RU2371308C1 - Pool with cover and method of wood tempering - Google Patents

Abstract

FIELD: woodworking industry.

SUBSTANCE: invention relates to woodworking industry for manufacturing of peeled veneer and, particularly to equipment for wood tempering in manufacturing of veneer and match. Pool for wood temper, includes steam-curing chamber with removable cover, supply pipelines of warmed water and its bleeding. On longitudinal walls of pool there are implemented traps with locks in fours for each cover, and supply pipelines of warmed water and its bleeding are located in opposite angles of pool bias and covered by enclosure. Removable cover in the form of metal plate of square form, consisting of frame, includes crossbeams and crossbars, covered from above by flitch plate. Bottom crossbeams are located at the bottom of parallel crossbeam and are located inside the pool crosswise the treated beams, forming located in parallel projections, and bottom crossbeams form end projections for installation and fixation in traps of pool. Bottom crossbeams from above are outfitted by vertical and inclined poles, forming enclosure with two parallel top crossbeams, which are connected at center by top crossbeam. Method of wood tempering includes filling by wood of steam-curing chamber, installation of removable cover on opening of pool and feeding into pool of water of required temperature with keep during the tempering of particular level of water, which is kept by feeding into pool of water of required temperature and breeding of it from the pool. Temperature and direction of warming are defined by tabular data, and after tempering it is stopped feeding of water into pool, it is lifted removable cover and there are extracted treated logs. After installation of removable cover it is fixed to the pool and then it is implemented feeding into pool of water of required temperature into one of corners of steam-curing chamber from below up to level of bottom crossbeams of cover, forming bottom plane of removable cover, and water withdrawal is implemented from the opposite corner of pool, located bias. After wood tempering and stopping of water feeding into pool it is implemented water withdrawal from pool up to level of guaranteed pressure relief of treated charged logs from crossbeams of removable cover, after what it is implemented it lifting for extraction of treated logs.

EFFECT: reduction of are, lifted for process of wood tempering at rising of performance attributes of pool, particularly usage of all volume of pool at guaranteed sinkage, and also simplification and improvement of service.

3 cl, 8 dwg

Description

The invention relates to the woodworking industry for the production of peeled veneers and, in particular, to equipment for hydrothermal processing of wood in the production of plywood and matches.

A well-known pool for hydrothermal processing of wood, containing a bed, a tank with a lid and guides, nodes of loading and unloading, a mechanism for moving timber with a traction body and pushers and a drive. In this case, the moving mechanism is equipped with mounted above the main additional guides, the pushers are equipped with devices for their installation in the form of the upper ends of the counterweights pivotally mounted on them, which are made in the form of trolleys with rollers, and safety fingers are mounted on the trolleys on the side of the pushers, and the rollers are mounted trolleys are placed on additional guides, trolleys are fixed on the traction body, and the drive is made reciprocating. See the description of the copyright certificate SU No. 1390027 dated 06/03/86. Publ. 04/23/88. Bull. No. 15. When hydrothermal processing of wood in such a pool, the pool should have a significant length, because processing of logs is carried out in one layer and part of the pool is not closed. In addition, the mechanisms operating under the cover quickly fail due to contact with water and the vapor being enveloped.

Known adopted for the prototype, a pool for hydrothermal processing of wood, including a steaming tank with a removable lid, pipelines of water and steam, a loading container with a fence in the form of a frame with a mesh. Sliders are mounted on the side walls of the fence, and magnets are located on its upper plane. The steaming tank is made with vertical guides mounted on its longitudinal walls, in the upper part of which there are limiters and spring-loaded stops. In this case, the sliders are placed in vertical guides, and the magnets are in contact with the base of the loading container. Supports are mounted at the bottom of the steaming tank, and an overflow hole is made on its right longitudinal wall. See the description of the copyright certificate SU No. 1247285 of 02.25.85. Publ. 07/30/85. Bull. No. 15. This pool allows hydrothermal processing of wood of several layers of logs, but the use of the volume of the steaming tank is also insignificant due to the large number of structural elements located inside the steaming tank to hold the wood in water.

