a pulse through the timber (2), from one side of the timber (2) to the other, receiving the pulse when it has passed the timber (2), measuring the travel time of the pulse from transmission to reception and calculating the timber moisture content in relation to the movement time where long pulse movement time is related to high moisture content in the wood and short pulse movement time is related to low moisture content in the wood. The invention also relates to a device (1), a drying chamber (3) and a drying plant (8). (See Fig . 1.)

Description

Description of exemplary embodiments of the invention First a method and a device 1 for determining the moisture content of wood 2 which is dried in the device 1, then a chamber 3 and a drying plant 8 are described.

A method according to this invention is developed for determining the moisture content of wood 2 which is dried. The moisture content is determined during the drying process itself.

The method comprises the introduction and placement of the wood 2 in a chamber 3, in a space in which the wood 2 is to be stored during drying. The timber 2 is usually stacked before transport into the chamber 3, or in the chamber 3. The timber 2 is stacked in layers, with supported units between the layers, usually bedding, and with a certain distance between each plank in a layer.

In order for the timber 2 to be able to be dried, hot flowing air A is introduced into the chamber and further around and past the timber 2, through the timber stack, the timber package. When the hot air A heats the wood, an evaporation of the water in, and an escape of the water from, the wood to the surrounding air.

The air, the moist and somewhat cooler air B, and thus also the water that has left the wood, is continuously transported out of the chamber 3. The water-filled air B is dried and heated and reintroduced into the chamber 3.

In order to be able to determine the moisture content, the method comprises a transmission, a transmission, of a pulse through the wood 2, from one side of the wood 2 to the other. On the other side of the timber 2, the pulse is received when it has passed the timber 2.

The method further comprises measuring and recording the travel time of the pulse from transmission to reception, the travel time of the pulse through the timber stack.

This is followed by a calculation of the moisture content of the wood in relation to the transfer time, where long pulse transfer time is related to high moisture content in the wood and short pulse transfer time is related to low moisture content in the wood.

The method further comprises repeatedly sending and receiving a new pulse after a certain time and measuring the pre-flow time of, of, each transmitted pulse. 10 15 20 25 30 35 3 The determined time is selected so that the previous pulse has passed the wood and is received before the next pulse is transmitted. Electrical energy is used in the pulse. The pulse includes a number of wavelengths that move at different speeds. If a new pulse is transmitted too fast on the previous pulse, the reception, measurement and registration of the later pulse will include noise from the previous pulse. In order not to transmit a pulse too fast so that certain frequencies go into each other, there must be a fixed time delay between each pulse transmission.

The determination of the time delay presupposes that the frequency spread of the pulse, frequency content, is known or that initial measurements of the time for pulse decay are made. Initiation to transmit a new pulse is thus related to the previously received pulse. When the previously received pulse has reached a specific level, a threshold value, a new pulse transmission is allowed.

The method also includes measuring the time change between the different pulse displacement times and calculating the moisture content change of the material in relation to the time change. Large time change indicates large moisture content change, and thus rapid drying, large water loss from the wood. Small change in time indicates small moisture content change and thus slow drying, small water departure from the wood. This also means that the number of pulses during a certain period of time will be proportional to the moisture ratio in the wood.

The invention also relates to a device 1 which makes it possible to determine the moisture content of wood 2 which is dried. The method according to the invention can be used when using this device 1.

The device 1 is placed in a chamber 3 where hot air by means of fan system 4 is caused to flow and is introduced into the chamber 3 via an insertion system 4.1 and further around and past the wood 2, through the wood stack. The wood 2 is dried by the hot air that passes the wood 2, where water in the wood evaporates, and where the circulating air carries the water out of the chamber 3. The moist air and thus also the water that has escaped from the wood 2 is transported out of the chamber 3 via an export system 4.2. The chamber 3 can be a batch drying chamber or a channel drying chamber.

The device 1 comprises a transmitter 1.1 which transmits a pulse through the wood, from one side of the wood 2 to the other. The device 1 also comprises a receiver 1.2 which receives the pulse which has passed the wood 2 and also a device 1.3 which measures and registers the time of movement of the pulse from the transmitter to the receiver and a device 1.4 which calculates and registers the moisture content based on the measured travel time. 10 15 20 25 30 35 4 In case a duct dryer is used, the anchor 1 should include fl your transmitters 1.1 and receivers 1.2 arranged along the inside of the duct dryer on each side of the wood 2 so that pulses can be sent through the wood pile in several places in the chamber and follow the wood pile throughout its time in the chamber 3. In a duct dryer, a timber stack is fed into the chamber and then moved inside the chamber from inlet to outlet. When the first stack has been moved a bit, another stack of wood can be taken into the chamber as the wood in a duct dryer is moved through the chamber, which is elongated. Several piles of wood are thus dried simultaneously and continuously in the same chamber.

The device also comprises a device 1.5 which initiates repeated transmission of new pulse after a certain time.

The device further comprises a device 1.6 which measures and registers the change in travel time between two transmitted pulses and a device 1.7 which calculates the change in moisture content on the basis of the change in the transfer time.