Known removable pool cover for hydrothermal processing of wood, which is a reinforced concrete slab with overall dimensions exceeding the internal dimensions of the steaming tank. From below, a reinforced concrete slab is surrounded by a metal corner around the perimeter, to which a metal strip is welded around the perimeter with the formation of a protrusion cover from below. On top of the cover are four eyebolts for installing it on the pool. To do this, a rectangular recess is made on top of the inner perimeter of the pool, inside which two corners are installed so that a groove is formed between them along the perimeter, into which the lid protrusion is installed when the pool is closed. See Shubin G.S. "Design of plants for hydrothermal processing of wood": A textbook for universities. - M.: “Forest industry”, 1983, p. 70, Fig. 4.2.3, node A. When loading pools with water, the wood floats, and it is necessary to exert considerable effort so that the upper logs are completely immersed in water. For this, massive reinforced concrete slabs are used, the lifting of which consumes significant energy. Because of this, the depth of such pools is not more than 2.6 meters, and they are not completely filled with logs. The upper logs will not be completely guaranteed to be immersed in water and thus will not undergo a complete hydrothermal treatment, which will affect the quality of the veneer. Almost 20% of the volume of the steaming tank is not involved in the hydrothermal treatment process. In addition, it is necessary that the protrusion of the lid along the perimeter falls into the space between two corners located along the perimeter of the pool, which is difficult to implement, especially when logs bulging out of the water. To lift the lid you need a specialist of a certain qualification.

Known adopted for the prototype, a removable pool cover for hydrothermal processing of wood, which is a prefabricated metal plate with overall dimensions exceeding the internal dimensions of the tank. The plate is a frame reinforced in the horizontal plane with cross-pieces and crossbars from a metal profile, closed from above with a metal sheet. A metal profile is installed on the bottom of the plate around the perimeter in the form of a channel placed on a shelf, forming a protrusion of the lid from the bottom. On the day of its installation on the pool, from the top of the pool, channels are laid with the outer edge of the wall down, and upward with shelves to form a gutter around the perimeter, into which the lid protrusion is installed when the pool is closed. See the description of the copyright certificate SU No. 1247285 of 02.25.85, FIG. 1. Publ. 07/30/85. Bull. No. 15. When loading wood with water pools and such a lid, the wood pops up, and considerable effort must be applied so that the upper logs are completely immersed in water. In this case, a loading container with a guard in the form of a frame with a mesh is used for this. At the same time, supports are mounted on the bottom of the steaming tank, to which magnets are drawn in contact with the base of the loading container. And so that the loading container with wood does not float and does not lift the lid, an overflow hole is made on its right longitudinal wall. Although in this case the top logs are completely guaranteed to be immersed in water and undergo complete hydrothermal treatment, the complexity of the design, the double lifting of the lid first, and then the container with logs, and even with the container detached from the base, require additional significant energy costs and double the work of the lifting mechanism. Reliability of metal structures working in hot and aggressive water, especially spring-loaded stops, is ensured by preventive maintenance, which reduces the productivity of such a pool and increases the overall cost of the final product. In addition, it is necessary that the protrusion of the lid along the perimeter falls into the space between the two shelves of the channel located along the perimeter of the pool. Although the depth of such pools can be more than 2.6 meters, however, more than 40% of the volume of such a pool is used irrationally from below because of the base with supports and above because of the overflow hole. This leads to the fact that water is not used repeatedly for hydrothermal treatment purposes, located under the container, for the heating of which additional energy is required.

A known method of hydrothermal processing of wood in a pool of three sections, placed on an open platform, in which each section is loaded with a clamshell gantry crane moving along crane rails. At the same time, loading of each section with a grab grab of the gantry crane is carried out sequentially from the first to the last compartment into which each section is divided along the long side. Before starting hydrothermal treatment, steam is supplied through pipes with holes in each compartment filled with water. Then each compartment filled with wood is closed with removable covers, which play the role of anti-floating devices and reduce heat loss. The processing time is set in relation to the largest diameter wood based on the need to obtain a temperature of about 35 ° C on a pencil circumference = 8 cm. For birch ridges with a diameter of, for example, 30 cm at their initial temperature of 25 ° C, it is about 30 hours at a water temperature in the pool of 40 ° C. Then the first loaded section is sequentially unloaded, for which the lid is removed from the first loaded compartment, and with the clamshell-gantry crane grab it is freed from treated wood and filled with a new portion of untreated wood. Then, the lid is removed from the second loaded compartment of the first section and it closes the first, secondly loaded compartment of the first section. Then, the second compartment is freed from the treated wood by grabbing the gantry crane and filled with a new portion of raw wood, etc. With this method of hydrothermal processing of wood, the duration of loading and unloading of each compartment is one hour and allows for a uniform supply of treated wood to the peeling shop for one machine for all 24 hours. In this case, it is strictly forbidden to stand on the lids located on the opening of the pool. See Sergovsky P.S., Rasev A.I. "Hydrothermal processing and conservation of wood": Textbook for universities. - 4th ed., Revised. and add. - M.: "Forest industry", 1987, pp. 61-63. With this hydrothermal treatment of wood, a large number of sections in the pool are necessary. The pool itself must be of considerable length. More than 20% of the volume of each section of such a pool is used irrationally due to the inability to ensure the warming of the entire volume of wood under hydrothermal treatment. Raising and lowering a large number of covers makes the process unproductive and inefficient. However, there is no guaranteed flooding of the upper layer of wood.

A known, adopted as a prototype, a method of hydrothermal processing of wood in a pool, comprising filling a container with wood and installing it with a lifting mechanism on a guard that is magnetically fixed to the container base, immersion under the influence of a loaded container with a guard on supports installed on the bottom of a pool partially filled with water installation of a removable cover on the opening of the pool and the supply of water and steam to the pool, which means the beginning of hydrothermal treatment. During hydrothermal treatment, the water level is regulated by the water supply system and the overflow hole, and its temperature is regulated by the steam supply. The temperature and duration of heating are determined by tabular data, which includes: wood species and its thickness, air temperature, season, delivery method, selected hydrothermal treatment mode. After hydrothermal treatment, the lid is removed and the loaded container is removed from the pool. In this case, the extraction of the loaded container is carried out by its lifting together with the fence, which moves up along the guides to the limiters. With the help of limiters, the base of the container is released from the fence, which is picked up by spring-loaded stops on which it rests until the next loaded container is installed on it. Then the cycle repeats. See the description of the copyright certificate SU No. 1247285 of 02.25.85, publ. 07/30/85. Bull. No. 15. This method provides guaranteed flooding of the upper layer of wood, but more than 40% of the volume of such a pool is used irrationally due to the large number of metal structures inside the steaming tank to ensure guaranteed flooding of the upper layer.

The objective of the group of inventions is to create a pool design of the type in which the hydrothermal treatment of wood is efficient and has the largest load of the treated wood with fewer metal structures that are in direct contact with the processing agent, in particular with water.

The technical result of the group of inventions is to reduce the area occupied by the hydrothermal treatment of wood while increasing the operational properties of the pool, namely, with a deeper pool to use its entire volume with guaranteed warming, as well as to simplify and improve maintenance. Which ultimately affects the reduction in the cost of the final product.

This goal is achieved by the fact that the pool for hydrothermal processing of wood, including a steaming tank with a removable cover, pipelines for supplying heated water and its selection, has traps with locks on its longitudinal walls four for each cover, and pipelines for supplying heated water and its selection are located in opposite corners of the pool diagonally and covered with a fence.

This goal is achieved by the fact that in a removable lid in the form of a rectangular metal plate, consisting of a frame including lower rails and crossbars, coated on top with a metal sheet, according to the invention the lower crossbars are located below the parallel crossbars and are located inside the pool across the processed logs, forming parallel protrusions, and the lower rungs form the end protrusions for installation and fixation in the traps of the pool, while the lower rungs are equipped with a vertical top tilt and tilt racks, forming a fence together with two parallel upper rungs, which are connected in the center by the upper cross member.