The device 1 comprises both a transmitter and a receiver arranged, located, on two opposite sides of the timber, at each side of the timber, the timber stack. The transmitter 1.1 and the receiver 1.2 are arranged in a unit 5. Each transmitter-receiver unit 5 on each side of the timber stack is connected to an antenna 6 and is connected to a reporting system 6.

The use of an antenna makes it possible to dispense with the coaxial cable previously used to pass the information on drying and dryness from the measuring point to the reporting system.

The device comprises, in case a duct dryer is used, a device 1.8 which coordinates the movement time of the timber stacks and the transmission of a pulse, keeps track of the transmission of a pulse and the pulse reception and compiles the information collected to the correct timber stack for the various timber stacks.

The transmitter-receiver unit 5 and / or the reporting system 6 suitably comprise the devices 1.3-1.8 mentioned earlier, but these can also constitute stand-alone units in some suitable way.

The invention also relates to a drying chamber 3 in which it is possible to determine the moisture content of wood 2 which is dried comprising a device 1 as above. As stated earlier, the chamber 3 can be of the batch dryer or duct dryer type. The drying chamber 3 may comprise a plurality of devices 1, transmitter 1.1 and receiver 1.2, transmitter-receiver units 5, arranged on each side of the wood 2 to provide information from desired areas / portions of the wood 2 in the chamber 3.

The invention also relates to a drying plant 8, drying system, drying device, in which it is possible to determine the moisture content of wood 2 to be dried, comprising a drying chamber 3 according to the invention which in turn comprises a device 1 according to the invention. By drying plant 8 is meant the entire plant which is created for drying the wood in which the method according to the invention can be used and where there is a device according to the invention included in a chamber.

An important parameter for this invention is that during drying one is interested in the moisture content of the wood and the change in the moisture content of the wood over time, over the time the drying is taking place.

Claims (14)

10 15 20 25 30 35 6 Patent claims Method for determining the moisture content of wood (2) to be dried, comprising introducing and placing the wood in a chamber (3), introducing hot flowing air into the chamber (3) and further around and past the wood (2) and transporting out the moist air, and thus also the transport of the water that has left the wood (2), out of the chamber (3), characterized by transmitting a pulse through the wood (2), from one side of the wood (2) to the other, receiving of the pulse when it has passed the wood (2), measuring the movement time of the pulse from transmission to reception and calculating the moisture content of the wood in relation to the movement time where long pulse movement time is related to high moisture content in the wood and short pulse movement time is related to low moisture content. The method of claim 1 comprising repeatedly transmitting and receiving a new pulse after a certain time and measuring the travel time of each transmitted pulse. Method according to claim 2, wherein the determined time is selected so that the previous pulse has passed the wood and received before the next pulse is transmitted. A method according to any one of claims 2 and 3 comprising measuring time change of the different pulse displacement times and calculating the moisture content change of the wood in relation to the time change, where large time change indicates large moisture content change, rapid drying, water departure from the material, and where small small change in time change , slow drying, small water escape from the material. Device (1) which makes it possible to determine the moisture content of timber (2) which is dried and which is for this purpose placed in a chamber (3), where hot flowing air is introduced into the chamber (3) and further around and past the timber (2). ), where the wood (2) is dried by the hot air passing the wood (2), where water in the wood (2) evaporates, and where the circulating air carries the water out of the chamber (3) and where the moist air and thus also the water departing from the timber (2) is transported out of the chamber (3) characterized by a transmitter (1.1) which transmits a pulse through the timber (2), from one side of the timber (2) to the other, a receiver (1.2) receiving the pulse which has passed the wood (2), a device (1 .3) measuring and recording the time of movement of the pulse from the transmitter (1 .1) to the receiver (1.2) and a device (1. 1 .4) which calculates and registers the moisture content based on the movement time. Device (1) according to claim 5, comprising a device (1.5) which initiates repeated transmission of a new pulse after a certain time. Device (1) according to claim 6, comprising a device (1.6) which measures and registers the change in travel time and a device (1.7) which calculates the moisture content change on the basis of the change in travel time. Device (1) according to any one of claims 5-7 comprising both a transmitter (1.1) and a receiver (1.2) arranged in a unit (5) and where two units (5) are arranged on each side of the timber (2) . Device (1) according to claim 8, wherein the transmitter-receiver unit (5) is connected to an antenna (6). Device (1) according to claim 8 or 9, wherein the transmitter-receiver unit (5) is connected to a reporting system (7). Device (1) according to any one of claims 5-10, wherein electrical energy is used in the pulse. Drying chamber (3) in which it is possible to determine the moisture content of wood (2) which is dried comprising a device (1) according to any one of claims 5-11. Drying plant (8) in which it is possible to determine the moisture content of wood (2) which is dried comprising a device according to any one of claims 5-11. Drying plant (8) in which it is possible to determine the moisture content of wood (2) which is dried comprising a drying chamber (3) according to claim 12.