The circuit is achieved in that in the method of hydrothermal processing of wood, including filling a steaming tank with wood, installing a removable cover on the opening of the pool and supplying the required temperature to the pool with maintaining a certain level of water during hydrothermal treatment, which is supported by supplying the required temperature to the pool and its selection from the pool, while the temperature and duration of heating are determined by tabular data, and after hydrothermal treatment t feed water into the pool, lift the removable lid and remove the processed logs, according to the invention, after installing the removable lid, attach it to the pool and then feed the required temperature into the pool of water at one of the corners of the steaming tank from below to the level of the lower cross members of the lid, forming the lower plane of the removable lids, and the selection is carried out from the opposite corner of the pool, located diagonally, while after hydrothermal treatment of wood and shut off the water supply to the pool, water is sampled from the basin to the level of guaranteed loaded pressure relief treated timber with removable lid crossmembers, whereupon its rise for extracting the treated logs.

Figure 1 presents a General view of the pool with a lid.

Figure 2 presents a top view.

Figure 3 presents a side view.

Figure 4 is a view along arrow A. View of the guide along the length of the side and the guide in width at the rear.

Figure 5 is a view along arrow B. Top view of the guide along the length and width guide without lever.

6 is a view along arrow G.

7 is a section bb.

In Fig.8 is a view along arrow D.

The pool for hydrothermal processing of wood includes a steaming tank 1, on the longitudinal walls of which there are traps 2 with locks 3 (see figure 2), a removable cover 4 (see figure 1), a heated water supply pipe 5 and a water withdrawal pipe 6 from the pool. Traps 2 are guides along the length of 7 and guides along the width 8. The guide along the length 7 (see Figs. 4, 5) is made of a profile of a certain length bent along the radius R1 to the outside of the pool and is connected by an integral connection to the inner wall of the steaming tank. The width guide 8 is made in the form of a bracket 9 with a cover 10 bent along a radius R2 (see FIG. 3) to the outside of the width of the cover 4. The bracket 9 with a cover 10 is mounted on top of the wall of the steaming tank 1. These guides can be connected by one-piece connection. The lock 3 is a lever 11 (see Fig.6, 7, 8), mounted freely under the length of the pipe 12, which in turn is inserted into the hole of the bracket 9 with the axis 13 and is welded to it. The free end of the lever 11 is held in horizontal position by a U-shaped clamp 14 (see Fig. 8) with a handle 15, which is installed using the axis 16 of the clamp 14 in the holes of the eyes 17 mounted on top of the wall of the steaming tank 1 between the traps 2.

Traps 2 with locks 3 for one lid 4 are installed two opposite each other on both sides of the pool so that the locks 3 are located between the traps 2 on one side of the pool.

The removable cover 4 is a prefabricated metal plate with overall dimensions exceeding the internal dimensions of the pool in width. The plate is a rectangular frame made of two parallel lower rungs 18 (see figure 1), exceeding the length of the width of the open part of the pool, and the lower cross members 19 of the metal profile. At the same time, the lower cross-members 19 are located below the parallel crossbeams 18 and are located inside the pool across the logs being processed, forming parallel protrusions that hold the processed logs in the water during their hydrothermal treatment and prevent their ascent. The lower crossbars 19 are made longer than the distance between the crossbars, with the formation of a protrusion 20 (see figure 2) on both sides of the crossbars. On top of the cross members 19, metal sheets 21 are laid, forming a plate covering the steaming tank 1 of the pool or part of its length. Moreover, the distance between the two extreme crossbars 19 does not exceed Nb, where Nb is the width of the pool, and the two extreme lower crossbars 18 have a size exceeding Nb in length and equal to Nshk in width, where Nshk is the distance between two guides in width 8 at the edge pool located on one side of the pool.

The sizes Nb exceeding the extreme lower crossbars 18 form the end protrusions 22 of the cover 4. Vertical racks 23 (see Fig. 1) and inclined racks 24 are attached to the lower crossbars 18 from above, forming a fence together with two parallel upper crossbars 25. The extreme racks 23 are equipped with jibs 26 (see figure 3), forming the smallest acute angle between them from above, and the middle struts 23 are equipped with jibs 27, forming the smallest acute angle between them from below and 90 degrees between the vertical struts and the upper crosspiece 28 located between two parallels Yelnia upper beams 25.

The method of hydrothermal processing of wood in a pool includes filling a steaming tank 1 with wood partially filled with water, installing a removable cover 2 on the opening of the pool and attaching it from above to the wall of the steaming tank 1. Then, if the pool opening is completely blocked by cover 4, water of the required temperature is supplied to the pool in one of the corners of the steaming tank from the bottom to the level of the lower cross-members 19, forming the lower plane of the removable cover 4, indicating the beginning of hydrothermal treatment. And in the process of hydrothermal treatment, the water level is maintained at this level and is regulated by the supply to the pool of water of the required temperature by the heated water supply pipe 5 and its selection by the water selection pipe 6 from the pool. In this case, the temperature and duration of heating are determined by tabular data, which includes: wood species and its thickness, air temperature, season, delivery method, selected hydrothermal treatment mode. And after hydrothermal treatment, the water supply to the pool is stopped by the heated water supply pipe 5 and it is withdrawn by the water extraction pipe 6 from the pool to the level of guaranteed pressure relief of the processed loaded logs from the cross members 19 of the removable cover 4. Then, the removable cover 4 is lifted and the processed loaded logs are removed. Then the cycle repeats.

The pool is made as follows. Using the foundation pit and formwork with embedded elements for attaching traps 2, fencing 29 (see Fig. 2) of the heated water supply pipes 5 and water extraction 6, the steaming tank 1 is made of reinforced concrete with a depth of 4,000 mm, a width of 6,000 mm and a length of 9 900 mm with a wall and bottom thickness of 400 mm. If the side of the steaming tank 1 rises above the ground by 750 mm, then around it you can put a blind area in the form of an asphalt track. If for some reason the side of the steaming tank 1 rises above the ground level above 750 mm, say 1000 mm, then around you can make a metal flyover service 30 (in figure 1 it is shown conditionally) 700 mm wide and 500 mm high with a fence to the edge. In our case, or when the existing steaming tank is being finalized and there are no embedded elements, the traps 2 are fastened by welding to power overhead elements 31 and holding U-shaped overhead elements 32 installed on top of the pool side. Power patch elements 31 and retaining patch elements 32 are made in the form of segments of a U-shaped profile with a length of 540 mm and 300 mm, respectively, the free ends of which are spaced along the wall thickness, in this case, 400 mm. They have holes with a diameter of Ø14 mm, which are symmetrically located along the width of the patch elements with a distance equal to at least 250 mm from the profile shelf. Overhead elements are made, like trap elements 2, from St3 steel. Guides along the length of 7 (see figure 4) were made from a pipe 50 × 50 × 4.0, 700 mm long. A straight section of this pipe with a size of 200 mm was welded from the inside of the steaming tank 1 to the power overhead element 31, and a curved along the radius R1 = 870 mm and the rising part above the pool wall was welded with the upper part to the back wall of the bracket 9, which is manufactured and installed as follows. The width guide 8 is welded to the power patch 31 and made of 4.0 mm sheet in the form of a bracket 9 with a strip 10 bent along the radius R2 of the 4.0 mm plate to the outside of the end protrusions 22 of the cover 4. The bracket 9 has the same radius with pad 10 in the place of their docking. They are mounted on top of the wall of the steaming tank 1. The lever 11 is a separate part and is made of a profile of 50 × 100 × 4.0 with a length of 850 mm, the latch 33 is welded at one end, and the plate 34 at the other. The latch 33 and the plate 34 are welded on one the edges of the lever 11. The latch 33 is made of a pipe segment 50 × 50 × 4, and the plate 34 is 20 × 40 in size from a sheet of 20.0 mm cut into a cone. The clamp 14 was fixed through the eyes 17 with a rack height of 150 mm and a distance between them of 60 mm from a sheet 4.0 mm thick. The free ends of the uprights have two holes with a diameter of 16 mm for axial articulation with eyes mounted on the retaining patch elements 32. All installed traps with locks can be made together with embedded elements or as embedded elements in the manufacture of the pool.

The removable cover 4 is made mainly from a pipe 100 × 50 × 4 by welding. By means of welding, lower rails 19 equally spaced from each other were fastened to the crossbars 18 with a length of 6400 mm from the bottom 19. In our case, 3300 mm long in the amount of ten pieces per one removable cover. From above, sheets 21 21 with a thickness of 2.0 mm were superimposed on the lower cross members 19 and fastened by welding. For confident logging, it is possible to install an additional crossbar 35 to the lower crossbars 18 (see figure 3). From above, to the lower crossbeams 18, fencing racks were fastened by welding, the main purpose of which is to distribute the support of the treated wood perceived by the lid due to the inclined racks 24, the connection of which can be strengthened with scarves and overlays (not indicated). For convenience in work, when laying one cover on another, you can install an additional upper cross member 36. To close the pool with an open area of 6.0 × 9.9 m, you must have three such covers. If the hydrotechnical wood processing platform consists of four such grouped pools, then you need to have nine covers, because one of them is always under load.

The pool operates as follows, implementing a method of hydrothermal processing of wood. Logs with a length of 5.3 m across the width of the pool 6.0 m and a length of 9.9 m are laid with a grab in one of the vacated or free grouped pools, ensuring maximum pool filling to a height of 3.5 m. When laying, make sure that the logs lie parallel to each other on the short side pool. The upper level of the logs should be at least 200 mm lower than the upper level of the pool. At the same time, the installed water supply and withdrawal pipelines located in opposite corners of the pool are protected from damage by fences 29. These barriers in the form of a partition can have various forms of perforations for free passage of water through the partition. Then the same grapple closes the pool opening with covers. To do this, he lifts it by the upper cross member 28 and carries it to the installation site, which is determined by the location of the first four traps 2 on the pool. The presence of traps with guides along the length 7 and guides along the width 8 allows the crane operator to work alone, because the presence of a radius R1 of guides along the length of 7 allows the crane operator to position the ends of the lid, which are determined by the extreme crossbars 19, relative to the width of the pool with a shift of 200 mm in one direction or another. The radius R2 of the bracket 9 with a lining 10 of guides along the width of 8 allows the crane operator to position the end protrusions 22 of the lower lower rungs 18 relative to the length of the pool with an offset of 180 mm in one direction or another. Thus, it is easier to install the cover 4 on the side of the pool when shifting its perimeter within these limits, because, sliding along the radii, it itself will fall into place under its own weight. Similarly, the second cover 4 is installed at the location of four other traps 2 and then the third cover 4 at the location of the other last four traps 2. An auxiliary worker, who now does not need to have special qualifications such as a slinger, stands on the first cover if it is not alone, as in our case case, and inserts the levers 11 of the locks 3, two on each side. To do this, unfold the lever 11 with the face on which the latch 33 and the plate 34 are located, up. One end, on which the latch 33 is located (see Fig. 7), is placed on the end protrusion 22 and slide it between the uprights of the U-shaped bracket 9 under the lining 10, pushing it under the length of the pipe 12, so that the latch 33 is beyond the length of the pipe 12 Then set the lever 11 in a horizontal position, which is ensured by the size ratio between the axis 13 of the hole of the bracket 9, the diameter of the pipe segment 12, the height of the lever 11 and the height of the end protrusion 22. Then, when the lever 11 is in a horizontal position, it is extended in the opposite direction, to f the ixator 33 touched the pipe segment 12, and the second end of the lever 11 was inside the clamp 14 when it was rotated by the handle 15 from horizontal to vertical position behind the plate 34. Similar actions are carried out with other covers to keep them in traps from displacement when the material being processed is loaded on them . In this operation, the cover 4 is used as a gangway, in which vertical and inclined racks are used as a fence, excluding accidents associated with the possibility of falling into the opening of the pool personnel. Then, the completely closed opening of the pool with the fixed covers 4 is filled with water of the required temperature into one of the corners of the steaming tank from the bottom to the level of the lower cross members 19. The pool is filled with a heated water supply pipe 5, made in the form of a pipe DN 50. The temperature of the supplied water poured into the pool Depends on air temperature, season, supply system, etc. and regulated by the pump station operator. The filling of the pool is considered complete when the water reaches the level of the cross-members 19, forming the lower horizontal plane of the removable cover 4. At this time, water is taken from the pool by a water withdrawal pipe 6, made in the form of a pipe DN 50 with a filter (not indicated in Fig. 1) at the end . This water level is maintained and regulated by the supply to the pool of water of the required temperature by the heated water supply pipe 5 and its selection by the water withdrawal pipe 6 from the pool. Water taken from the pool through the heating system returns again to the pool, and its losses are compensated by the additional supply of water. After hydrothermal treatment, the water supply to the pool is stopped by the heated water supply pipe 5 and it is withdrawn by the water selection pipe 6 from the pool to the level of guaranteed pressure relief of the processed logs from the cross members 19 of the removable cover 4. When the water level in the pool decreases by 400 mm, the treated wood in in the form of plywood ridge ceases to press on the lid, therefore, further selection of water is impractical. Therefore, the lock 3 is opened by turning the handle 15 in the opposite direction and removing the clip 14 from the lever 11, which played the role of a deadbolt, releasing it in the reverse order. They take it out and put it on the cover between the crossbars 18 until the next installation of cover 4 on the pool. In this way, all the covers are released from the trap locks and, for the cross-member 28, they are transferred to the neighboring pool, in which similar processing takes place, and are installed on the crossbars 25 of the cover of the neighboring pool. Treated wood is removed from the pool and sent to the next operation of the production process. Next is the process of refilling and repeating the hydrothermal treatment cycle.

Thus, the task of wood warming was performed during hydrothermal treatment with a maximum level of filling the pool with wood. If hydrothermal treatment of wood is carried out in the usual manner, then to melt 125 m ^{3 of} wood, it is necessary to apply a force of more than 15 tons to each cover. A cover for hydrothermal treatment using the proposed group of inventions weighs 2 tons.

Claims (3)

1. A pool for hydrothermal processing of wood, including a steaming tank with a removable lid, pipes for supplying heated water and its selection, characterized in that traps with locks of four for each cover are installed on its longitudinal walls, and pipes for supplying heated water and its selection are located in opposite corners of the pool diagonally and covered with a fence. 2. A removable lid in the form of a rectangular metal plate, consisting of a frame including lower rails and crossbars, coated with a metal sheet on top, characterized in that the lower rails are located below the parallel rails and are located inside the pool across the processed logs, forming parallel protrusions, and the lower rails form end protrusions for installation and fixation in the pool traps, while the lower rails on top are equipped with vertical and inclined racks, forming about citizenship together with two parallel upper rungs, which are connected in the center by the upper crossbar. 3. A method of hydrothermal processing of wood, including filling a steaming tank with wood, installing a removable lid on the opening of the pool and supplying the required temperature to the pool with maintaining a certain water level during hydrothermal treatment, which is supported by supplying the required temperature to the pool and taking it out of the pool, the temperature and duration of heating are determined by tabular data, and after hydrothermal treatment, the flow of water into the pool is stopped, the lid and remove the processed logs, characterized in that after installing the removable lid it is attached to the pool and then the required temperature is supplied to the pool of water in one of the corners of the steaming tank from below to the level of the lower cross members of the lid, forming the lower plane of the removable lid, and the selection is carried out from the opposite corner of the pool, located diagonally, while after hydrothermal treatment of wood and shut off the water supply to the pool, water is taken from the pool to a guaranteed level pressure relief of the processed loaded logs from the cross members of the removable lid, after which it is lifted to extract the processed logs.

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